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Fetal anomalies v0.0 PAX2 Zornitza Stark gene: PAX2 was added
gene: PAX2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: PAX2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: PAX2 were set to RENAL-COLOBOMA SYNDROME
Fetal anomalies v0.0 PARN Zornitza Stark gene: PARN was added
gene: PARN was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: PARN was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: PARN were set to Dyskeratosis congenita, autosomal recessive 6
Fetal anomalies v0.0 PAPSS2 Zornitza Stark gene: PAPSS2 was added
gene: PAPSS2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: PAPSS2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: PAPSS2 were set to SPONDYLOEPIMETAPHYSEAL DYSPLASIA PAKISTANI TYPE
Fetal anomalies v0.0 PALB2 Zornitza Stark gene: PALB2 was added
gene: PALB2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: PALB2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: PALB2 were set to FANCONI ANEMIA, COMPLEMENTATION GROUP N
Fetal anomalies v0.0 PAK3 Zornitza Stark gene: PAK3 was added
gene: PAK3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: PAK3 was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Publications for gene: PAK3 were set to 24556213
Phenotypes for gene: PAK3 were set to AGENESIS OF THE CORPUS CALLOSUM; MENTAL RETARDATION X-LINKED TYPE 30
Fetal anomalies v0.0 PAFAH1B1 Zornitza Stark gene: PAFAH1B1 was added
gene: PAFAH1B1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: PAFAH1B1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: PAFAH1B1 were set to SUBCORTICAL BAND HETEROTOPIA; LISSENCEPHALY TYPE 1
Fetal anomalies v0.0 P3H1 Zornitza Stark gene: P3H1 was added
gene: P3H1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: P3H1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: P3H1 were set to OSTEOGENESIS IMPERFECTA, TYPE VIII
Fetal anomalies v0.0 OTX2 Zornitza Stark gene: OTX2 was added
gene: OTX2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: OTX2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: OTX2 were set to MICROPHTHALMIA SYNDROMIC TYPE 5
Fetal anomalies v0.0 OSTM1 Zornitza Stark gene: OSTM1 was added
gene: OSTM1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: OSTM1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: OSTM1 were set to Osteopetrosis 259720
Fetal anomalies v0.0 ORC6 Zornitza Stark gene: ORC6 was added
gene: ORC6 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ORC6 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ORC6 were set to MEIER-GORLIN SYNDROME 3
Fetal anomalies v0.0 ORC4 Zornitza Stark gene: ORC4 was added
gene: ORC4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ORC4 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ORC4 were set to MEIER-GORLIN SYNDROME 2
Fetal anomalies v0.0 ORC1 Zornitza Stark gene: ORC1 was added
gene: ORC1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ORC1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ORC1 were set to MEIER-GORLIN SYNDROME 1
Fetal anomalies v0.0 OPHN1 Zornitza Stark gene: OPHN1 was added
gene: OPHN1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: OPHN1 was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: OPHN1 were set to Mental retardation, X-linked, with cerebellar hypoplasia and distinctive facial appearance, 300486
Fetal anomalies v0.0 OFD1 Zornitza Stark gene: OFD1 was added
gene: OFD1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: OFD1 was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Phenotypes for gene: OFD1 were set to SIMPSON-GOLABI-BEHMEL SYNDROME TYPE 2; JOUBERT SYNDROME TYPE 10; ORAL-FACIAL-DIGITAL SYNDROME TYPE 1
Fetal anomalies v0.0 OCRL Zornitza Stark gene: OCRL was added
gene: OCRL was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: OCRL was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Publications for gene: OCRL were set to 33517444
Phenotypes for gene: OCRL were set to Lowe syndrome, OMIM:309000; Dent disease 2, OMIM:300555
Fetal anomalies v0.0 OCLN Zornitza Stark gene: OCLN was added
gene: OCLN was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: OCLN was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: OCLN were set to Band-like calcification with simplified gyration and polymicrogyria 251290
Fetal anomalies v0.0 OBSL1 Zornitza Stark gene: OBSL1 was added
gene: OBSL1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: OBSL1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: OBSL1 were set to 3-M SYNDROME 2
Fetal anomalies v0.0 NUP107 Zornitza Stark gene: NUP107 was added
gene: NUP107 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NUP107 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: NUP107 were set to EARLY-CHILDHOOD-ONSET STEROID-RESISTANT NEPHROTIC SYNDROME
Fetal anomalies v0.0 NUBPL Zornitza Stark gene: NUBPL was added
gene: NUBPL was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NUBPL was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: NUBPL were set to MITOCHONDRIAL COMPLEX I DEFICIENCY
Fetal anomalies v0.0 NSDHL Zornitza Stark gene: NSDHL was added
gene: NSDHL was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NSDHL was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Phenotypes for gene: NSDHL were set to CK SYNDROME; CONGENITAL HEMIDYSPLASIA WITH ICHTHYOSIFORM ERYTHRODERMA AND LIMB DEFECTS
Fetal anomalies v0.0 NSD1 Zornitza Stark gene: NSD1 was added
gene: NSD1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NSD1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: NSD1 were set to BECKWITH-WIEDEMANN SYNDROME; WEAVER SYNDROME; SOTOS SYNDROME
Fetal anomalies v0.0 NRAS Zornitza Stark gene: NRAS was added
gene: NRAS was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NRAS was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: NRAS were set to NOONAN SYNDROME TYPE 6
Fetal anomalies v0.0 NR5A1 Zornitza Stark gene: NR5A1 was added
gene: NR5A1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NR5A1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: NR5A1 were set to SPERMATOGENIC FAILURE 8; 46XY SEX REVERSAL 3
Fetal anomalies v0.0 NR2F2 Zornitza Stark gene: NR2F2 was added
gene: NR2F2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NR2F2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: NR2F2 were set to CONGENITAL HEART DEFECTS, MULTIPLE TYPES, 4
Fetal anomalies v0.0 NR0B1 Zornitza Stark gene: NR0B1 was added
gene: NR0B1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NR0B1 was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Phenotypes for gene: NR0B1 were set to 46XY sex reversal 2, dosage-sensitive 300018; Adrenal hypoplasia, congenital 300200
Fetal anomalies v0.0 NPR2 Zornitza Stark gene: NPR2 was added
gene: NPR2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NPR2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: NPR2 were set to ACROMESOMELIC DYSPLASIA MAROTEAUX TYPE
Fetal anomalies v0.0 NPHS1 Zornitza Stark gene: NPHS1 was added
gene: NPHS1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NPHS1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: NPHS1 were set to NEPHROTIC SYNDROME TYPE 1
Fetal anomalies v0.0 NPHP4 Zornitza Stark gene: NPHP4 was added
gene: NPHP4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NPHP4 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: NPHP4 were set to NEPHRONOPHTHISIS TYPE 4
Fetal anomalies v0.0 NPHP3 Zornitza Stark gene: NPHP3 was added
gene: NPHP3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NPHP3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: NPHP3 were set to RENAL-HEPATIC-PANCREATIC DYSPLASIA; NEPHRONOPHTHISIS TYPE 3; MECKEL SYNDROME TYPE 7
Fetal anomalies v0.0 NPHP1 Zornitza Stark gene: NPHP1 was added
gene: NPHP1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NPHP1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: NPHP1 were set to NEPHRONOPHTHISIS TYPE 1; JOUBERT SYNDROME TYPE 4; SENIOR-LOKEN SYNDROME TYPE 1
Fetal anomalies v0.0 NPC2 Zornitza Stark gene: NPC2 was added
gene: NPC2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NPC2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: NPC2 were set to NIEMANN-PICK DISEASE, TYPE C2
Fetal anomalies v0.0 NPC1 Zornitza Stark gene: NPC1 was added
gene: NPC1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NPC1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: NPC1 were set to NIEMANN-PICK DISEASE, TYPE C1
Fetal anomalies v0.0 NOTCH2 Zornitza Stark gene: NOTCH2 was added
gene: NOTCH2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NOTCH2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: NOTCH2 were set to HAJDU-CHENEY SYNDROME
Fetal anomalies v0.0 NOTCH1 Zornitza Stark gene: NOTCH1 was added
gene: NOTCH1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NOTCH1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: NOTCH1 were set to ADAMS OLIVER SYNDROME; LEFT VENTRICULAR OUTFLOW TRACT OBSTRUCTION
Fetal anomalies v0.0 NOG Zornitza Stark gene: NOG was added
gene: NOG was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NOG was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: NOG were set to SYMPHALANGISM PROXIMAL SYNDROME; TARSAL-CARPAL COALITION SYNDROME; MULTIPLE SYNOSTOSES SYNDROME TYPE 1; BRACHYDACTYLY TYPE B2; STAPES ANKYLOSIS WITH BROAD THUMB AND TOES
Fetal anomalies v0.0 NODAL Zornitza Stark gene: NODAL was added
gene: NODAL was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NODAL was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: NODAL were set to HETEROTAXY SYNDROME
Fetal anomalies v0.0 NKX3-2 Zornitza Stark gene: NKX3-2 was added
gene: NKX3-2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NKX3-2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: NKX3-2 were set to SPONDYLO-MEGAEPIPHYSEAL-METAPHYSEAL DYSPLASIA
Fetal anomalies v0.0 NKX2-5 Zornitza Stark gene: NKX2-5 was added
gene: NKX2-5 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NKX2-5 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: NKX2-5 were set to CONGENITAL HYPOTHYROIDISM NON-GOITROUS TYPE 5; TETRALOGY OF FALLOT; ATRIAL SEPTAL DEFECT WITH ATRIOVENTRICULAR CONDUCTION DEFECTS
Fetal anomalies v0.0 NIPBL Zornitza Stark gene: NIPBL was added
gene: NIPBL was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NIPBL was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: NIPBL were set to CORNELIA DE LANGE SYNDROME TYPE 1
Fetal anomalies v0.0 NHS Zornitza Stark gene: NHS was added
gene: NHS was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NHS was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: NHS were set to CATARACT CONGENITAL X-LINKED; NANCE-HORAN SYNDROME
Fetal anomalies v0.0 NHEJ1 Zornitza Stark gene: NHEJ1 was added
gene: NHEJ1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NHEJ1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: NHEJ1 were set to Severe combined immunodeficiency with microcephaly, growth retardation, and sensitivity to ionizing radiation 611291
Fetal anomalies v0.0 NFIX Zornitza Stark gene: NFIX was added
gene: NFIX was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NFIX was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: NFIX were set to SOTOS-LIKE SYNDROME; MARSHALL-SMITH SYNDROME
Fetal anomalies v0.0 NF1 Zornitza Stark gene: NF1 was added
gene: NF1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NF1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: NF1 were set to FAMILIAL SPINAL NEUROFIBROMATOSIS; NEUROFIBROMATOSIS-NOONAN SYNDROME; WATSON SYNDROME; NEUROFIBROMATOSIS TYPE 1
Fetal anomalies v0.0 NEU1 Zornitza Stark gene: NEU1 was added
gene: NEU1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NEU1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: NEU1 were set to SIALIDOSIS
Fetal anomalies v0.0 NEK1 Zornitza Stark gene: NEK1 was added
gene: NEK1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NEK1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: NEK1 were set to SHORT RIB-POLYDACTYLY SYNDROME, TYPE II; Short-rib thoracic dysplasia 6 with or without polydactyly, 263520; SHORT RIB-POLYDACTYLY SYNDORME, TYPE II
Fetal anomalies v0.0 NECTIN4 Zornitza Stark gene: NECTIN4 was added
gene: NECTIN4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NECTIN4 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: NECTIN4 were set to ECTODERMAL DYSPLASIA-SYNDACTYLY SYNDROME 1
Fetal anomalies v0.0 NEB Zornitza Stark gene: NEB was added
gene: NEB was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NEB was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: NEB were set to AUTOSOMAL RECESSIVE TYPICAL NEMALINE MYOPATHY
Fetal anomalies v0.0 NDUFAF5 Zornitza Stark gene: NDUFAF5 was added
gene: NDUFAF5 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NDUFAF5 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: NDUFAF5 were set to 30266093; 18940309; 21620786
Phenotypes for gene: NDUFAF5 were set to Mitochondrial complex I deficiency, nuclear type 16, 618238
Fetal anomalies v0.0 NDP Zornitza Stark gene: NDP was added
gene: NDP was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NDP was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Publications for gene: NDP were set to 30125416
Phenotypes for gene: NDP were set to NORRIE DISEASE
Fetal anomalies v0.0 NDE1 Zornitza Stark gene: NDE1 was added
gene: NDE1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NDE1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: NDE1 were set to LISSENCEPHALY 4
Fetal anomalies v0.0 NBN Zornitza Stark gene: NBN was added
gene: NBN was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NBN was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: NBN were set to NIJMEGEN BREAKAGE SYNDROME
Fetal anomalies v0.0 NBAS Zornitza Stark gene: NBAS was added
gene: NBAS was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NBAS was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: NBAS were set to ACUTE LIVER FAILURE (ALF) IN INFANCY AND CHILDHOOD
Fetal anomalies v0.0 NANS Zornitza Stark gene: NANS was added
gene: NANS was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NANS was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: NANS were set to infantile-onset severe developmental delay and skeletal dysplasia
Fetal anomalies v0.0 NALCN Zornitza Stark gene: NALCN was added
gene: NALCN was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NALCN was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: NALCN were set to HYPOTONIA, INFANTILE, WITH PSYCHOMOTOR RETARDATION AND CHARACTERISTIC FACIES; CONGENITAL CONTRACTURES OF THE LIMBS AND FACE, HYPOTONIA, AND DEVELOPMENTAL DELAY; SEVERE HYPOTONIA, SPEECH IMPAIRMENT, AND COGNITIVE DELAY
Fetal anomalies v0.0 NAGA Zornitza Stark gene: NAGA was added
gene: NAGA was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NAGA was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: NAGA were set to SCHINDLER DISEASE; KANZAKI DISEASE
Fetal anomalies v0.0 NACC1 Zornitza Stark gene: NACC1 was added
gene: NACC1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NACC1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: NACC1 were set to Infantile Epilepsy, Cataracts, and Profound Developmental Delay
Fetal anomalies v0.0 NAA10 Zornitza Stark gene: NAA10 was added
gene: NAA10 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: NAA10 was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Phenotypes for gene: NAA10 were set to X-linked anophthalmia syndrome/Lenz; X-linked anophthalmia syndrome; NONPECIFIC SEVERE ID; OGDEN SYNDROME
Fetal anomalies v0.0 MYT1 Zornitza Stark gene: MYT1 was added
gene: MYT1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MYT1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: MYT1 were set to 28612832; 27358179
Phenotypes for gene: MYT1 were set to Oculo-auriculo-vertebral spectrum (OAVS); OAVS/Goldenhar syndrome
Mode of pathogenicity for gene: MYT1 was set to Other
Fetal anomalies v0.0 MYRF Zornitza Stark gene: MYRF was added
gene: MYRF was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MYRF was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: MYRF were set to 30985895; 30070761; 31069960; 29446546; 30532227
Phenotypes for gene: MYRF were set to Congenital diaphragmatic hernia (CDH); Cardiac-urogenital syndrome, 618280; Disorders of sex development (DSD)
Fetal anomalies v0.0 MYH9 Zornitza Stark gene: MYH9 was added
gene: MYH9 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MYH9 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: MYH9 were set to MAY-HEGGLIN ANOMALY; FECHTNER SYNDROME; EPSTEIN SYNDROME; MACROTHROMBOCYTOPENIA WITH PROGRESSIVE SENSORINEURAL DEAFNESS; SEBASTIAN SYNDROME; DEAFNESS AUTOSOMAL DOMINANT TYPE 17
Fetal anomalies v0.0 MYH8 Zornitza Stark gene: MYH8 was added
gene: MYH8 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MYH8 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: MYH8 were set to CARNEY COMPLEX VARIANT; DISTAL ARTHROGRYPOSIS TYPE
Fetal anomalies v0.0 MYH6 Zornitza Stark gene: MYH6 was added
gene: MYH6 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MYH6 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MYH6 were set to ATRIAL SEPTAL DEFECT TYPE 3; CARDIOMYOPATHY FAMILIAL HYPERTROPHIC TYPE 14; CARDIOMYOPATHY DILATED TYPE 1EE
Fetal anomalies v0.0 MYH3 Zornitza Stark gene: MYH3 was added
gene: MYH3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MYH3 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: MYH3 were set to DISTAL ARTHROGRYPOSIS TYPE 2A; DISTAL ARTHROGRYPOSIS TYPE 2B
Fetal anomalies v0.0 MYH11 Zornitza Stark gene: MYH11 was added
gene: MYH11 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MYH11 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: MYH11 were set to 29575632; 25407000; 31427716
Phenotypes for gene: MYH11 were set to Megacystis Microcolon Intestinal Hypoperistalsis Syndrome (MMIH)
Fetal anomalies v0.0 MYH10 Zornitza Stark gene: MYH10 was added
gene: MYH10 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MYH10 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: MYH10 were set to 30712878
Phenotypes for gene: MYH10 were set to MYH10-related Multiple congenital anomalies; Bilateral ventriculomegaly; aqueductal stenosis
Fetal anomalies v0.0 MYCN Zornitza Stark gene: MYCN was added
gene: MYCN was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MYCN was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: MYCN were set to FEINGOLD SYNDROME TYPE 1
Fetal anomalies v0.0 MYBPC1 Zornitza Stark gene: MYBPC1 was added
gene: MYBPC1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MYBPC1 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: MYBPC1 were set to Arthrogryposis, distal, type 1B 614335; Lethal congenital contracture syndrome 4 614915
Fetal anomalies v0.0 MUSK Zornitza Stark gene: MUSK was added
gene: MUSK was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MUSK was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MUSK were set to Myasthenic syndrome, congenital, 9, associated with acetylcholine receptor deficiency; Fetal akinesia deformation sequence
Fetal anomalies v0.0 MTOR Zornitza Stark gene: MTOR was added
gene: MTOR was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MTOR was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: MTOR were set to Smith-Kingsmore syndrome
Fetal anomalies v0.0 MTO1 Zornitza Stark gene: MTO1 was added
gene: MTO1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MTO1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MTO1 were set to INFANTILE HYPERTROPHIC CARDIOMYOPATHY AND LACTIC ACIDOSIS
Fetal anomalies v0.0 MTM1 Zornitza Stark gene: MTM1 was added
gene: MTM1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MTM1 was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: MTM1 were set to MYOTUBULAR MYOPATHY, X-LINKED
Fetal anomalies v0.0 MSX2 Zornitza Stark gene: MSX2 was added
gene: MSX2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MSX2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: MSX2 were set to ENLARGED PARIETAL FORAMINA/CRANIUM BIFIDUM; CRANIOSYNOSTOSIS, TYPE 2
Fetal anomalies v0.0 MSX1 Zornitza Stark gene: MSX1 was added
gene: MSX1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MSX1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: MSX1 were set to CLEFT LIP +/- CLEFT PALATE
Fetal anomalies v0.0 MSL3 Zornitza Stark gene: MSL3 was added
gene: MSL3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MSL3 was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Publications for gene: MSL3 were set to 30224647
Phenotypes for gene: MSL3 were set to Basilicata-Akhtar syndrome, 301032; MSL3 syndrome
Fetal anomalies v0.0 MRPS22 Zornitza Stark gene: MRPS22 was added
gene: MRPS22 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MRPS22 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: MRPS22 were set to 28425981
Phenotypes for gene: MRPS22 were set to COMBINED OXIDATIVE PHOSPHORYLATION DEFICIENCY 5
Fetal anomalies v0.0 MPLKIP Zornitza Stark gene: MPLKIP was added
gene: MPLKIP was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MPLKIP was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MPLKIP were set to TRICHOTHIODYSTROPHY NON-PHOTOSENSITIVE TYPE 1
Fetal anomalies v0.0 MPDU1 Zornitza Stark gene: MPDU1 was added
gene: MPDU1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MPDU1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MPDU1 were set to CONGENITAL DISORDERS OF GLYCOSYLATION
Fetal anomalies v0.0 MOCS2 Zornitza Stark gene: MOCS2 was added
gene: MOCS2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MOCS2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MOCS2 were set to MOLYBDENUM COFACTOR DEFICIENCY
Fetal anomalies v0.0 MOCS1 Zornitza Stark gene: MOCS1 was added
gene: MOCS1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MOCS1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MOCS1 were set to MOLYBDENUM COFACTOR DEFICIENCY
Fetal anomalies v0.0 MNX1 Zornitza Stark gene: MNX1 was added
gene: MNX1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MNX1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: MNX1 were set to CURRARINO SYNDROME
Fetal anomalies v0.0 MMP21 Zornitza Stark gene: MMP21 was added
gene: MMP21 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MMP21 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MMP21 were set to MMP21-associated heterotaxy
Fetal anomalies v0.0 MMP13 Zornitza Stark gene: MMP13 was added
gene: MMP13 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MMP13 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: MMP13 were set to SPONDYLOEPIMETAPHYSEAL DYSPLASIA MISSOURI TYPE; METAPHYSEAL ANADYSPLASIA TYPE 1
Fetal anomalies v0.0 MMADHC Zornitza Stark gene: MMADHC was added
gene: MMADHC was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MMADHC was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MMADHC were set to METHYLMALONIC ACIDURIA AND HOMOCYSTINURIA TYPE CBLD
Fetal anomalies v0.0 MMACHC Zornitza Stark gene: MMACHC was added
gene: MMACHC was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MMACHC was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MMACHC were set to METHYLMALONIC ACIDURIA AND HOMOCYSTINURIA, CBLC TYPE
Fetal anomalies v0.0 MLYCD Zornitza Stark gene: MLYCD was added
gene: MLYCD was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MLYCD was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MLYCD were set to MALONYL-COA DECARBOXYLASE DEFICIENCY
Fetal anomalies v0.0 MLC1 Zornitza Stark gene: MLC1 was added
gene: MLC1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MLC1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MLC1 were set to LEUKOENCEPHALOPATHY MEGALENCEPHALIC WITH SUBCORTICAL CYSTS
Fetal anomalies v0.0 MKS1 Zornitza Stark gene: MKS1 was added
gene: MKS1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MKS1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MKS1 were set to MECKEL SYNDROME TYPE 1; BARDET-BIEDL SYNDROME TYPE 13
Fetal anomalies v0.0 MKKS Zornitza Stark gene: MKKS was added
gene: MKKS was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MKKS was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MKKS were set to BARDET-BIEDL SYNDROME TYPE 6; MCKUSICK-KAUFMAN SYNDROME
Fetal anomalies v0.0 MID1 Zornitza Stark gene: MID1 was added
gene: MID1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MID1 was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: MID1 were set to OPITZ G/BBB SYNDROME, X-LINKED
Fetal anomalies v0.0 MGP Zornitza Stark gene: MGP was added
gene: MGP was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MGP was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MGP were set to KEUTEL SYNDROME
Fetal anomalies v0.0 MFSD2A Zornitza Stark gene: MFSD2A was added
gene: MFSD2A was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MFSD2A was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MFSD2A were set to Neurodevelopmental disorder with progressive microcephaly, spasticity, and brain imaging abnormalities, 616486
Fetal anomalies v0.0 MFRP Zornitza Stark gene: MFRP was added
gene: MFRP was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MFRP was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MFRP were set to MICROPHTHALMIA ISOLATED TYPE 5; NANOPHTHALMOS 2
Fetal anomalies v0.0 MESP2 Zornitza Stark gene: MESP2 was added
gene: MESP2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MESP2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MESP2 were set to SPONDYLOCOSTAL DYSOSTOSIS TYPE 2
Fetal anomalies v0.0 MEGF8 Zornitza Stark gene: MEGF8 was added
gene: MEGF8 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MEGF8 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MEGF8 were set to CARPENTER SYNDROME
Fetal anomalies v0.0 MEGF10 Zornitza Stark gene: MEGF10 was added
gene: MEGF10 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MEGF10 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MEGF10 were set to MYOPATHY, EARLY-ONSET, AREFLEXIA, RESPIRATORY DISTRESS, AND DYSPHAGIA
Fetal anomalies v0.0 MEF2C Zornitza Stark gene: MEF2C was added
gene: MEF2C was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MEF2C was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: MEF2C were set to MENTAL RETARDATION-STEREOTYPIC MOVEMENTS-EPILEPSY AND/OR CEREBRAL MALFORMATIONS
Fetal anomalies v0.0 MED12 Zornitza Stark gene: MED12 was added
gene: MED12 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MED12 was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: MED12 were set to LUJAN-FRYNS SYNDROME; OPITZ-KAVEGGIA SYNDROME
Fetal anomalies v0.0 MCPH1 Zornitza Stark gene: MCPH1 was added
gene: MCPH1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MCPH1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MCPH1 were set to MICROCEPHALY PRIMARY TYPE 1
Fetal anomalies v0.0 MCOLN1 Zornitza Stark gene: MCOLN1 was added
gene: MCOLN1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MCOLN1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MCOLN1 were set to MUCOLIPIDOSIS IV
Fetal anomalies v0.0 MBTPS2 Zornitza Stark gene: MBTPS2 was added
gene: MBTPS2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MBTPS2 was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: MBTPS2 were set to IFAP syndrome with or without BRESHECK syndrome 308205; Keratosis follicularis spinulosa decalvans, X-linked 308800
Fetal anomalies v0.0 MATN3 Zornitza Stark gene: MATN3 was added
gene: MATN3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MATN3 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: MATN3 were set to MULTIPLE EPIPHYSEAL DYSPLASIA TYPE 5
Fetal anomalies v0.0 MASP1 Zornitza Stark gene: MASP1 was added
gene: MASP1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MASP1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MASP1 were set to 3MC SYNDROME 1
Fetal anomalies v0.0 MAPRE2 Zornitza Stark gene: MAPRE2 was added
gene: MAPRE2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MAPRE2 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Publications for gene: MAPRE2 were set to 31903734; 31502381; 26637975
Phenotypes for gene: MAPRE2 were set to Symmetric circumferential skin creases, congenital, 2, 616734
Fetal anomalies v0.0 MAP3K1 Zornitza Stark gene: MAP3K1 was added
gene: MAP3K1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MAP3K1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: MAP3K1 were set to 46XY SEX REVERSAL 6
Fetal anomalies v0.0 MAP2K2 Zornitza Stark gene: MAP2K2 was added
gene: MAP2K2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MAP2K2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: MAP2K2 were set to CARDIOFACIOCUTANEOUS SYNDROME
Fetal anomalies v0.0 MAP2K1 Zornitza Stark gene: MAP2K1 was added
gene: MAP2K1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MAP2K1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: MAP2K1 were set to CARDIOFACIOCUTANEOUS SYNDROME
Fetal anomalies v0.0 MAGEL2 Zornitza Stark gene: MAGEL2 was added
gene: MAGEL2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MAGEL2 was set to MONOALLELIC, autosomal or pseudoautosomal, maternally imprinted (paternal allele expressed)
Publications for gene: MAGEL2 were set to 26365340; 27195816
Phenotypes for gene: MAGEL2 were set to ARTHROGRYPOSIS MULTIPLEX CONGENITA; Schaaf-Yang syndrome, 615547; Schaaf-Yang syndrome
Fetal anomalies v0.0 MAFB Zornitza Stark gene: MAFB was added
gene: MAFB was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MAFB was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: MAFB were set to MULTICENTRIC CARPOTARSAL OSTEOLYSIS SYNDROME; Duane Syndrome, Aberrant Extraocular Muscle Innervation, and Inner-Ear Defects
Fetal anomalies v0.0 MAF Zornitza Stark gene: MAF was added
gene: MAF was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MAF was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: MAF were set to CATARACT CONGENITAL CERULEAN TYPE 4; CATARACT PULVERULENT JUVENILE-ONSET MAF-RELATED; CATARACT, DEAFNESS, INTELLECTUAL DISABILITY, SEIZURES, AND A DOWN SYNDROME-LIKE FACIES
Fetal anomalies v0.0 MAB21L2 Zornitza Stark gene: MAB21L2 was added
gene: MAB21L2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: MAB21L2 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: MAB21L2 were set to MICROPHTHALMIA, SYNDROMIC 14
Fetal anomalies v0.0 LZTR1 Zornitza Stark gene: LZTR1 was added
gene: LZTR1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LZTR1 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: LZTR1 were set to Noonan syndrome 10, 616564; Fetal hydrops
Fetal anomalies v0.0 LZTFL1 Zornitza Stark gene: LZTFL1 was added
gene: LZTFL1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LZTFL1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LZTFL1 were set to Bardet-Biedl syndrome 17 615994
Fetal anomalies v0.0 LYST Zornitza Stark gene: LYST was added
gene: LYST was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LYST was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LYST were set to CHEDIAK-HIGASHI SYNDROME
Fetal anomalies v0.0 LTBP4 Zornitza Stark gene: LTBP4 was added
gene: LTBP4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LTBP4 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LTBP4 were set to Cutis laxa, autosomal recessive, type IC 613177
Fetal anomalies v0.0 LTBP3 Zornitza Stark gene: LTBP3 was added
gene: LTBP3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LTBP3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LTBP3 were set to PLATYSPONDYLY WITH AMELOGENESIS IMPERFECTA
Fetal anomalies v0.0 LRRC6 Zornitza Stark gene: LRRC6 was added
gene: LRRC6 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LRRC6 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LRRC6 were set to PRIMARY CILIARY DISKINESIA
Fetal anomalies v0.0 LRP5 Zornitza Stark gene: LRP5 was added
gene: LRP5 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LRP5 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LRP5 were set to HIGH BONE MASS TRAIT; ENDOSTEAL HYPEROSTOSIS WORTH TYPE; VITREORETINOPATHY EXUDATIVE TYPE 4; OSTEOPETROSIS AUTOSOMAL DOMINANT TYPE 1; OSTEOPOROSIS-PSEUDOGLIOMA SYNDROME
Fetal anomalies v0.0 LRP4 Zornitza Stark gene: LRP4 was added
gene: LRP4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LRP4 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LRP4 were set to CENANI-LENZ SYNDACTYLY SYNDROME
Fetal anomalies v0.0 LRP2 Zornitza Stark gene: LRP2 was added
gene: LRP2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LRP2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LRP2 were set to DONNAI-BARROW SYNDROME
Fetal anomalies v0.0 LMX1B Zornitza Stark gene: LMX1B was added
gene: LMX1B was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LMX1B was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: LMX1B were set to NAIL-PATELLA SYNDROME
Fetal anomalies v0.0 LMOD3 Zornitza Stark gene: LMOD3 was added
gene: LMOD3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LMOD3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LMOD3 were set to Nemaline myopathy 616165
Fetal anomalies v0.0 LMNA Zornitza Stark gene: LMNA was added
gene: LMNA was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LMNA was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: LMNA were set to LETHAL TIGHT SKIN CONTRACTURE SYNDROME; CARDIOMYOPATHY DILATED WITH HYPERGONADOTROPIC HYPOGONADISM; FAMILIAL PARTIAL LIPODYSTROPHY TYPE 2; HUTCHINSON-GILFORD PROGERIA SYNDROME; EMERY-DREIFUSS MUSCULAR DYSTROPHY TYPE 2; MUSCULAR DYSTROPHY CONGENITAL LMNA-RELATED; CHARCOT-MARIE-TOOTH DISEASE TYPE 2B1; MANDIBULOACRAL DYSPLASIA WITH TYPE A LIPODYSTROPHY; HEART-HAND SYNDROME SLOVENIAN TYPE; CARDIOMYOPATHY DILATED TYPE 1A; LIMB-GIRDLE MUSCULAR DYSTROPHY TYPE 1B
Fetal anomalies v0.0 LMBRD1 Zornitza Stark gene: LMBRD1 was added
gene: LMBRD1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LMBRD1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LMBRD1 were set to METHYLMALONIC ACIDURIA AND HOMOCYSTINURIA TYPE CBLF
Fetal anomalies v0.0 LMBR1 Zornitza Stark gene: LMBR1 was added
gene: LMBR1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LMBR1 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: LMBR1 were set to Acheiropody 200500; Triphalangeal thumb, type I 174500; Laurin-Sandrow syndrome 135750; Triphalangeal thumb-polysyndactyly syndrome 174500; Hypoplastic or aplastic tibia with polydactyly 188740; Polydactyly, preaxial type II 174500; Syndactyly, type IV 186200
Fetal anomalies v0.0 LIPA Zornitza Stark gene: LIPA was added
gene: LIPA was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LIPA was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: LIPA were set to 12666227
Phenotypes for gene: LIPA were set to Wolman disease, 278000; Fetal hydrops; Lysosomal Acid Lipase Deficiency
Fetal anomalies v0.0 LIG4 Zornitza Stark gene: LIG4 was added
gene: LIG4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LIG4 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LIG4 were set to SEVERE COMBINED IMMUNODEFICIENCY AUTOSOMAL RECESSIVE T-CELL-NEGATIVE/B-CELL-NEGATIVE/NK-CELL-POSITIVE WITH SENSITIVITY TO IONIZING RADIATION; LIG4 SYNDROME
Fetal anomalies v0.0 LIFR Zornitza Stark gene: LIFR was added
gene: LIFR was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LIFR was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LIFR were set to Schwartz-Jampel type 2 syndrome; Stuve-Wiedemann syndrome
Fetal anomalies v0.0 LHX4 Zornitza Stark gene: LHX4 was added
gene: LHX4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LHX4 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: LHX4 were set to LHX4-RELATED COMBINED PITUITARY HORMONE DEFICIENCY
Fetal anomalies v0.0 LHX3 Zornitza Stark gene: LHX3 was added
gene: LHX3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LHX3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LHX3 were set to PITUITARY HORMONE DEFICIENCY COMBINED TYPE 3
Fetal anomalies v0.0 LGI4 Zornitza Stark gene: LGI4 was added
gene: LGI4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LGI4 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LGI4 were set to ARTHROGRYPOSIS MULTIPLEX CONGENITA
Fetal anomalies v0.0 LFNG Zornitza Stark gene: LFNG was added
gene: LFNG was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LFNG was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LFNG were set to SPONDYLOCOSTAL DYSOSTOSIS TYPE 3
Fetal anomalies v0.0 LBR Zornitza Stark gene: LBR was added
gene: LBR was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LBR was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LBR were set to HYDROPS-ECTOPIC CALCIFICATION-MOTH-EATEN SKELETAL DYSPLASIA
Fetal anomalies v0.0 LARP7 Zornitza Stark gene: LARP7 was added
gene: LARP7 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LARP7 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LARP7 were set to ALAZAMI SYNDROME
Fetal anomalies v0.0 LARGE1 Zornitza Stark gene: LARGE1 was added
gene: LARGE1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LARGE1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LARGE1 were set to MUSCULAR DYSTROPHY-DYSTROGLYCANOPATHY CONGENITAL WITH BRAIN AND EYE ANOMALIES TYPE A6; MUSCULAR DYSTROPHY-DYSTROGLYCANOPATHY CONGENITAL WITH MENTAL RETARDATION TYPE B6
Fetal anomalies v0.0 LAMC3 Zornitza Stark gene: LAMC3 was added
gene: LAMC3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LAMC3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LAMC3 were set to OCCIPITAL CORTICAL MALFORMATIONS
Fetal anomalies v0.0 LAMA2 Zornitza Stark gene: LAMA2 was added
gene: LAMA2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LAMA2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LAMA2 were set to CONGENITAL MUSCULAR DYSTROPHY
Fetal anomalies v0.0 LAMA1 Zornitza Stark gene: LAMA1 was added
gene: LAMA1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: LAMA1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LAMA1 were set to AUTOSOMAL RECESSIVE MENTAL RETARDATION; CEREBELLAR DYSPLASIA WITH CYSTS WITH OR WITHOUT RETINAL DYSTROPHY
Fetal anomalies v0.0 L2HGDH Zornitza Stark gene: L2HGDH was added
gene: L2HGDH was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: L2HGDH was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: L2HGDH were set to L-2-HYDROXYGLUTARIC ACIDURIA
Fetal anomalies v0.0 L1CAM Zornitza Stark gene: L1CAM was added
gene: L1CAM was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: L1CAM was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Publications for gene: L1CAM were set to 30712878; 28425981
Phenotypes for gene: L1CAM were set to MENTAL RETARDATION-APHASIA-SHUFFLING GAIT-ADDUCTED THUMBS SYNDROME; PARTIAL AGENESIS OF THE CORPUS CALLOSUM; HYDROCEPHALUS DUE TO STENOSIS OF THE AQUEDUCT OF SYLVIUS; SPASTIC PARAPLEGIA X-LINKED TYPE 1
Fetal anomalies v0.0 KYNU Zornitza Stark gene: KYNU was added
gene: KYNU was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KYNU was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: KYNU were set to 28792876
Phenotypes for gene: KYNU were set to Vertebral, cardiac, renal, and limb defects syndrome 2 617661
Fetal anomalies v0.0 KRIT1 Zornitza Stark gene: KRIT1 was added
gene: KRIT1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KRIT1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: KRIT1 were set to 28749478
Phenotypes for gene: KRIT1 were set to CEREBRAL CAVERNOUS MALFORMATIONS TYPE 1
Fetal anomalies v0.0 KRAS Zornitza Stark gene: KRAS was added
gene: KRAS was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KRAS was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: KRAS were set to NOONAN SYNDROME TYPE 3; CARDIOFACIOCUTANEOUS SYNDROME
Fetal anomalies v0.0 KMT2D Zornitza Stark gene: KMT2D was added
gene: KMT2D was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KMT2D was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: KMT2D were set to KABUKI SYNDROME
Fetal anomalies v0.0 KMT2C Zornitza Stark gene: KMT2C was added
gene: KMT2C was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KMT2C was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: KMT2C were set to 29276005; 22726846
Phenotypes for gene: KMT2C were set to INTELLECTUAL DISABILITY; Kleefstra syndrome 2 617768
Fetal anomalies v0.0 KMT2A Zornitza Stark gene: KMT2A was added
gene: KMT2A was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KMT2A was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: KMT2A were set to Wiedemann-Steiner syndrome, OMIM:605130
Fetal anomalies v0.0 KLHL41 Zornitza Stark gene: KLHL41 was added
gene: KLHL41 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KLHL41 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: KLHL41 were set to Nemaline myopathy 615731
Fetal anomalies v0.0 KLHL40 Zornitza Stark gene: KLHL40 was added
gene: KLHL40 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KLHL40 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: KLHL40 were set to NEMALINE MYOPATHY 8, AUTOSOMAL RECESSIVE
Fetal anomalies v0.0 KLF1 Zornitza Stark gene: KLF1 was added
gene: KLF1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KLF1 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Publications for gene: KLF1 were set to 28361594; 25724378
Phenotypes for gene: KLF1 were set to ANEMIA, DYSERYTHROPOIETIC CONGENITAL, TYPE IV; Hydrops Fetalis
Mode of pathogenicity for gene: KLF1 was set to Other
Fetal anomalies v0.0 KIF7 Zornitza Stark gene: KIF7 was added
gene: KIF7 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KIF7 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: KIF7 were set to AUTOSOMAL RECESSIVE MENTAL RETARDATION; ACROCALLOSAL SYNDROME
Fetal anomalies v0.0 KIF22 Zornitza Stark gene: KIF22 was added
gene: KIF22 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KIF22 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: KIF22 were set to SPONDYLOEPIMETAPHYSEAL DYSPLASIA WITH JOINT LAXITY, TYPE 2
Fetal anomalies v0.0 KIF1BP Zornitza Stark gene: KIF1BP was added
gene: KIF1BP was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KIF1BP was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: KIF1BP were set to GOLDBERG-SHPRINTZEN MEGACOLON SYNDROME
Fetal anomalies v0.0 KIF1A Zornitza Stark gene: KIF1A was added
gene: KIF1A was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KIF1A was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: KIF1A were set to NESCAV SYNDROME, 614255; NEUROPATHY, HEREDITARY SENSORY, TYPE IIC, 614213
Fetal anomalies v0.0 KIF11 Zornitza Stark gene: KIF11 was added
gene: KIF11 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KIF11 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: KIF11 were set to AUTOSOMAL-DOMINANT MICROCEPHALY ASSOCIATED WITH LYMPHEDEMA AND/OR CHORIORETINOPATHY
Fetal anomalies v0.0 KIAA1109 Zornitza Stark gene: KIAA1109 was added
gene: KIAA1109 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KIAA1109 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: KIAA1109 were set to 28749478; 30485398; 29290337
Phenotypes for gene: KIAA1109 were set to Brain atrophy, Dandy Walker and Contractures; Alkuraya-Kucinskas syndrome, 617822
Fetal anomalies v0.0 KIAA0586 Zornitza Stark gene: KIAA0586 was added
gene: KIAA0586 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KIAA0586 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: KIAA0586 were set to JOUBERT SYNDROME
Fetal anomalies v0.0 KDM6A Zornitza Stark gene: KDM6A was added
gene: KDM6A was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KDM6A was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Phenotypes for gene: KDM6A were set to KABUKI SYNDROME 2
Fetal anomalies v0.0 KDM5C Zornitza Stark gene: KDM5C was added
gene: KDM5C was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KDM5C was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: KDM5C were set to MENTAL RETARDATION SYNDROMIC X-LINKED JARID1C-RELATED
Fetal anomalies v0.0 KCTD1 Zornitza Stark gene: KCTD1 was added
gene: KCTD1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KCTD1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: KCTD1 were set to SCALP-EAR-NIPPLE SYNDROME
Fetal anomalies v0.0 KCNJ2 Zornitza Stark gene: KCNJ2 was added
gene: KCNJ2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KCNJ2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: KCNJ2 were set to Andersen syndrome, OMIM:170390; Andersen-Tawil syndrome, MONDO:0008222
Fetal anomalies v0.0 KCNJ1 Zornitza Stark gene: KCNJ1 was added
gene: KCNJ1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KCNJ1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: KCNJ1 were set to Bartter syndrome 241200
Fetal anomalies v0.0 KAT6B Zornitza Stark gene: KAT6B was added
gene: KAT6B was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KAT6B was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: KAT6B were set to GENITOPATELLAR SYNDROME; BLEPHAROPHIMOSIS/INTELLECTUAL DISABILITY PHENOTYPE WHICH IS NOONAN-LIKE
Fetal anomalies v0.0 KAT6A Zornitza Stark gene: KAT6A was added
gene: KAT6A was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KAT6A was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: KAT6A were set to MENTAL RETARDATION, AUTOSOMAL DOMINANT 32
Fetal anomalies v0.0 KANSL1 Zornitza Stark gene: KANSL1 was added
gene: KANSL1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: KANSL1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: KANSL1 were set to CHROMOSOME 17Q21.31 MICRODELETION SYNDROME
Fetal anomalies v0.0 JAG1 Zornitza Stark gene: JAG1 was added
gene: JAG1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: JAG1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: JAG1 were set to ALAGILLE SYNDROME
Fetal anomalies v0.0 ITGB4 Zornitza Stark gene: ITGB4 was added
gene: ITGB4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ITGB4 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ITGB4 were set to Epidermolysis Bullosa with Pyloric Atresia. 226730
Fetal anomalies v0.0 ITGA6 Zornitza Stark gene: ITGA6 was added
gene: ITGA6 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ITGA6 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ITGA6 were set to Epidermolysis Bullosa with Pyloric Atresia. 226730
Fetal anomalies v0.0 ITGA3 Zornitza Stark gene: ITGA3 was added
gene: ITGA3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ITGA3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ITGA3 were set to INTERSTITIAL LUNG DISEASE, NEPHROTIC SYNDROME, AND EPIDERMOLYSIS BULLOSA, CONGENITAL
Fetal anomalies v0.0 ISPD Zornitza Stark gene: ISPD was added
gene: ISPD was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ISPD was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ISPD were set to WALKER WARBURG SYNDROME
Fetal anomalies v0.0 IRF6 Zornitza Stark gene: IRF6 was added
gene: IRF6 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IRF6 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: IRF6 were set to VAN DER WOUDE SYNDROME; POPLITEAL PTERYGIUM SYNDROME
Fetal anomalies v0.0 IQCB1 Zornitza Stark gene: IQCB1 was added
gene: IQCB1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IQCB1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: IQCB1 were set to Senior-Loken syndrome 5 609254
Fetal anomalies v0.0 INVS Zornitza Stark gene: INVS was added
gene: INVS was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: INVS was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: INVS were set to Nephronophthisis 2 602088
Fetal anomalies v0.0 INTU Zornitza Stark gene: INTU was added
gene: INTU was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: INTU was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: INTU were set to 28289185; 29451301; 30266093
Phenotypes for gene: INTU were set to ?Short-rib thoracic dysplasia 20 with polydactyly, 617925
Fetal anomalies v0.0 INSR Zornitza Stark gene: INSR was added
gene: INSR was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: INSR was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: INSR were set to DONOHUE SYNDROME 246200; Diabetes mellitus, insulin-resistant, with acanthosis nigricans 610549; Hyperinsulinemic hypoglycemia, familial, 5 609968; Rabson-Mendenhall syndrome 262190
Fetal anomalies v0.0 INPPL1 Zornitza Stark gene: INPPL1 was added
gene: INPPL1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: INPPL1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: INPPL1 were set to OPSISMODYSPLASIA
Fetal anomalies v0.0 INPP5E Zornitza Stark gene: INPP5E was added
gene: INPP5E was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: INPP5E was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: INPP5E were set to MENTAL RETARDATION-TRUNCAL OBESITY-RETINAL DYSTROPHY-MICROPENIS; JOUBERT SYNDROME TYPE 1
Fetal anomalies v0.0 IMPAD1 Zornitza Stark gene: IMPAD1 was added
gene: IMPAD1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IMPAD1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: IMPAD1 were set to CHONDRODYSPLASIA WITH JOINT DISLOCATIONS, GRAPP TYPE
Fetal anomalies v0.0 IL1RAPL1 Zornitza Stark gene: IL1RAPL1 was added
gene: IL1RAPL1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IL1RAPL1 was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: IL1RAPL1 were set to MENTAL RETARDATION X-LINKED TYPE 21
Fetal anomalies v0.0 IL11RA Zornitza Stark gene: IL11RA was added
gene: IL11RA was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IL11RA was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: IL11RA were set to Crouzon-like craniosynostosis; Autosomal Recessive Craniosynostosis; Craniosynostosis and dental anomalies, 614188
Fetal anomalies v0.0 IKBKG Zornitza Stark gene: IKBKG was added
gene: IKBKG was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IKBKG was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Phenotypes for gene: IKBKG were set to ECTODERMAL DYSPLASIA ANHIDROTIC WITH IMMUNODEFICIENCY-OSTEOPETROSIS-LYMPHEDEMA; SUSCEPTIBILITY TO X-LINKED FAMILIAL ATYPICAL MICOBACTERIOSIS TYPE 1; ECTODERMAL DYSPLASIA ANHIDROTIC WITH IMMUNODEFICIENCY X-LINKED; INCONTINENTIA PIGMENTI; IMMUNODEFICIENCY NEMO-RELATED WITHOUT ANHIDROTIC ECTODERMAL DYSPLASIA
Fetal anomalies v0.0 IHH Zornitza Stark gene: IHH was added
gene: IHH was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IHH was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: IHH were set to ACROCAPITOFEMORAL DYSPLASIA; BRACHYDACTYLY, TYPE A1
Fetal anomalies v0.0 IGHMBP2 Zornitza Stark gene: IGHMBP2 was added
gene: IGHMBP2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IGHMBP2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: IGHMBP2 were set to SPINAL MUSCULAR ATROPHY WITH RESPIRATORY DISTRESS 1
Fetal anomalies v0.0 IGF2 Zornitza Stark gene: IGF2 was added
gene: IGF2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IGF2 was set to MONOALLELIC, autosomal or pseudoautosomal, maternally imprinted (paternal allele expressed)
Phenotypes for gene: IGF2 were set to BECKWITH-WIEDEMANN SYNDROME; CHROMOSOME 11P15.5-RELATED RUSSELL-SILVER SYNDROME
Fetal anomalies v0.0 IGF1R Zornitza Stark gene: IGF1R was added
gene: IGF1R was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IGF1R was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: IGF1R were set to INSULIN-LIKE GROWTH FACTOR I, RESISTANCE TO
Fetal anomalies v0.0 IGF1 Zornitza Stark gene: IGF1 was added
gene: IGF1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IGF1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: IGF1 were set to INSULIN-LIKE GROWTH FACTOR I DEFICIENCY
Fetal anomalies v0.0 IFT80 Zornitza Stark gene: IFT80 was added
gene: IFT80 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IFT80 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: IFT80 were set to ASPHYXIATING THORACIC DYSTROPHY 2
Fetal anomalies v0.0 IFT43 Zornitza Stark gene: IFT43 was added
gene: IFT43 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IFT43 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: IFT43 were set to CRANIOECTODERMAL DYSPLASIA TYPE 3
Fetal anomalies v0.0 IFT172 Zornitza Stark gene: IFT172 was added
gene: IFT172 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IFT172 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: IFT172 were set to JEUNE SYNDROME; MAINZER-SALDINO SYNDROME
Fetal anomalies v0.0 IFT140 Zornitza Stark gene: IFT140 was added
gene: IFT140 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IFT140 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: IFT140 were set to MAINZER-SALDINO SYNDROME
Fetal anomalies v0.0 IFT122 Zornitza Stark gene: IFT122 was added
gene: IFT122 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IFT122 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: IFT122 were set to CRANIOECTODERMAL DYSPLASIA
Fetal anomalies v0.0 IFITM5 Zornitza Stark gene: IFITM5 was added
gene: IFITM5 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IFITM5 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: IFITM5 were set to OSTEOGENESIS IMPERFECTA TYPE V
Fetal anomalies v0.0 IFIH1 Zornitza Stark gene: IFIH1 was added
gene: IFIH1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IFIH1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: IFIH1 were set to 25542954
Phenotypes for gene: IFIH1 were set to SINGLETON-MERTEN SYNDROME; Singleton-Merten syndrome 1, 182250; Aicardi-Goutieres syndrome 7, 615846; AICARDI-GOUTIERES SYNDROME 7
Mode of pathogenicity for gene: IFIH1 was set to Other
Fetal anomalies v0.0 IER3IP1 Zornitza Stark gene: IER3IP1 was added
gene: IER3IP1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IER3IP1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: IER3IP1 were set to Microcephaly, epilepsy, and diabetes syndrome 614231
Fetal anomalies v0.0 IDUA Zornitza Stark gene: IDUA was added
gene: IDUA was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IDUA was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: IDUA were set to MUCOPOLYSACCHARIDOSIS TYPE 1H; MUCOPOLYSACCHARIDOSIS TYPE 1H/S; MUCOPOLYSACCHARIDOSIS TYPE 1S
Fetal anomalies v0.0 IDS Zornitza Stark gene: IDS was added
gene: IDS was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IDS was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: IDS were set to MUCOPOLYSACCHARIDOSIS TYPE 2
Fetal anomalies v0.0 IARS Zornitza Stark gene: IARS was added
gene: IARS was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: IARS was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: IARS were set to 27426735
Phenotypes for gene: IARS were set to Growth retardation, impaired intellectual development, hypotonia, and hepatopathy, 617093
Fetal anomalies v0.0 HYLS1 Zornitza Stark gene: HYLS1 was added
gene: HYLS1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HYLS1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: HYLS1 were set to HYDROLETHALUS SYNDROME TYPE 1
Fetal anomalies v0.0 HUWE1 Zornitza Stark gene: HUWE1 was added
gene: HUWE1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HUWE1 was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: HUWE1 were set to MENTAL RETARDATION SYNDROMIC X-LINKED TURNER TYPE
Fetal anomalies v0.0 HSPG2 Zornitza Stark gene: HSPG2 was added
gene: HSPG2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HSPG2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: HSPG2 were set to Schwartz-Jampel syndrome, MONDO:0009717; Silverman-Handmaker type dyssegmental dysplasia, MONDO:0009140; Schwartz-Jampel syndrome, type 1, OMIM:255800; Dyssegmental dysplasia, Silverman-Handmaker type, OMIM:224410
Fetal anomalies v0.0 HSPD1 Zornitza Stark gene: HSPD1 was added
gene: HSPD1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HSPD1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: HSPD1 were set to LEUKODYSTROPHY HYPOMYELINATING TYPE 4
Fetal anomalies v0.0 HSF4 Zornitza Stark gene: HSF4 was added
gene: HSF4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HSF4 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: HSF4 were set to CATARACT ZONULAR HSF4-RELATED; CATARACT MARNER TYPE
Fetal anomalies v0.0 HSD17B4 Zornitza Stark gene: HSD17B4 was added
gene: HSD17B4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HSD17B4 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: HSD17B4 were set to PERRAULT SYNDROME; D-BIFUNCTIONAL PROTEIN DEFICIENCY
Fetal anomalies v0.0 HSD17B3 Zornitza Stark gene: HSD17B3 was added
gene: HSD17B3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HSD17B3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: HSD17B3 were set to Pseudohermaphroditism, male, with gynecomastia 264300
Fetal anomalies v0.0 HRAS Zornitza Stark gene: HRAS was added
gene: HRAS was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HRAS was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: HRAS were set to 28425981
Phenotypes for gene: HRAS were set to CONGENITAL MYOPATHY WITH EXCESS OF MUSCLE SPINDLES; COSTELLO SYNDROME
Fetal anomalies v0.0 HR Zornitza Stark gene: HR was added
gene: HR was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HR was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: HR were set to ATRICHIA WITH PAPULAR LESIONS; ALOPECIA UNIVERSALIS
Fetal anomalies v0.0 HPSE2 Zornitza Stark gene: HPSE2 was added
gene: HPSE2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HPSE2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: HPSE2 were set to UROFACIAL SYNDROME
Fetal anomalies v0.0 HOXD13 Zornitza Stark gene: HOXD13 was added
gene: HOXD13 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HOXD13 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: HOXD13 were set to SYNDACTYLY TYPE 5; BRACHYDACTYLY-SYNDACTYLY SYNDROME; SYNPOLYDACTYLY 1; VACTERL ASSOCIATION; BRACHYDACTYLY TYPE D; BRACHYDACTYLY TYPE E
Fetal anomalies v0.0 HOXA13 Zornitza Stark gene: HOXA13 was added
gene: HOXA13 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HOXA13 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: HOXA13 were set to HAND-FOOT-GENITAL SYNDROME
Fetal anomalies v0.0 HOXA1 Zornitza Stark gene: HOXA1 was added
gene: HOXA1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HOXA1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: HOXA1 were set to BOSLEY-SALIH-ALORAINY SYNDROME; ATHABASKAN BRAINSTEM DYSGENESIS SYNDROME
Fetal anomalies v0.0 HNRNPK Zornitza Stark gene: HNRNPK was added
gene: HNRNPK was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HNRNPK was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: HNRNPK were set to 30998304; 26173930; 29904177; 26954065; 28771707
Phenotypes for gene: HNRNPK were set to Au-Kline syndrome, 616580
Fetal anomalies v0.0 HNF4A Zornitza Stark gene: HNF4A was added
gene: HNF4A was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HNF4A was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: HNF4A were set to HNF4A-RELATED MATURITY-ONSET DIABETES OF THE YOUNG TYPE 1; ATYPICAL DOMINANT FANCONI SYNDROME WITH MODY
Fetal anomalies v0.0 HNF1B Zornitza Stark gene: HNF1B was added
gene: HNF1B was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HNF1B was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: HNF1B were set to RENAL CYSTS AND DIABETES SYNDROME
Fetal anomalies v0.0 HIVEP2 Zornitza Stark gene: HIVEP2 was added
gene: HIVEP2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HIVEP2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: HIVEP2 were set to HIVEP2 associated syndromic developmental delay with intellectual disability
Fetal anomalies v0.0 HIBCH Zornitza Stark gene: HIBCH was added
gene: HIBCH was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HIBCH was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: HIBCH were set to HIBCH DEFICIENCY
Fetal anomalies v0.0 HES7 Zornitza Stark gene: HES7 was added
gene: HES7 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HES7 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: HES7 were set to Spondylocostal dysostosis 4, autosomal recessive 613686
Fetal anomalies v0.0 HDAC8 Zornitza Stark gene: HDAC8 was added
gene: HDAC8 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HDAC8 was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Phenotypes for gene: HDAC8 were set to WILSON-TURNER SYNDROME; CORNELIA DE LANGE-LIKE SYNDROME
Fetal anomalies v0.0 HCFC1 Zornitza Stark gene: HCFC1 was added
gene: HCFC1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HCFC1 was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: HCFC1 were set to COBALAMIN DISORDER; MENTAL RETARDATION, X-LINKED 3
Fetal anomalies v0.0 HCCS Zornitza Stark gene: HCCS was added
gene: HCCS was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HCCS was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Publications for gene: HCCS were set to 30266093
Phenotypes for gene: HCCS were set to MICROPHTHALMIA SYNDROMIC TYPE 7
Fetal anomalies v0.0 HBA2 Zornitza Stark gene: HBA2 was added
gene: HBA2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HBA2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: HBA2 were set to Thalassemia, alpha-, 604131; Fetal hydrops
Fetal anomalies v0.0 HBA1 Zornitza Stark gene: HBA1 was added
gene: HBA1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HBA1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: HBA1 were set to Thalassemia, alpha-, 604131; Fetal hydrops
Fetal anomalies v0.0 HADHA Zornitza Stark gene: HADHA was added
gene: HADHA was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HADHA was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: HADHA were set to LONG CHAIN 3-HYDROXYACYL-COA DEHYDROGENASE DEFICIENCY
Fetal anomalies v0.0 HAAO Zornitza Stark gene: HAAO was added
gene: HAAO was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: HAAO was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: HAAO were set to 28792876
Phenotypes for gene: HAAO were set to Vertebral, cardiac, renal, and limb defects syndrome 1 617660
Fetal anomalies v0.0 GUSB Zornitza Stark gene: GUSB was added
gene: GUSB was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GUSB was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GUSB were set to MUCOPOLYSACCHARIDOSIS TYPE 7
Fetal anomalies v0.0 GUCY2C Zornitza Stark gene: GUCY2C was added
gene: GUCY2C was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GUCY2C was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: GUCY2C were set to MECONIUM ILEUS; FAMILIAL DIARRHEA DIARRHEA 6
Fetal anomalies v0.0 GTPBP3 Zornitza Stark gene: GTPBP3 was added
gene: GTPBP3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GTPBP3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GTPBP3 were set to MITOCHONDRIAL TRANSLATION DEFECT ASSOCIATED WITH HYPERTROPHIC CARDIOMYOPATHY, LACTIC ACIDOSIS, AND ENCEPHALOPATHY
Fetal anomalies v0.0 GTF2H5 Zornitza Stark gene: GTF2H5 was added
gene: GTF2H5 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GTF2H5 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GTF2H5 were set to TRICHOTHIODYSTROPHY PHOTOSENSITIVE
Fetal anomalies v0.0 GRIP1 Zornitza Stark gene: GRIP1 was added
gene: GRIP1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GRIP1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: GRIP1 were set to 22510445
Phenotypes for gene: GRIP1 were set to Fraser syndrome 219000
Fetal anomalies v0.0 GRIN2B Zornitza Stark gene: GRIN2B was added
gene: GRIN2B was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GRIN2B was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: GRIN2B were set to MENTAL RETARDATION, AUTOSOMAL DOMINANT 6; AUTISM; EPILEPTIC ENCEPHALOPATHY
Fetal anomalies v0.0 GRIN1 Zornitza Stark gene: GRIN1 was added
gene: GRIN1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GRIN1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: GRIN1 were set to intellectual disability, autosomal dominant 8 MONDO:0013655; Neurodevelopmental disorder with or without hyperkinetic movements and seizures, autosomal dominant OMIM:614254; Neurodevelopmental disorder with or without hyperkinetic movements and seizures, autosomal recessive OMIM:617820; neurodevelopmental disorder with or without hyperkinetic movements and seizures, autosomal recessive MONDO:0060629
Fetal anomalies v0.0 GRHL3 Zornitza Stark gene: GRHL3 was added
gene: GRHL3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GRHL3 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: GRHL3 were set to VAN DER WOUDE SYNDROME
Fetal anomalies v0.0 GPSM2 Zornitza Stark gene: GPSM2 was added
gene: GPSM2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GPSM2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GPSM2 were set to CHUDLEY-MCCULLOUGH SYNDROME
Fetal anomalies v0.0 GPI Zornitza Stark gene: GPI was added
gene: GPI was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GPI was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GPI were set to Hemolytic anemia, nonspherocytic, due to glucose phosphate isomerase deficiency 613470
Fetal anomalies v0.0 GPC3 Zornitza Stark gene: GPC3 was added
gene: GPC3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GPC3 was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: GPC3 were set to SIMPSON-GOLABI-BEHMEL SYNDROME, TYPE 1
Fetal anomalies v0.0 GORAB Zornitza Stark gene: GORAB was added
gene: GORAB was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GORAB was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GORAB were set to Geroderma osteodysplasticum
Fetal anomalies v0.0 GNS Zornitza Stark gene: GNS was added
gene: GNS was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GNS was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GNS were set to MUCOPOLYSACCHARIDOSIS TYPE 3D
Fetal anomalies v0.0 GNPTG Zornitza Stark gene: GNPTG was added
gene: GNPTG was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GNPTG was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GNPTG were set to MUCOLIPIDOSIS TYPE III COMPLEMENTATION GROUP C
Fetal anomalies v0.0 GNPTAB Zornitza Stark gene: GNPTAB was added
gene: GNPTAB was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GNPTAB was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GNPTAB were set to MUCOLIPIDOSIS TYPE III COMPLEMENTATION GROUP A; MUCOLIPIDOSIS TYPE II
Fetal anomalies v0.0 GNPAT Zornitza Stark gene: GNPAT was added
gene: GNPAT was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GNPAT was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GNPAT were set to RHIZOMELIC CHONDRODYSPLASIA PUNCTATA TYPE 2
Fetal anomalies v0.0 GNB1 Zornitza Stark gene: GNB1 was added
gene: GNB1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GNB1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: GNB1 were set to Mental retardation, autosomal dominant 42 OMIM:616973; intellectual disability, autosomal dominant 42 MONDO:0014855
Fetal anomalies v0.0 GNAS Zornitza Stark gene: GNAS was added
gene: GNAS was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GNAS was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: GNAS were set to ALBRIGHT HEREDITARY OSTEODYSTROPHY; GNAS HYPERFUNCTION; PSEUDOHYPOPARATHYROIDISM TYPE 1B; ACTH-INDEPENDENT MACRONODULAR ADRENAL HYPERPLASIA
Fetal anomalies v0.0 GNAO1 Zornitza Stark gene: GNAO1 was added
gene: GNAO1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GNAO1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: GNAO1 were set to EPILEPTIC ENCEPHALOPATHY
Fetal anomalies v0.0 GNAI3 Zornitza Stark gene: GNAI3 was added
gene: GNAI3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GNAI3 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: GNAI3 were set to AURICULOCONDYLAR SYNDROME
Fetal anomalies v0.0 GMPPB Zornitza Stark gene: GMPPB was added
gene: GMPPB was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GMPPB was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GMPPB were set to MUSCULAR DYSTROPHY-DYSTROGLYCANOPATHY (CONGENITAL WITH BRAIN AND EYE ANOMALIES), TYPE A, 14
Fetal anomalies v0.0 GLUL Zornitza Stark gene: GLUL was added
gene: GLUL was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GLUL was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GLUL were set to CONGENITAL SYSTEMIC GLUTAMINE DEFICIENCY
Fetal anomalies v0.0 GLIS3 Zornitza Stark gene: GLIS3 was added
gene: GLIS3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GLIS3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GLIS3 were set to DIABETES MELLITUS NEONATAL WITH CONGENITAL HYPOTHYROIDISM
Fetal anomalies v0.0 GLI3 Zornitza Stark gene: GLI3 was added
gene: GLI3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GLI3 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: GLI3 were set to GREIG CEPHALOPOLYSYNDACTYLY SYNDROME; PALLISTER-HALL SYNDROME; POSTAXIAL POLYDACTYLY TYPE A; PREAXIAL POLYDACTYLY TYPE IV
Fetal anomalies v0.0 GLI2 Zornitza Stark gene: GLI2 was added
gene: GLI2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GLI2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: GLI2 were set to GLI2-RELATED HOLOPROSENCEPHALY
Fetal anomalies v0.0 GLE1 Zornitza Stark gene: GLE1 was added
gene: GLE1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GLE1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GLE1 were set to ARTHROGRYPOSIS, LETHAL, WITH ANTERIOR HORN CELL DISEASE
Fetal anomalies v0.0 GLDN Zornitza Stark gene: GLDN was added
gene: GLDN was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GLDN was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GLDN were set to Lethal arthroogryposis
Fetal anomalies v0.0 GLDC Zornitza Stark gene: GLDC was added
gene: GLDC was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GLDC was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GLDC were set to GLDC-RELATED GLYCINE ENCEPHALOPATHY
Fetal anomalies v0.0 GLB1 Zornitza Stark gene: GLB1 was added
gene: GLB1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GLB1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GLB1 were set to GM1-GANGLIOSIDOSIS TYPE 1; GM1-GANGLIOSIDOSIS TYPE 2; GM1-GANGLIOSIDOSIS TYPE 3; MUCOPOLYSACCHARIDOSIS TYPE 4B
Fetal anomalies v0.0 GLA Zornitza Stark gene: GLA was added
gene: GLA was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GLA was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Phenotypes for gene: GLA were set to Fabry disease, 301500
Fetal anomalies v0.0 GJC2 Zornitza Stark gene: GJC2 was added
gene: GJC2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GJC2 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: GJC2 were set to LYMPHEDEMA, HEREDITARY, IC; SPASTIC PARAPLEGIA, 44; LEUKODYSTROPHY, HYPOMYELINATING, 2
Fetal anomalies v0.0 GJA8 Zornitza Stark gene: GJA8 was added
gene: GJA8 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GJA8 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: GJA8 were set to CATARACT ZONULAR PULVERULENT TYPE 1; CATARACT-MICROCORNEA SYNDROME
Fetal anomalies v0.0 GJA3 Zornitza Stark gene: GJA3 was added
gene: GJA3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GJA3 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: GJA3 were set to CATARACT ZONULAR PULVERULENT CATARACT TYPE 3
Fetal anomalies v0.0 GJA1 Zornitza Stark gene: GJA1 was added
gene: GJA1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GJA1 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: GJA1 were set to AUTOSOMAL RECESSIVE OCULODENTODIGITAL DYSPLASIA; HALLERMANN-STREIFF SYNDROME; HYPOPLASTIC LEFT HEART SYNDROME; AUTOSOMAL DOMINANT OCULODENTODIGITAL DYSPLASIA
Fetal anomalies v0.0 GFM1 Zornitza Stark gene: GFM1 was added
gene: GFM1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GFM1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GFM1 were set to COMBINED OXIDATIVE PHOSPHORYLATION DEFICIENCY 1
Fetal anomalies v0.0 GFAP Zornitza Stark gene: GFAP was added
gene: GFAP was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GFAP was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: GFAP were set to ALEXANDER DISEASE
Fetal anomalies v0.0 GDF6 Zornitza Stark gene: GDF6 was added
gene: GDF6 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GDF6 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: GDF6 were set to 32737436
Phenotypes for gene: GDF6 were set to KLIPPEL-FEIL SYNDROME TYPE 1; MICROPHTHALMIA ISOLATED TYPE 4; Syndromic CAKUT
Fetal anomalies v0.0 GDF5 Zornitza Stark gene: GDF5 was added
gene: GDF5 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GDF5 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: GDF5 were set to MULTIPLE SYNOSTOSES SYNDROME TYPE 2; ACROMESOMELIC CHONDRODYSPLASIA GREBE TYPE; BRACHYDACTYLY TYPE A1; SYMPHALANGISM PROXIMAL SYNDROME; DU PAN SYNDROME; BRACHYDACTYLY TYPE C; ACROMESOMELIC CHONDRODYSPLASIA HUNTER-THOMPSON TYPE; BRACHYDACTYLY TYPE A2
Fetal anomalies v0.0 GDF1 Zornitza Stark gene: GDF1 was added
gene: GDF1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GDF1 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Publications for gene: GDF1 were set to 17924340; PMID: 20413652; 28991257
Phenotypes for gene: GDF1 were set to Right atrial isomerism (Ivemark); Congenital heart defects, multiple types
Fetal anomalies v0.0 GCDH Zornitza Stark gene: GCDH was added
gene: GCDH was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GCDH was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GCDH were set to GLUTARICACIDEMIA TYPE 1
Fetal anomalies v0.0 GBE1 Zornitza Stark gene: GBE1 was added
gene: GBE1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GBE1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: GBE1 were set to 21620786
Phenotypes for gene: GBE1 were set to Fetal akinesia deformation sequence; Glycogen storage disease IV, OMIM:232500
Fetal anomalies v0.0 GBA2 Zornitza Stark gene: GBA2 was added
gene: GBA2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GBA2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GBA2 were set to AUTOSOMAL-RECESSIVE CEREBELLAR ATAXIA WITH SPASTICITY.
Fetal anomalies v0.0 GBA Zornitza Stark gene: GBA was added
gene: GBA was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GBA was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: GBA were set to 30712880
Phenotypes for gene: GBA were set to GAUCHER DISEASE TYPE 1; GAUCHER DISEASE TYPE 3C; GAUCHER DISEASE PERINATAL LETHAL; GAUCHER DISEASE TYPE 3; GAUCHER DISEASE TYPE 2; GAUCHER DISEASE
Fetal anomalies v0.0 GATA6 Zornitza Stark gene: GATA6 was added
gene: GATA6 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GATA6 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: GATA6 were set to ATRIOVENTRICULAR SEPTAL DEFECT 5; PANCREATIC AGENESIS, DIAPHRAGMATIC HERNIA AND CONGENITAL HEART DEFECTS; ATRIAL SEPTAL DEFECT 9
Fetal anomalies v0.0 GATA4 Zornitza Stark gene: GATA4 was added
gene: GATA4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GATA4 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: GATA4 were set to ATRIAL SEPTAL DEFECT TYPE 2
Fetal anomalies v0.0 GATA2 Zornitza Stark gene: GATA2 was added
gene: GATA2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GATA2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: GATA2 were set to EMBERGER SYNDROME
Fetal anomalies v0.0 GALNS Zornitza Stark gene: GALNS was added
gene: GALNS was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GALNS was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GALNS were set to MUCOPOLYSACCHARIDOSIS TYPE 4A
Fetal anomalies v0.0 GALK1 Zornitza Stark gene: GALK1 was added
gene: GALK1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GALK1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GALK1 were set to GALACTOSEMIA II
Fetal anomalies v0.0 GALE Zornitza Stark gene: GALE was added
gene: GALE was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GALE was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GALE were set to EPIMERASE-DEFICIENCY GALACTOSEMIA
Fetal anomalies v0.0 GALC Zornitza Stark gene: GALC was added
gene: GALC was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GALC was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GALC were set to Krabbe disease, OMIM:245200
Fetal anomalies v0.0 GAA Zornitza Stark gene: GAA was added
gene: GAA was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: GAA was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GAA were set to GLYCOGEN STORAGE DISEASE TYPE II
Fetal anomalies v0.0 G6PC3 Zornitza Stark gene: G6PC3 was added
gene: G6PC3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: G6PC3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: G6PC3 were set to Dursun syndrome; Neutropenia, severe congenital 4, autosomal recessive
Fetal anomalies v0.0 FYCO1 Zornitza Stark gene: FYCO1 was added
gene: FYCO1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FYCO1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FYCO1 were set to CATARACT, AUTOSOMAL RECESSIVE CONGENITAL 2
Fetal anomalies v0.0 FTL Zornitza Stark gene: FTL was added
gene: FTL was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FTL was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: FTL were set to HEREDITARY HYPERFERRITINEMIA-CATARACT SYNDROME
Fetal anomalies v0.0 FRMD4A Zornitza Stark gene: FRMD4A was added
gene: FRMD4A was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FRMD4A was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: FRMD4A were set to 30266093; 25388005; 30214071
Phenotypes for gene: FRMD4A were set to ?Corpus callosum, agenesis of, with facial anomalies and cerebellar ataxia, 616819
Fetal anomalies v0.0 FREM2 Zornitza Stark gene: FREM2 was added
gene: FREM2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FREM2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FREM2 were set to FRASER SYNDROME
Fetal anomalies v0.0 FREM1 Zornitza Stark gene: FREM1 was added
gene: FREM1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FREM1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FREM1 were set to MANITOBA OCULOTRICHOANAL SYNDROME
Fetal anomalies v0.0 FRAS1 Zornitza Stark gene: FRAS1 was added
gene: FRAS1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FRAS1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FRAS1 were set to FRASER SYNDROME
Fetal anomalies v0.0 FOXRED1 Zornitza Stark gene: FOXRED1 was added
gene: FOXRED1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FOXRED1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FOXRED1 were set to MITOCHONDRIAL COMPLEX I DEFICIENCY
Fetal anomalies v0.0 FOXP3 Zornitza Stark gene: FOXP3 was added
gene: FOXP3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FOXP3 was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Publications for gene: FOXP3 were set to 28425981
Phenotypes for gene: FOXP3 were set to IPEX SYNDROME
Fetal anomalies v0.0 FOXG1 Zornitza Stark gene: FOXG1 was added
gene: FOXG1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FOXG1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: FOXG1 were set to 21441262; 19564653; 19578037; 27029630
Phenotypes for gene: FOXG1 were set to Rett Syndrome, congenital variant OMIM:613454; Rett syndrome, congenital variant MONDO:0013270
Fetal anomalies v0.0 FOXF1 Zornitza Stark gene: FOXF1 was added
gene: FOXF1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FOXF1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: FOXF1 were set to ALVEOLAR CAPILLARY DYSPLASIA WITH MISALIGNMENT OF PULMONARY VEINS
Fetal anomalies v0.0 FOXE3 Zornitza Stark gene: FOXE3 was added
gene: FOXE3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FOXE3 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: FOXE3 were set to ANTERIOR SEGMENT MESENCHYMAL DYSGENESIS; Anterior segment dysgenesis 2, multiple subtypes, OMIM:610256; Cataract 34, multiple types, OMIM:612968; {Aortic aneurysm, familial thoracic 11, susceptibility to}, OMIM:617349 CONGENITAL PRIMARY APHAKIA
Fetal anomalies v0.0 FOXE1 Zornitza Stark gene: FOXE1 was added
gene: FOXE1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FOXE1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FOXE1 were set to BAMFORTH-LAZARUS SYNDROME
Fetal anomalies v0.0 FOXC2 Zornitza Stark gene: FOXC2 was added
gene: FOXC2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FOXC2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: FOXC2 were set to LYMPHEDEMA-DISTICHIASIS SYNDROME; HEREDITARY LYMPHEDEMA II
Fetal anomalies v0.0 FOXC1 Zornitza Stark gene: FOXC1 was added
gene: FOXC1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FOXC1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: FOXC1 were set to 32720677
Phenotypes for gene: FOXC1 were set to AXENFELD-RIEGER SYNDROME TYPE 3; IRIDOGONIODYSGENESIS ANOMALY; PETERS ANOMALY
Fetal anomalies v0.0 FOLR1 Zornitza Stark gene: FOLR1 was added
gene: FOLR1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FOLR1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FOLR1 were set to NEURODEGENERATION DUE TO CEREBRAL FOLATE TRANSPORT DEFICIENCY
Fetal anomalies v0.0 FLVCR2 Zornitza Stark gene: FLVCR2 was added
gene: FLVCR2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FLVCR2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FLVCR2 were set to PROLIFERATIVE VASCULOPATHY AND HYDRAENCEPHALY-HYDROCEPHALY SYNDROME
Fetal anomalies v0.0 FLT4 Zornitza Stark gene: FLT4 was added
gene: FLT4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FLT4 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: FLT4 were set to MILROY DISEASE
Fetal anomalies v0.0 FLNB Zornitza Stark gene: FLNB was added
gene: FLNB was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FLNB was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: FLNB were set to BOOMERANG DYSPLASIA; SPONDYLOCARPOTARSAL SYNOSTOSIS SYNDROME; ATELOSTEOGENESIS TYPE 3; AUTOSOMAL DOMINANT LARSEN SYNDROME; ATELOSTEOGENESIS TYPE 1
Fetal anomalies v0.0 FLNA Zornitza Stark gene: FLNA was added
gene: FLNA was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FLNA was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Publications for gene: FLNA were set to 30712878; 28425981
Phenotypes for gene: FLNA were set to PERIVENTRICULAR NODULAR HETEROTOPIA TYPE 1; EPILEPTIC ENCEPHALOPATHY; FG SYNDROME TYPE 2; X-LINKED CONGENITAL IDIOPATHIC INTESTINAL PSEUDOOBSTRUCTION; MELNICK-NEEDLES SYNDROME; FRONTOMETAPHYSEAL DYSPLASIA; OTOPALATODIGITAL SYNDROME TYPE 2; TERMINAL OSSEOUS DYSPLASIA; OTOPALATODIGITAL SYNDROME TYPE 1
Fetal anomalies v0.0 FKTN Zornitza Stark gene: FKTN was added
gene: FKTN was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FKTN was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FKTN were set to MUSCULAR DYSTROPHY-DYSTROGLYCANOPATHY LIMB-GIRDLE TYPE C4; CARDIOMYOPATHY DILATED TYPE 1X; MUSCULAR DYSTROPHY-DYSTROGLYCANOPATHY CONGENITAL WITHOUT MENTAL RETARDATION TYPE B4; MUSCULAR DYSTROPHY-DYSTROGLYCANOPATHY CONGENITAL WITH BRAIN AND EYE ANOMALIES TYPE A4
Fetal anomalies v0.0 FKRP Zornitza Stark gene: FKRP was added
gene: FKRP was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FKRP was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FKRP were set to MUSCULAR DYSTROPHY-DYSTROGLYCANOPATHY CONGENITAL WITH BRAIN AND EYE ANOMALIES TYPE A5; MUSCULAR DYSTROPHY-DYSTROGLYCANOPATHY CONGENITAL WITH OR WITHOUT MENTAL RETARDATION TYPE B5; MUSCULAR DYSTROPHY-DYSTROGLYCANOPATHY LIMB-GIRDLE TYPE C5
Fetal anomalies v0.0 FKBP14 Zornitza Stark gene: FKBP14 was added
gene: FKBP14 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FKBP14 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FKBP14 were set to EHLERS-DANLOS SYNDROME WITH PROGRESSIVE KYPHOSCOLIOSIS, MYOPATHY, AND HEARING LOSS
Fetal anomalies v0.0 FH Zornitza Stark gene: FH was added
gene: FH was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FH was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FH were set to FUMARASE DEFICIENCY
Fetal anomalies v0.0 FGFR3 Zornitza Stark gene: FGFR3 was added
gene: FGFR3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FGFR3 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: FGFR3 were set to CAMPTODACTYLY TALL STATURE AND HEARING LOSS SYNDROME; LACRIMO-AURICULO-DENTO-DIGITAL SYNDROME; ACHONDROPLASIA; THANATOPHORIC DYSPLASIA TYPE 2; HYPOCHONDROPLASIA; MUENKE SYNDROME; THANATOPHORIC DYSPLASIA TYPE 1; CROUZON SYNDROME WITH ACANTHOSIS NIGRICANS
Fetal anomalies v0.0 FGFR2 Zornitza Stark gene: FGFR2 was added
gene: FGFR2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FGFR2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: FGFR2 were set to 28425981
Phenotypes for gene: FGFR2 were set to JACKSON-WEISS SYNDROME; FAMILIAL SCAPHOCEPHALY SYNDROME; CROUZON SYNDROME; LACRIMO-AURICULO-DENTO-DIGITAL SYNDROME; BEARE-STEVENSON CUTIS GYRATA SYNDROME; ACROCEPHALOSYNDACTYLY TYPE V; APERT SYNDROME; ANTLEY-BIXLER SYNDROME
Fetal anomalies v0.0 FGFR1 Zornitza Stark gene: FGFR1 was added
gene: FGFR1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FGFR1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: FGFR1 were set to Hartsfield syndrome; Encephalocraniocutaneous lipomatosis; OSTEOGLOPHONIC DYSPLASIA; KALLMANN SYNDROME TYPE 2; PFEIFFER SYNDROME; IDIOPATHIC HYPOGONADOTROPIC HYPOGONADISM
Fetal anomalies v0.0 FGF8 Zornitza Stark gene: FGF8 was added
gene: FGF8 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FGF8 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: FGF8 were set to 20463092; 18596921; 24280688
Phenotypes for gene: FGF8 were set to Hypogonadotropic hypogonadism 6 with or without anosmia 612702
Fetal anomalies v0.0 FGF3 Zornitza Stark gene: FGF3 was added
gene: FGF3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FGF3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FGF3 were set to DEAFNESS WITH LABYRINTHINE APLASIA, MICROTIA AND MICRODONTIA
Fetal anomalies v0.0 FGF10 Zornitza Stark gene: FGF10 was added
gene: FGF10 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FGF10 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: FGF10 were set to LADD SYNDROME
Fetal anomalies v0.0 FGD1 Zornitza Stark gene: FGD1 was added
gene: FGD1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FGD1 was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: FGD1 were set to AARSKOG-SCOTT SYNDROME
Fetal anomalies v0.0 FBXL4 Zornitza Stark gene: FBXL4 was added
gene: FBXL4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FBXL4 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FBXL4 were set to FATAL ENCEPHALOPATHY, LACTIC ACIDOSIS, AND SEVERE MTDNA DEPLETION IN MUSCLE
Fetal anomalies v0.0 FBN2 Zornitza Stark gene: FBN2 was added
gene: FBN2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FBN2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: FBN2 were set to 25558065; 7493032; 28383543; 33571691
Phenotypes for gene: FBN2 were set to Contractural arachnodactyly, congenital OMIM:121050; congenital contractural arachnodactyly MONDO:0007363
Fetal anomalies v0.0 FBN1 Zornitza Stark gene: FBN1 was added
gene: FBN1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FBN1 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: FBN1 were set to 30266093
Phenotypes for gene: FBN1 were set to MASS SYNDROME/OVERLAP CONNECTIVE TISSUE DISEASE; MARFAN SYNDROME; SHPRINTZEN-GOLDBERG CRANIOSYNOSTOSIS SYNDROME
Fetal anomalies v0.0 FBLN5 Zornitza Stark gene: FBLN5 was added
gene: FBLN5 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FBLN5 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FBLN5 were set to Cutis laxa 219100; Cutis laxa 614434
Fetal anomalies v0.0 FAT4 Zornitza Stark gene: FAT4 was added
gene: FAT4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FAT4 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FAT4 were set to PERIVENTRICULAR NEURONAL HETEROTOPIA
Fetal anomalies v0.0 FAR1 Zornitza Stark gene: FAR1 was added
gene: FAR1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FAR1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FAR1 were set to Peroxisomal fatty acyl-CoA reductase 1 disorder, OMIM:616154
Fetal anomalies v0.0 FANCI Zornitza Stark gene: FANCI was added
gene: FANCI was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FANCI was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FANCI were set to FANCI-RELATED FANCONI ANEMIA; FANCONI ANEMIA
Fetal anomalies v0.0 FANCG Zornitza Stark gene: FANCG was added
gene: FANCG was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FANCG was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FANCG were set to FANCONI ANEMIA, COMPLEMENTATION GROUP G
Fetal anomalies v0.0 FANCF Zornitza Stark gene: FANCF was added
gene: FANCF was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FANCF was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FANCF were set to FANCONI ANEMIA, COMPLEMENTATION GROUP F
Fetal anomalies v0.0 FANCE Zornitza Stark gene: FANCE was added
gene: FANCE was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FANCE was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FANCE were set to FANCONI ANEMIA, COMPLEMENTATION GROUP E
Fetal anomalies v0.0 FANCD2 Zornitza Stark gene: FANCD2 was added
gene: FANCD2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FANCD2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FANCD2 were set to FANCONI ANEMIA, COMPLEMENTATION GROUP D2
Fetal anomalies v0.0 FANCC Zornitza Stark gene: FANCC was added
gene: FANCC was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FANCC was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FANCC were set to FANCONI ANEMIA, COMPLEMENTATION GROUP C
Fetal anomalies v0.0 FANCB Zornitza Stark gene: FANCB was added
gene: FANCB was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FANCB was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Publications for gene: FANCB were set to 28425981
Phenotypes for gene: FANCB were set to FANCB-RELATED FANCONI ANEMIA
Fetal anomalies v0.0 FANCA Zornitza Stark gene: FANCA was added
gene: FANCA was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FANCA was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FANCA were set to FANCONI ANEMIA, COMPLEMENTATION GROUP A
Fetal anomalies v0.0 FAM58A Zornitza Stark gene: FAM58A was added
gene: FAM58A was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FAM58A was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Phenotypes for gene: FAM58A were set to STAR SYNDROME
Fetal anomalies v0.0 FAM20C Zornitza Stark gene: FAM20C was added
gene: FAM20C was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FAM20C was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FAM20C were set to RAINE SYNDROME
Fetal anomalies v0.0 FAM20A Zornitza Stark gene: FAM20A was added
gene: FAM20A was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FAM20A was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FAM20A were set to AMELOGENESIS IMPERFECTA AND GINGIVAL FIBROMATOSIS SYNDROME
Fetal anomalies v0.0 FAM126A Zornitza Stark gene: FAM126A was added
gene: FAM126A was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FAM126A was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FAM126A were set to LEUKODYSTROPHY HYPOMYELINATING TYPE 5
Fetal anomalies v0.0 FAM111A Zornitza Stark gene: FAM111A was added
gene: FAM111A was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FAM111A was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: FAM111A were set to KENNY-CAFFEY SYNDROME
Fetal anomalies v0.0 FAH Zornitza Stark gene: FAH was added
gene: FAH was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: FAH was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: FAH were set to TYROSINEMIA TYPE 1
Fetal anomalies v0.0 EZH2 Zornitza Stark gene: EZH2 was added
gene: EZH2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EZH2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: EZH2 were set to WEAVER SYNDROME 2
Fetal anomalies v0.0 EYA1 Zornitza Stark gene: EYA1 was added
gene: EYA1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EYA1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: EYA1 were set to BRANCHIOOTORENAL SYNDROME TYPE 1
Fetal anomalies v0.0 EXT2 Zornitza Stark gene: EXT2 was added
gene: EXT2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EXT2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: EXT2 were set to EXOSTOSES, MULTIPLE, TYPE 2
Fetal anomalies v0.0 EXT1 Zornitza Stark gene: EXT1 was added
gene: EXT1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EXT1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: EXT1 were set to HEREDITARY MULTIPLE EXOSTOSES TYPE 1; TRICHO-RHINO-PHALANGEAL SYNDROME TYPE 2
Fetal anomalies v0.0 EXOSC3 Zornitza Stark gene: EXOSC3 was added
gene: EXOSC3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EXOSC3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: EXOSC3 were set to PONTOCEREBELLAR HYPOPLASIA TYPE 1
Fetal anomalies v0.0 EVC2 Zornitza Stark gene: EVC2 was added
gene: EVC2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EVC2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: EVC2 were set to ACROFACIAL DYSOSTOSIS WEYERS TYPE; ELLIS-VAN CREVELD SYNDROME
Fetal anomalies v0.0 EVC Zornitza Stark gene: EVC was added
gene: EVC was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EVC was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: EVC were set to ACROFACIAL DYSOSTOSIS WEYERS TYPE; ELLIS-VAN CREVELD SYNDROME
Fetal anomalies v0.0 ETFDH Zornitza Stark gene: ETFDH was added
gene: ETFDH was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ETFDH was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ETFDH were set to GLUTARIC ACIDURIA TYPE 2C
Fetal anomalies v0.0 ETFB Zornitza Stark gene: ETFB was added
gene: ETFB was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ETFB was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ETFB were set to GLUTARIC ACIDURIA TYPE 2B
Fetal anomalies v0.0 ETFA Zornitza Stark gene: ETFA was added
gene: ETFA was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ETFA was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ETFA were set to GLUTARIC ACIDURIA TYPE 2A
Fetal anomalies v0.0 ESCO2 Zornitza Stark gene: ESCO2 was added
gene: ESCO2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ESCO2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ESCO2 were set to ROBERTS SYNDROME; SC PHOCOMELIA SYNDROME
Fetal anomalies v0.0 ERF Zornitza Stark gene: ERF was added
gene: ERF was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ERF was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: ERF were set to Chitayat syndrome: hyperphalangism, characteristic facies, hallux valgus and bronchomalacia; COMPLEX CRANIOSYNOSTOSIS
Fetal anomalies v0.0 ERCC8 Zornitza Stark gene: ERCC8 was added
gene: ERCC8 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ERCC8 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ERCC8 were set to COCKAYNE SYNDROME TYPE A
Fetal anomalies v0.0 ERCC6 Zornitza Stark gene: ERCC6 was added
gene: ERCC6 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ERCC6 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ERCC6 were set to COCKAYNE SYNDROME TYPE B; DE SANCTIS-CACCHIONE SYNDROME; CEREBRO-OCULO-FACIO-SKELETAL SYNDROME TYPE 1; UV-SENSITIVE SYNDROME
Fetal anomalies v0.0 ERCC5 Zornitza Stark gene: ERCC5 was added
gene: ERCC5 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ERCC5 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ERCC5 were set to 24700531; 32557569; 32052936
Phenotypes for gene: ERCC5 were set to Cerebrooculofacioskeletal syndrome 3, OMIM:616570; Cerebrooculofacioskeletal syndrome 3, MONDO:0014696
Fetal anomalies v0.0 ERCC4 Zornitza Stark gene: ERCC4 was added
gene: ERCC4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ERCC4 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ERCC4 were set to PRIMORDIAL DWARFISM; Xeroderma pigmentosum, group F, 278760; XERODERMA PIGMENTOSUM, GROUP F; XFE PROGEROID SYNDROME; FANCONI ANEMIA, COMPLEMENTATION GROUP Q
Fetal anomalies v0.0 ERCC3 Zornitza Stark gene: ERCC3 was added
gene: ERCC3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ERCC3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ERCC3 were set to XERODERMA PIGMENTOSUM COMPLEMENTATION GROUP B; TRICHOTHIODYSTROPHY PHOTOSENSITIVE
Fetal anomalies v0.0 ERCC2 Zornitza Stark gene: ERCC2 was added
gene: ERCC2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ERCC2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ERCC2 were set to XERODERMA PIGMENTOSUM COMPLEMENTATION GROUP D; TRICHOTHIODYSTROPHY PHOTOSENSITIVE; CEREBRO-OCULO-FACIO-SKELETAL SYNDROME TYPE 2
Fetal anomalies v0.0 ERCC1 Zornitza Stark gene: ERCC1 was added
gene: ERCC1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ERCC1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ERCC1 were set to FANCONI ANEMIA; CEREBROOCULOFACIOSKELETAL SYNDROME 4
Fetal anomalies v0.0 EPHB4 Zornitza Stark gene: EPHB4 was added
gene: EPHB4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EPHB4 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: EPHB4 were set to 27400125
Phenotypes for gene: EPHB4 were set to hydrops fetalis gene
Fetal anomalies v0.0 EPG5 Zornitza Stark gene: EPG5 was added
gene: EPG5 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EPG5 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: EPG5 were set to IMMUNODEFICIENCY WITH CLEFT LIP/PALATE, CATARACT, HYPOPIGMENTATION, AND ABSENT CORPUS CALLOSUM
Fetal anomalies v0.0 EP300 Zornitza Stark gene: EP300 was added
gene: EP300 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EP300 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: EP300 were set to RUBINSTEIN-TAYBI SYNDROME TYPE 2
Fetal anomalies v0.0 EOGT Zornitza Stark gene: EOGT was added
gene: EOGT was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EOGT was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: EOGT were set to ADAMS OLIVER SYNDROME
Fetal anomalies v0.0 EMD Zornitza Stark gene: EMD was added
gene: EMD was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EMD was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Publications for gene: EMD were set to 26247046
Phenotypes for gene: EMD were set to Emery-Dreifuss muscular dystrophy 1, X-linked 310300
Fetal anomalies v0.0 ELOVL4 Zornitza Stark gene: ELOVL4 was added
gene: ELOVL4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ELOVL4 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ELOVL4 were set to ICHTHYOSIS, SPASTIC QUADRIPLEGIA, AND MENTAL RETARDATION
Fetal anomalies v0.0 ELN Zornitza Stark gene: ELN was added
gene: ELN was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ELN was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: ELN were set to ELN-RELATED CUTIS LAXA; SUPRAVALVAR AORTIC STENOSIS
Fetal anomalies v0.0 ELAC2 Zornitza Stark gene: ELAC2 was added
gene: ELAC2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ELAC2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ELAC2 were set to INFANTILE HYPERTROPHIC CARDIOMYOPATHY, LACTIC ACIDOSIS, AND ISOLATED COMPLEX I DEFICIENCY
Fetal anomalies v0.0 EIF4A3 Zornitza Stark gene: EIF4A3 was added
gene: EIF4A3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EIF4A3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: EIF4A3 were set to RICHIERI-COSTA-PEREIRA SYNDROME
Fetal anomalies v0.0 EIF2B3 Zornitza Stark gene: EIF2B3 was added
gene: EIF2B3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EIF2B3 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: EIF2B3 were set to 28597716
Phenotypes for gene: EIF2B3 were set to vanishing white matter disease 603896
Fetal anomalies v0.0 EIF2B2 Zornitza Stark gene: EIF2B2 was added
gene: EIF2B2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EIF2B2 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: EIF2B2 were set to 30266093; 28597716
Phenotypes for gene: EIF2B2 were set to Leukoencephalopathy with vanishing white matter, 603896
Fetal anomalies v0.0 EIF2AK3 Zornitza Stark gene: EIF2AK3 was added
gene: EIF2AK3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EIF2AK3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: EIF2AK3 were set to WOLCOTT-RALLISON SYNDROME
Fetal anomalies v0.0 EHMT1 Zornitza Stark gene: EHMT1 was added
gene: EHMT1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EHMT1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: EHMT1 were set to 9Q SUBTELOMERIC DELETION SYNDROME
Fetal anomalies v0.0 EFTUD2 Zornitza Stark gene: EFTUD2 was added
gene: EFTUD2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EFTUD2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: EFTUD2 were set to MANDIBULOFACIAL DYSOSTOSIS WITH MICROCEPHALY
Fetal anomalies v0.0 EFNB1 Zornitza Stark gene: EFNB1 was added
gene: EFNB1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EFNB1 was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Phenotypes for gene: EFNB1 were set to CRANIOFRONTONASAL SYNDROME
Fetal anomalies v0.0 EDNRB Zornitza Stark gene: EDNRB was added
gene: EDNRB was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EDNRB was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: EDNRB were set to ABCD SYNDROME
Fetal anomalies v0.0 EDNRA Zornitza Stark gene: EDNRA was added
gene: EDNRA was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EDNRA was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: EDNRA were set to MANDIBULOFACIAL DYSOSTOSIS WITH ALOPECIA
Fetal anomalies v0.0 EDA Zornitza Stark gene: EDA was added
gene: EDA was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EDA was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: EDA were set to ECTODERMAL DYSPLASIA TYPE 1; TOOTH AGENESIS SELECTIVE X-LINKED TYPE 1
Fetal anomalies v0.0 ECEL1 Zornitza Stark gene: ECEL1 was added
gene: ECEL1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ECEL1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ECEL1 were set to DISTAL ARTHROGRYPOSIS TYPE 5D
Fetal anomalies v0.0 EBP Zornitza Stark gene: EBP was added
gene: EBP was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EBP was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Phenotypes for gene: EBP were set to CHONDRODYSPLASIA PUNCTATA 2, X-LINKED
Fetal anomalies v0.0 EBF3 Zornitza Stark gene: EBF3 was added
gene: EBF3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: EBF3 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: EBF3 were set to hypotonia, ataxia, and delayed development syndrome MONDO:0015021; Hypotonia, ataxia, and delayed development syndrome OMIM:617330
Fetal anomalies v0.0 DYRK1A Zornitza Stark gene: DYRK1A was added
gene: DYRK1A was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DYRK1A was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: DYRK1A were set to MENTAL RETARDATION AUTOSOMAL DOMINANT TYPE 7
Fetal anomalies v0.0 DYNC2H1 Zornitza Stark gene: DYNC2H1 was added
gene: DYNC2H1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DYNC2H1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DYNC2H1 were set to ASPHYXIATING THORACIC DYSTROPHY TYPE 3; SHORT RIB-POLYDACTYLY SYNDROME TYPE 3
Fetal anomalies v0.0 DYNC1H1 Zornitza Stark gene: DYNC1H1 was added
gene: DYNC1H1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DYNC1H1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: DYNC1H1 were set to SPINAL MUSCULAR ATROPHY, LOWER EXTREMITY-PREDOMINANT, AD; SEVERE ID WITH NEURONAL MIGRATION DISORDER
Fetal anomalies v0.0 DYM Zornitza Stark gene: DYM was added
gene: DYM was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DYM was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DYM were set to SMITH-MCCORT DYSPLASIA; DYGGVE-MELCHIOR-CLAUSEN SYNDROME
Fetal anomalies v0.0 DVL3 Zornitza Stark gene: DVL3 was added
gene: DVL3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DVL3 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: DVL3 were set to AUTOSOMAL-DOMINANT ROBINOW SYNDROME
Fetal anomalies v0.0 DVL1 Zornitza Stark gene: DVL1 was added
gene: DVL1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DVL1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: DVL1 were set to AUTOSOMAL-DOMINANT ROBINOW SYNDROME
Fetal anomalies v0.0 DSTYK Zornitza Stark gene: DSTYK was added
gene: DSTYK was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DSTYK was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: DSTYK were set to CONGENITAL ANOMALIES OF KIDNEY AND URINARY TRACT, CAKUT1
Fetal anomalies v0.0 DSP Zornitza Stark gene: DSP was added
gene: DSP was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DSP was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Publications for gene: DSP were set to 30993396
Phenotypes for gene: DSP were set to Arrhythmogenic right ventricular dysplasia 8 607450; Dilated cardiomyopathy with woolly hair, keratoderma, and tooth agenesis 615821; Skin fragility-woolly hair syndrome 607655; Epidermolysis bullosa, lethal acantholytic 609638; Cardiomyopathy, dilated, with woolly hair and keratoderma 605676; Keratosis palmoplantaris striata II, 612908
Fetal anomalies v0.0 DPM1 Zornitza Stark gene: DPM1 was added
gene: DPM1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DPM1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DPM1 were set to CONGENITAL DISORDERS OF GLYCOSYLATION
Fetal anomalies v0.0 DPAGT1 Zornitza Stark gene: DPAGT1 was added
gene: DPAGT1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DPAGT1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DPAGT1 were set to MYASTHENIC SYNDROME, CONGENITAL, WITH TUBULAR AGGREGATES 2; DPAGT1-CDG
Fetal anomalies v0.0 DOLK Zornitza Stark gene: DOLK was added
gene: DOLK was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DOLK was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: DOLK were set to 28816422
Phenotypes for gene: DOLK were set to CONGENITAL DISORDERS OF GLYCOSYLATION
Mode of pathogenicity for gene: DOLK was set to Other
Fetal anomalies v0.0 DOK7 Zornitza Stark gene: DOK7 was added
gene: DOK7 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DOK7 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: DOK7 were set to 30266093
Phenotypes for gene: DOK7 were set to Myasthenic syndrome, congenital, 10, 254300; ?Fetal akinesia deformation sequence 3, 618389
Fetal anomalies v0.0 DOCK6 Zornitza Stark gene: DOCK6 was added
gene: DOCK6 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DOCK6 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DOCK6 were set to ADAMS-OLIVER SYNDROME 2
Fetal anomalies v0.0 DNMT3B Zornitza Stark gene: DNMT3B was added
gene: DNMT3B was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DNMT3B was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DNMT3B were set to IMMUNODEFICIENCY-CENTROMERIC INSTABILITY-FACIAL ANOMALIES SYNDROME 1
Fetal anomalies v0.0 DNMT3A Zornitza Stark gene: DNMT3A was added
gene: DNMT3A was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DNMT3A was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: DNMT3A were set to OVERGROWTH SYNDROME WITH INTELLECTUAL DISABILITY
Fetal anomalies v0.0 DNAI1 Zornitza Stark gene: DNAI1 was added
gene: DNAI1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DNAI1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DNAI1 were set to Primary ciliary dyskinesia 244400
Fetal anomalies v0.0 DNAH9 Zornitza Stark gene: DNAH9 was added
gene: DNAH9 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DNAH9 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: DNAH9 were set to 30471717; 30471718
Phenotypes for gene: DNAH9 were set to Motile Cilia Defects and Situs Inversus
Fetal anomalies v0.0 DNAH5 Zornitza Stark gene: DNAH5 was added
gene: DNAH5 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DNAH5 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DNAH5 were set to CILIARY DYSKINESIA, PRIMARY, 3; Primary ciliary dyskinesia 608644; heterotaxy
Fetal anomalies v0.0 DNAH11 Zornitza Stark gene: DNAH11 was added
gene: DNAH11 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DNAH11 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DNAH11 were set to Primary ciliary dyskinesia 611884
Fetal anomalies v0.0 DNAAF4 Zornitza Stark gene: DNAAF4 was added
gene: DNAAF4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DNAAF4 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DNAAF4 were set to PRIMARY CILIARY DYSPLASIA
Fetal anomalies v0.0 DNAAF3 Zornitza Stark gene: DNAAF3 was added
gene: DNAAF3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DNAAF3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DNAAF3 were set to PRIMARY CILIARY DYSKINEASIA; Ciliary dyskinesia, primary, 2, MIM:606763
Fetal anomalies v0.0 DNAAF1 Zornitza Stark gene: DNAAF1 was added
gene: DNAAF1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DNAAF1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DNAAF1 were set to Primary ciliary dyskinesia 613193
Fetal anomalies v0.0 DMPK Zornitza Stark gene: DMPK was added
gene: DMPK was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DMPK was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: DMPK were set to DYSTROPHIA MYOTONICA TYPE 1
Fetal anomalies v0.0 DLL4 Zornitza Stark gene: DLL4 was added
gene: DLL4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DLL4 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: DLL4 were set to ADAMS-OLIVER SYNDROME 6
Fetal anomalies v0.0 DLL3 Zornitza Stark gene: DLL3 was added
gene: DLL3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DLL3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DLL3 were set to SPONDYLOCOSTAL DYSOSTOSIS TYPE 1
Fetal anomalies v0.0 DKC1 Zornitza Stark gene: DKC1 was added
gene: DKC1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DKC1 was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: DKC1 were set to DKC1-RELATED DYSKERATOSIS CONGENITA; DYSKERATOSIS CONGENITA, X-LINKED
Fetal anomalies v0.0 DIS3L2 Zornitza Stark gene: DIS3L2 was added
gene: DIS3L2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DIS3L2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DIS3L2 were set to PERLMAN SYNDROME
Fetal anomalies v0.0 DHODH Zornitza Stark gene: DHODH was added
gene: DHODH was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DHODH was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DHODH were set to POSTAXIAL ACROFACIAL DYSOSTOSIS
Fetal anomalies v0.0 DHFR Zornitza Stark gene: DHFR was added
gene: DHFR was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DHFR was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DHFR were set to MEGALOBLASTIC ANEMIA DUE TO DIHYDROFOLATE REDUCTASE DEFICIENCY
Fetal anomalies v0.0 DHCR7 Zornitza Stark gene: DHCR7 was added
gene: DHCR7 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DHCR7 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: DHCR7 were set to 31840946
Phenotypes for gene: DHCR7 were set to SMITH-LEMLI-OPITZ SYNDROME
Fetal anomalies v0.0 DHCR24 Zornitza Stark gene: DHCR24 was added
gene: DHCR24 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DHCR24 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DHCR24 were set to DESMOSTEROLOSIS
Fetal anomalies v0.0 DDX3X Zornitza Stark gene: DDX3X was added
gene: DDX3X was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DDX3X was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Publications for gene: DDX3X were set to 30266093; 26235985; 25533962
Phenotypes for gene: DDX3X were set to Intellectual disability; INTELLECTUAL DIABILITY; Mental retardation, X-linked 102, 300958
Fetal anomalies v0.0 DDX11 Zornitza Stark gene: DDX11 was added
gene: DDX11 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DDX11 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DDX11 were set to WARSAW BREAKAGE SYNDROME
Fetal anomalies v0.0 DDR2 Zornitza Stark gene: DDR2 was added
gene: DDR2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DDR2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DDR2 were set to SPONDYLOEPIMETAPHYSEAL DYSPLASIA SHORT LIMB-HAND TYPE
Fetal anomalies v0.0 DCX Zornitza Stark gene: DCX was added
gene: DCX was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DCX was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Phenotypes for gene: DCX were set to LISSENCEPHALY X-LINKED TYPE 1; SUBCORTICAL BAND HETEROTOPIA X-LINKED
Fetal anomalies v0.0 DCHS1 Zornitza Stark gene: DCHS1 was added
gene: DCHS1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DCHS1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DCHS1 were set to PERIVENTRICULAR NEURONAL HETEROTOPIA
Fetal anomalies v0.0 DARS Zornitza Stark gene: DARS was added
gene: DARS was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DARS was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DARS were set to HYPOMYELINATION WITH BRAIN STEM AND SPINAL CORD INVOLVEMENT AND LEG SPASTICITY.
Fetal anomalies v0.0 DAG1 Zornitza Stark gene: DAG1 was added
gene: DAG1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: DAG1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DAG1 were set to MUSCULAR DYSTROPHY-DYSTROGLYCANOPATHY LIMB-GIRDLE TYPE C7
Fetal anomalies v0.0 CYP2U1 Zornitza Stark gene: CYP2U1 was added
gene: CYP2U1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CYP2U1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CYP2U1 were set to HEREDITARY SPASTIC PARAPLEGIA
Fetal anomalies v0.0 CYP21A2 Zornitza Stark gene: CYP21A2 was added
gene: CYP21A2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CYP21A2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CYP21A2 were set to Hyperandrogenism, nonclassic type, due to 21-hydroxylase deficiency; Adrenal hyperplasia, congenital, due to 21-hydroxylase deficiency
Fetal anomalies v0.0 CYP1B1 Zornitza Stark gene: CYP1B1 was added
gene: CYP1B1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CYP1B1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CYP1B1 were set to PRIMARY CONGENITAL GLAUCOMA TYPE 3A
Fetal anomalies v0.0 CYP17A1 Zornitza Stark gene: CYP17A1 was added
gene: CYP17A1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CYP17A1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CYP17A1 were set to 17-alpha-hydroxylase/17,20-lyase deficiency; 17,20-lyase deficiency, isolated
Fetal anomalies v0.0 CYP11B1 Zornitza Stark gene: CYP11B1 was added
gene: CYP11B1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CYP11B1 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: CYP11B1 were set to Aldosteronism, glucocorticoid-remediable 103900; Adrenal hyperplasia, congenital, due to 11-beta-hydroxylase deficiency 202010
Fetal anomalies v0.0 CYP11A1 Zornitza Stark gene: CYP11A1 was added
gene: CYP11A1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CYP11A1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: CYP11A1 were set to 28425981
Phenotypes for gene: CYP11A1 were set to Adrenal insufficiency, congenital, with 46XY sex reversal, partial or complete 613743
Fetal anomalies v0.0 CWC27 Zornitza Stark gene: CWC27 was added
gene: CWC27 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CWC27 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: CWC27 were set to 28285769
Phenotypes for gene: CWC27 were set to Retinitis pigmentosa, skeletal anomalies and intellectual disability
Fetal anomalies v0.0 CUL7 Zornitza Stark gene: CUL7 was added
gene: CUL7 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CUL7 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CUL7 were set to 3-M SYNDROME 1
Fetal anomalies v0.0 CUL4B Zornitza Stark gene: CUL4B was added
gene: CUL4B was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CUL4B was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: CUL4B were set to MENTAL RETARDATION SYNDROMIC X-LINKED CABEZAS TYPE
Fetal anomalies v0.0 CTSK Zornitza Stark gene: CTSK was added
gene: CTSK was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CTSK was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CTSK were set to PYCNODYSOSTOSIS
Fetal anomalies v0.0 CTSD Zornitza Stark gene: CTSD was added
gene: CTSD was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CTSD was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CTSD were set to NEURONAL CEROID LIPOFUSCINOSIS TYPE 10
Fetal anomalies v0.0 CTSA Zornitza Stark gene: CTSA was added
gene: CTSA was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CTSA was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: CTSA were set to 7759227
Phenotypes for gene: CTSA were set to GALACTOSIALIDOSIS
Fetal anomalies v0.0 CTNNB1 Zornitza Stark gene: CTNNB1 was added
gene: CTNNB1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CTNNB1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: CTNNB1 were set to 27915094
Phenotypes for gene: CTNNB1 were set to MENTAL RETARDATION, AUTOSOMAL DOMINANT 19
Fetal anomalies v0.0 CTCF Zornitza Stark gene: CTCF was added
gene: CTCF was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CTCF was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: CTCF were set to INTELLECTUAL DISABILITY
Fetal anomalies v0.0 CTC1 Zornitza Stark gene: CTC1 was added
gene: CTC1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CTC1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CTC1 were set to CEREBRORETINAL MICROANGIOPATHY WITH CALCIFICATIONS AND CYSTS
Fetal anomalies v0.0 CSPP1 Zornitza Stark gene: CSPP1 was added
gene: CSPP1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CSPP1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CSPP1 were set to JOUBERT SYNDROME WITH OR WITHOUT JEUNE ASPHYXIATING THORACIC DYSTROPHY
Fetal anomalies v0.0 CSNK2A1 Zornitza Stark gene: CSNK2A1 was added
gene: CSNK2A1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CSNK2A1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: CSNK2A1 were set to CSNK2A1 syndrome; Okur-Chung neurodevelopmental syndrome, 617062
Fetal anomalies v0.0 CRYGD Zornitza Stark gene: CRYGD was added
gene: CRYGD was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CRYGD was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: CRYGD were set to CATARACT AUTOSOMAL DOMINANT; CATARACT CONGENITAL CERULEAN TYPE 3
Fetal anomalies v0.0 CRYGC Zornitza Stark gene: CRYGC was added
gene: CRYGC was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CRYGC was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: CRYGC were set to CATARACT AUTOSOMAL DOMINANT
Fetal anomalies v0.0 CRYBB3 Zornitza Stark gene: CRYBB3 was added
gene: CRYBB3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CRYBB3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CRYBB3 were set to CATARACT, CONGENITAL NUCLEAR, AUTOSOMAL RECESSIVE 2
Fetal anomalies v0.0 CRYBB2 Zornitza Stark gene: CRYBB2 was added
gene: CRYBB2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CRYBB2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: CRYBB2 were set to CATARACT, COPPOCK-LIKE; CATARACT, CONGENITAL, CERULEAN TYPE, 2
Fetal anomalies v0.0 CRYBB1 Zornitza Stark gene: CRYBB1 was added
gene: CRYBB1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CRYBB1 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: CRYBB1 were set to CATARACT 17, MULTIPLE TYPES, MONOALLELIC; CATARACT 17, MULTIPLE TYPES; CATARACT, CONGENITAL NUCLEAR, AUTOSOMAL RECESSIVE 3
Fetal anomalies v0.0 CRYBA4 Zornitza Stark gene: CRYBA4 was added
gene: CRYBA4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CRYBA4 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: CRYBA4 were set to CATARACT ZONULAR TYPE 2
Fetal anomalies v0.0 CRYBA1 Zornitza Stark gene: CRYBA1 was added
gene: CRYBA1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CRYBA1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: CRYBA1 were set to CATARACT CONGENITAL ZONULAR WITH SUTURAL OPACITIES
Fetal anomalies v0.0 CRYAA Zornitza Stark gene: CRYAA was added
gene: CRYAA was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CRYAA was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: CRYAA were set to CATARACT, AUTOSOMAL RECESSIVE CONGENITAL 1; CATARACT, NUCLEAR
Fetal anomalies v0.0 CRTAP Zornitza Stark gene: CRTAP was added
gene: CRTAP was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CRTAP was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CRTAP were set to Osteogenesis imperfecta, type VII 610682
Fetal anomalies v0.0 CRLF1 Zornitza Stark gene: CRLF1 was added
gene: CRLF1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CRLF1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CRLF1 were set to Cold-induced sweating syndrome 1 272430
Fetal anomalies v0.0 CREBBP Zornitza Stark gene: CREBBP was added
gene: CREBBP was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CREBBP was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: CREBBP were set to RUBINSTEIN-TAYBI SYNDROME TYPE 1; CREBBP intellectual disability without typical RTS features
Fetal anomalies v0.0 CRB2 Zornitza Stark gene: CRB2 was added
gene: CRB2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CRB2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CRB2 were set to VENTRICULOMEGALY WITH CYSTIC KIDNEY DISEASE
Fetal anomalies v0.0 CPT2 Zornitza Stark gene: CPT2 was added
gene: CPT2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CPT2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CPT2 were set to Myopathy due to CPT II deficiency 255110; CPT II deficiency, lethal neonatal 608836; CPT deficiency, hepatic, type II 600649
Fetal anomalies v0.0 COX7B Zornitza Stark gene: COX7B was added
gene: COX7B was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COX7B was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Phenotypes for gene: COX7B were set to MICROPHTHALMIA WITH LINEAR SKIN LESIONS
Fetal anomalies v0.0 COQ9 Zornitza Stark gene: COQ9 was added
gene: COQ9 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COQ9 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: COQ9 were set to 30712880
Phenotypes for gene: COQ9 were set to COENZYME Q10 DEFICIENCY
Fetal anomalies v0.0 COQ4 Zornitza Stark gene: COQ4 was added
gene: COQ4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COQ4 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: COQ4 were set to COENZYME Q10 DEFICIENCY, PRIMARY, 7
Fetal anomalies v0.0 COLEC11 Zornitza Stark gene: COLEC11 was added
gene: COLEC11 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COLEC11 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: COLEC11 were set to 3MC SYNDROME 2
Fetal anomalies v0.0 COL9A2 Zornitza Stark gene: COL9A2 was added
gene: COL9A2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COL9A2 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: COL9A2 were set to STICKLER SYNDROME, TYPE V; MULTIPLE EPIPHYSEAL DYSPLASIA TYPE 2
Fetal anomalies v0.0 COL9A1 Zornitza Stark gene: COL9A1 was added
gene: COL9A1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COL9A1 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: COL9A1 were set to MULTIPLE EPIPHYSEAL DYSPLASIA TYPE 6; STICKLER SYNDROME TYPE 4
Fetal anomalies v0.0 COL6A3 Zornitza Stark gene: COL6A3 was added
gene: COL6A3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COL6A3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: COL6A3 were set to DYSTONIA 27; ULLRICH CONGENITAL MUSCULAR DYSTROPHY 1
Fetal anomalies v0.0 COL6A2 Zornitza Stark gene: COL6A2 was added
gene: COL6A2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COL6A2 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: COL6A2 were set to Ullrich congenital muscular dystrophy 1 254090; Bethlem myopathy 1 158810
Fetal anomalies v0.0 COL6A1 Zornitza Stark gene: COL6A1 was added
gene: COL6A1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COL6A1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: COL6A1 were set to COL6A1 associated myopathy
Fetal anomalies v0.0 COL4A3BP Zornitza Stark gene: COL4A3BP was added
gene: COL4A3BP was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COL4A3BP was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: COL4A3BP were set to INTELLECTUAL DISABILITY
Fetal anomalies v0.0 COL4A2 Zornitza Stark gene: COL4A2 was added
gene: COL4A2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COL4A2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: COL4A2 were set to 32732225
Phenotypes for gene: COL4A2 were set to PORENCEPHALY 2
Fetal anomalies v0.0 COL4A1 Zornitza Stark gene: COL4A1 was added
gene: COL4A1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COL4A1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: COL4A1 were set to 30266093; 32732225; 30712878
Phenotypes for gene: COL4A1 were set to PORENCEPHALY 1
Fetal anomalies v0.0 COL3A1 Zornitza Stark gene: COL3A1 was added
gene: COL3A1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COL3A1 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Publications for gene: COL3A1 were set to 28742248; 24922459; PMID: 28258187; 27168972; 25205403
Phenotypes for gene: COL3A1 were set to HP:0006496; HP:0002126; HP:0001883
Fetal anomalies v0.0 COL2A1 Zornitza Stark gene: COL2A1 was added
gene: COL2A1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COL2A1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: COL2A1 were set to KNIEST DYSPLASIA; SPONDYLOEPIMETAPHYSEAL DYSPLASIA STRUDWICK TYPE; PLATYSPONDYLIC LETHAL SKELETAL DYSPLASIA TORRANCE TYPE; STICKLER SYNDROME TYPE 1 NON-SYNDROMIC OCULAR; RHEGMATOGENOUS RETINAL DETACHMENT AUTOSOMAL DOMINANT; SPONDYLOEPIPHYSEAL DYSPLASIA CONGENITA; ACHONDROGENESIS TYPE 2; SPONDYLOPERIPHERAL DYSPLASIA
Fetal anomalies v0.0 COL1A2 Zornitza Stark gene: COL1A2 was added
gene: COL1A2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COL1A2 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: COL1A2 were set to Osteogenesis imperfecta; Ehlers-Danlos syndrome
Fetal anomalies v0.0 COL1A1 Zornitza Stark gene: COL1A1 was added
gene: COL1A1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COL1A1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: COL1A1 were set to OSTEOGENESIS IMPERFECTA TYPE III; CAFFEY DISEASE; OSTEOGENESIS IMPERFECTA TYPE I; OSTEOGENESIS IMPERFECTA TYPE IIA; EHLERS-DANLOS SYNDROME TYPE VIIA; COL1A1/2-RELATED OSTEOGENESIS IMPERFECTA; EHLERS-DANLOS SYNDROME, CLASSIC TYPE, COL1A1-RELATED
Fetal anomalies v0.0 COL18A1 Zornitza Stark gene: COL18A1 was added
gene: COL18A1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COL18A1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: COL18A1 were set to KNOBLOCH SYNDROME TYPE I
Fetal anomalies v0.0 COL11A2 Zornitza Stark gene: COL11A2 was added
gene: COL11A2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COL11A2 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: COL11A2 were set to DEAFNESS AUTOSOMAL DOMINANT TYPE 13; AUTOSOMAL RECESSIVE OTOSPONDYLOMEGAEPIPHYSEAL DYSPLASIA; WEISSENBACHER-ZWEYMUELLER SYNDROME; STICKLER SYNDROME TYPE 3; DEAFNESS AUTOSOMAL RECESSIVE TYPE 53
Fetal anomalies v0.0 COL11A1 Zornitza Stark gene: COL11A1 was added
gene: COL11A1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COL11A1 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: COL11A1 were set to FIBROCHONDROGENESIS; STICKLER SYNDROME, TYPE II
Fetal anomalies v0.0 COL10A1 Zornitza Stark gene: COL10A1 was added
gene: COL10A1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COL10A1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: COL10A1 were set to SCHMID TYPE METAPHYSEAL CHONDRODYSPLASIA
Fetal anomalies v0.0 COG8 Zornitza Stark gene: COG8 was added
gene: COG8 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COG8 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: COG8 were set to 30690882
Phenotypes for gene: COG8 were set to COG8-CDG
Fetal anomalies v0.0 COG7 Zornitza Stark gene: COG7 was added
gene: COG7 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COG7 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: COG7 were set to COG7-CDG
Fetal anomalies v0.0 COG4 Zornitza Stark gene: COG4 was added
gene: COG4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COG4 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: COG4 were set to 30290151
Phenotypes for gene: COG4 were set to COG4-CDG; Saul-Wilson syndrome, 618150
Fetal anomalies v0.0 COG1 Zornitza Stark gene: COG1 was added
gene: COG1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COG1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: COG1 were set to COG1-CDG
Fetal anomalies v0.0 COASY Zornitza Stark gene: COASY was added
gene: COASY was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: COASY was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: COASY were set to NEURODEGENERATION WITH BRAIN IRON ACCUMULATION
Fetal anomalies v0.0 CNTNAP2 Zornitza Stark gene: CNTNAP2 was added
gene: CNTNAP2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CNTNAP2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CNTNAP2 were set to CORTICAL DYSPLASIA-FOCAL EPILEPSY SYNDROME
Fetal anomalies v0.0 CNTNAP1 Zornitza Stark gene: CNTNAP1 was added
gene: CNTNAP1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CNTNAP1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CNTNAP1 were set to LETHAL CONGENITAL CONTRACTURE SYNDROME 7
Fetal anomalies v0.0 CNOT3 Zornitza Stark gene: CNOT3 was added
gene: CNOT3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CNOT3 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: CNOT3 were set to CNOT3 syndrome; Intellectual developmental disorder with speech delay, autism, and dysmorphic facies, 618672
Fetal anomalies v0.0 CNOT1 Zornitza Stark gene: CNOT1 was added
gene: CNOT1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CNOT1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: CNOT1 were set to 31006513; 31006510
Phenotypes for gene: CNOT1 were set to Holoprosencephaly 12, with or without pancreatic agenesis, 618500
Mode of pathogenicity for gene: CNOT1 was set to Other - please provide details in the comments
Fetal anomalies v0.0 CLPB Zornitza Stark gene: CLPB was added
gene: CLPB was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CLPB was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CLPB were set to 3-METHYLGLUTACONIC ACIDURIA, TYPE VII, WITH CATARACTS, NEUROLOGIC INVOLVEMENT AND NEUTROPENIA
Fetal anomalies v0.0 CLCN7 Zornitza Stark gene: CLCN7 was added
gene: CLCN7 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CLCN7 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CLCN7 were set to Hypopigmentation, organomegaly, and delayed myelination and development, OMIM:618541; Osteopetrosis, autosomal recessive 4, OMIM:611490; Osteopetrosis, autosomal dominant 2, OMIM:166600; CLCN7-RELATED OSTEOPETROSIS
Fetal anomalies v0.0 CKAP2L Zornitza Stark gene: CKAP2L was added
gene: CKAP2L was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CKAP2L was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CKAP2L were set to FILIPPI SYNDROME. SYNDACTYLY, TYPE I, WITH MICROCEPHALY AND MENTAL RETARDATION
Fetal anomalies v0.0 CHUK Zornitza Stark gene: CHUK was added
gene: CHUK was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CHUK was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CHUK were set to COCOON SYNDROME
Fetal anomalies v0.0 CHSY1 Zornitza Stark gene: CHSY1 was added
gene: CHSY1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CHSY1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CHSY1 were set to TEMTAMY PREAXIAL BRACHYDACTYLY SYNDROME
Fetal anomalies v0.0 CHST3 Zornitza Stark gene: CHST3 was added
gene: CHST3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CHST3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CHST3 were set to SPONDYLOEPIPHYSEAL DYSPLASIA WITH CONGENITAL JOINT DISLOCATIONS
Fetal anomalies v0.0 CHST14 Zornitza Stark gene: CHST14 was added
gene: CHST14 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CHST14 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CHST14 were set to EHLERS-DANLOS SYNDROME MUSCULOCONTRACTURAL TYPE
Fetal anomalies v0.0 CHRNG Zornitza Stark gene: CHRNG was added
gene: CHRNG was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CHRNG was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CHRNG were set to MULTIPLE PTERYGIUM SYNDROME ESCOBAR VARIANT
Fetal anomalies v0.0 CHRND Zornitza Stark gene: CHRND was added
gene: CHRND was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CHRND was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CHRND were set to Several associated, probably most relevant is lethal multiple pterygium syndrome 253290
Fetal anomalies v0.0 CHRNA1 Zornitza Stark gene: CHRNA1 was added
gene: CHRNA1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CHRNA1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: CHRNA1 were set to 18252226; 30177536
Phenotypes for gene: CHRNA1 were set to Multiple pterygium syndrome, lethal type, 253290; MULTIPLE PTERYGIUM SYNDROME LETHAL TYPE
Fetal anomalies v0.0 CHKB Zornitza Stark gene: CHKB was added
gene: CHKB was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CHKB was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CHKB were set to Muscular dystrophy, congenital, megaconial type 602541
Fetal anomalies v0.0 CHD7 Zornitza Stark gene: CHD7 was added
gene: CHD7 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CHD7 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: CHD7 were set to CHARGE SYNDROME; IDIOPATHIC HYPOGONADOTROPIC HYPOGONADISM; KALLMANN SYNDROME TYPE 5
Fetal anomalies v0.0 CHD4 Zornitza Stark gene: CHD4 was added
gene: CHD4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CHD4 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: CHD4 were set to Sifrim-Hitz-Weiss syndrome MONDO:0014946; Sifrim-Hitz-Weiss syndrome OMIM:617159
Fetal anomalies v0.0 CHAT Zornitza Stark gene: CHAT was added
gene: CHAT was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CHAT was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CHAT were set to Myasthenic syndrome, congenital, 6, presynaptic 254210
Fetal anomalies v0.0 CHAMP1 Zornitza Stark gene: CHAMP1 was added
gene: CHAMP1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CHAMP1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: CHAMP1 were set to INTELLECTUAL DISABILITY
Fetal anomalies v0.0 CFTR Zornitza Stark gene: CFTR was added
gene: CFTR was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CFTR was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CFTR were set to Cystic fibrosis 219700
Fetal anomalies v0.0 CFC1 Zornitza Stark gene: CFC1 was added
gene: CFC1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CFC1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: CFC1 were set to 11062482; 11799476
Phenotypes for gene: CFC1 were set to Heterotaxy, visceral, 2, autosomal, 605376; CFC1-RELATED CONOTRUNCAL HEART MALFORMATIONS
Fetal anomalies v0.0 CFAP53 Zornitza Stark gene: CFAP53 was added
gene: CFAP53 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CFAP53 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: CFAP53 were set to PMID: 22577226; PMID: 26531781; PMID: 25504577
Phenotypes for gene: CFAP53 were set to inverted spleen; midline liver; Dextrocardia; Heterotaxy, visceral, 6, autosomal recessive; Transposition of the great arteries; gut malrotation
Fetal anomalies v0.0 CEP83 Zornitza Stark gene: CEP83 was added
gene: CEP83 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CEP83 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CEP83 were set to INFANTILE NEPHRONOPHTHISIS AND INTELLECTUAL DISABILITY
Fetal anomalies v0.0 CEP57 Zornitza Stark gene: CEP57 was added
gene: CEP57 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CEP57 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CEP57 were set to MOSAIC VARIEGATED ANEUPLOIDY SYNDROME 2
Fetal anomalies v0.0 CEP41 Zornitza Stark gene: CEP41 was added
gene: CEP41 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CEP41 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CEP41 were set to JOUBERT SYNDROME 15
Fetal anomalies v0.0 CEP290 Zornitza Stark gene: CEP290 was added
gene: CEP290 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CEP290 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CEP290 were set to LEBER CONGENITAL AMAUROSIS TYPE 10; BARDET-BIEDL SYNDROME TYPE 14; JOUBERT SYNDROME TYPE 5; SENIOR-LOKEN SYNDROME TYPE 6; MECKEL SYNDROME TYPE 4
Fetal anomalies v0.0 CEP164 Zornitza Stark gene: CEP164 was added
gene: CEP164 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CEP164 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CEP164 were set to Nephronophthisis 15 614845
Fetal anomalies v0.0 CEP152 Zornitza Stark gene: CEP152 was added
gene: CEP152 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CEP152 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CEP152 were set to SECKEL SYNDROME TYPE 5; MICROCEPHALY PRIMARY TYPE 4
Fetal anomalies v0.0 CEP120 Zornitza Stark gene: CEP120 was added
gene: CEP120 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CEP120 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: CEP120 were set to PMID: 2720821; 25361962
Phenotypes for gene: CEP120 were set to Joubert syndrome 31; Short-rib thoracic dysplasia 13 with or without polydactyly
Fetal anomalies v0.0 CEP104 Zornitza Stark gene: CEP104 was added
gene: CEP104 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CEP104 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CEP104 were set to Joubert syndrome 25, 616781
Fetal anomalies v0.0 CENPJ Zornitza Stark gene: CENPJ was added
gene: CENPJ was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CENPJ was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CENPJ were set to SECKEL SYNDROME TYPE 4; MICROCEPHALY PRIMARY TYPE 6
Fetal anomalies v0.0 CDT1 Zornitza Stark gene: CDT1 was added
gene: CDT1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CDT1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CDT1 were set to MEIER-GORLIN SYNDROME 4
Fetal anomalies v0.0 CDON Zornitza Stark gene: CDON was added
gene: CDON was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CDON was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: CDON were set to HOLOPROSENCEPHALY 11
Fetal anomalies v0.0 CDKN1C Zornitza Stark gene: CDKN1C was added
gene: CDKN1C was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CDKN1C was set to MONOALLELIC, autosomal or pseudoautosomal, paternally imprinted (maternal allele expressed)
Phenotypes for gene: CDKN1C were set to IMAGe Syndrome; BECKWITH-WIEDEMANN SYNDROME
Fetal anomalies v0.0 CDKL5 Zornitza Stark gene: CDKL5 was added
gene: CDKL5 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CDKL5 was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Phenotypes for gene: CDKL5 were set to EPILEPTIC ENCEPHALOPATHY EARLY INFANTILE TYPE 2
Fetal anomalies v0.0 CDK13 Zornitza Stark gene: CDK13 was added
gene: CDK13 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CDK13 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: CDK13 were set to Syndromic INTELLECTUAL DISABILITY with or without congenital heart disease
Fetal anomalies v0.0 CDH3 Zornitza Stark gene: CDH3 was added
gene: CDH3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CDH3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CDH3 were set to EEM SYNDROME; HYPOTRICHOSIS, CONGENITAL, WITH JUVENILE MACULAR DYSTROPHY
Fetal anomalies v0.0 CDH1 Zornitza Stark gene: CDH1 was added
gene: CDH1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CDH1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: CDH1 were set to Blepharo-cheiro-dontic syndrome
Fetal anomalies v0.0 CDC6 Zornitza Stark gene: CDC6 was added
gene: CDC6 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CDC6 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CDC6 were set to MEIER-GORLIN SYNDROME 5
Fetal anomalies v0.0 CDC45 Zornitza Stark gene: CDC45 was added
gene: CDC45 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CDC45 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CDC45 were set to Meier-Gorlin Syndrome and Craniosynostosis
Fetal anomalies v0.0 CDAN1 Zornitza Stark gene: CDAN1 was added
gene: CDAN1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CDAN1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: CDAN1 were set to 30786798; 29668551; 29599085
Phenotypes for gene: CDAN1 were set to Anemia, congenital dyserythropoietic, type 1a, MONDO:0009135; Dyserythropoietic anemia, congenital, type Ia, OMIM:224120
Fetal anomalies v0.0 CCND2 Zornitza Stark gene: CCND2 was added
gene: CCND2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CCND2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: CCND2 were set to MEGALENCEPHALY-POLYMICROGYRIA-POLYDACTYLY-HYDROCEPHALUS SYNDROME
Fetal anomalies v0.0 CCDC40 Zornitza Stark gene: CCDC40 was added
gene: CCDC40 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CCDC40 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CCDC40 were set to CILIARY DYSKINESIA, PRIMARY, 15
Fetal anomalies v0.0 CCDC39 Zornitza Stark gene: CCDC39 was added
gene: CCDC39 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CCDC39 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CCDC39 were set to CILIARY DYSKINESIA, PRIMARY, 14
Fetal anomalies v0.0 CCDC114 Zornitza Stark gene: CCDC114 was added
gene: CCDC114 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CCDC114 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CCDC114 were set to PRIMARY CILIARY DYSKINESIA
Fetal anomalies v0.0 CCDC103 Zornitza Stark gene: CCDC103 was added
gene: CCDC103 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CCDC103 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CCDC103 were set to PRIMARY CILIARY DYSKINESIA
Fetal anomalies v0.0 CCBE1 Zornitza Stark gene: CCBE1 was added
gene: CCBE1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CCBE1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CCBE1 were set to HENNEKAM LYMPHANGIECTASIA-LYMPHEDEMA SYNDROME
Fetal anomalies v0.0 CC2D2A Zornitza Stark gene: CC2D2A was added
gene: CC2D2A was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CC2D2A was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CC2D2A were set to MECKEL SYNDROME, TYPE 6; JOUBERT SYNDROME 9; COACH SYNDROME
Fetal anomalies v0.0 CBL Zornitza Stark gene: CBL was added
gene: CBL was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CBL was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: CBL were set to NOONAN SYNDROME-LIKE DISORDER WITH OR WITHOUT JUVENILE MEYLOMONOCYTIC LEUKEMIA
Fetal anomalies v0.0 CASK Zornitza Stark gene: CASK was added
gene: CASK was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CASK was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Phenotypes for gene: CASK were set to MENTAL RETARDATION X-LINKED CASK-RELATED; MRX WITH/WITHOUT NYSTAGMUS; FG SYNDROME TYPE 4
Fetal anomalies v0.0 CACNA1E Zornitza Stark gene: CACNA1E was added
gene: CACNA1E was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CACNA1E was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: CACNA1E were set to 30849329
Phenotypes for gene: CACNA1E were set to Epileptic Encephalopathy with Contractures, Macrocephaly, and Dyskinesia; Developmental and Epileptic Encephalopathy with Contractures Macrocephaly and Dyskinesias
Mode of pathogenicity for gene: CACNA1E was set to Other - please provide details in the comments
Fetal anomalies v0.0 CACNA1C Zornitza Stark gene: CACNA1C was added
gene: CACNA1C was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CACNA1C was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: CACNA1C were set to TIMOTHY SYNDROME
Fetal anomalies v0.0 CA8 Zornitza Stark gene: CA8 was added
gene: CA8 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CA8 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CA8 were set to CEREBELLAR ATAXIA MENTAL RETARDATION AND DYSEQUILIBRIUM SYNDROME TYPE 3
Fetal anomalies v0.0 CA2 Zornitza Stark gene: CA2 was added
gene: CA2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: CA2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CA2 were set to OSTEOPETROSIS AUTOSOMAL RECESSIVE TYPE 3
Fetal anomalies v0.0 C8orf37 Zornitza Stark gene: C8orf37 was added
gene: C8orf37 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: C8orf37 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: C8orf37 were set to CONE-ROD DYSTROPHY 16
Fetal anomalies v0.0 C5orf42 Zornitza Stark gene: C5orf42 was added
gene: C5orf42 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: C5orf42 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: C5orf42 were set to JOUBERT SYNDROME
Fetal anomalies v0.0 C21orf2 Zornitza Stark gene: C21orf2 was added
gene: C21orf2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: C21orf2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: C21orf2 were set to Axial Spondylometaphyseal Dysplasia
Fetal anomalies v0.0 C12orf65 Zornitza Stark gene: C12orf65 was added
gene: C12orf65 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: C12orf65 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: C12orf65 were set to COMBINED OXIDATIVE PHOSPHORYLATION DEFICIENCY 7
Fetal anomalies v0.0 C11orf70 Zornitza Stark gene: C11orf70 was added
gene: C11orf70 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: C11orf70 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: C11orf70 were set to 29727692; 29727693
Phenotypes for gene: C11orf70 were set to PRIMARY CILIARY DYSKINESIA
Fetal anomalies v0.0 BUB1B Zornitza Stark gene: BUB1B was added
gene: BUB1B was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BUB1B was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: BUB1B were set to MOSAIC VARIEGATED ANEUPLOIDY SYNDROME 1
Fetal anomalies v0.0 BTD Zornitza Stark gene: BTD was added
gene: BTD was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BTD was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: BTD were set to BIOTINIDASE DEFICIENCY
Fetal anomalies v0.0 BSND Zornitza Stark gene: BSND was added
gene: BSND was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BSND was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: BSND were set to BARTTER SYNDROME TYPE 4A
Fetal anomalies v0.0 BRPF1 Zornitza Stark gene: BRPF1 was added
gene: BRPF1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BRPF1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: BRPF1 were set to BRPF1 associated syndromic intellectual disability with ptosis
Fetal anomalies v0.0 BRIP1 Zornitza Stark gene: BRIP1 was added
gene: BRIP1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BRIP1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: BRIP1 were set to FANCONI ANEMIA, COMPLEMENTATION GROUP J
Fetal anomalies v0.0 BRCA2 Zornitza Stark gene: BRCA2 was added
gene: BRCA2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BRCA2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: BRCA2 were set to FANCONI ANEMIA COMPLEMENTATION GROUP D TYPE 1
Fetal anomalies v0.0 BRAT1 Zornitza Stark gene: BRAT1 was added
gene: BRAT1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BRAT1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: BRAT1 were set to 23035047
Phenotypes for gene: BRAT1 were set to LETHAL NEONATAL RIGIDITY AND SEIZURE SYNDROME
Fetal anomalies v0.0 BRAF Zornitza Stark gene: BRAF was added
gene: BRAF was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BRAF was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: BRAF were set to NOONAN SYNDROME TYPE 7; CARDIOFACIOCUTANEOUS SYNDROME; LEOPARD SYNDROME TYPE 3
Fetal anomalies v0.0 BMPR1B Zornitza Stark gene: BMPR1B was added
gene: BMPR1B was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BMPR1B was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: BMPR1B were set to Acromesomelic dysplasia, Demirhan type, OMIM:609441
Fetal anomalies v0.0 BMPER Zornitza Stark gene: BMPER was added
gene: BMPER was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BMPER was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: BMPER were set to DIAPHANOSPONDYLODYSOSTOSIS
Fetal anomalies v0.0 BMP4 Zornitza Stark gene: BMP4 was added
gene: BMP4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BMP4 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: BMP4 were set to OROFACIAL CLEFT 11; MICROPHTHALMIA, SYNDROMIC 6
Fetal anomalies v0.0 BMP2 Zornitza Stark gene: BMP2 was added
gene: BMP2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BMP2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: BMP2 were set to Short stature, palatal anomalies, congenital heart disease, and skeletal malformations; Brachydactyly, type A2 112600
Fetal anomalies v0.0 BMP1 Zornitza Stark gene: BMP1 was added
gene: BMP1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BMP1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: BMP1 were set to 28513615
Phenotypes for gene: BMP1 were set to Osteogenesis imperfecta type XIII 614856
Fetal anomalies v0.0 BLM Zornitza Stark gene: BLM was added
gene: BLM was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BLM was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: BLM were set to BLOOM SYNDROME
Fetal anomalies v0.0 BIN1 Zornitza Stark gene: BIN1 was added
gene: BIN1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BIN1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: BIN1 were set to CENTRONUCLEAR MYOPATHY 2
Fetal anomalies v0.0 BICD2 Zornitza Stark gene: BICD2 was added
gene: BICD2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BICD2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: BICD2 were set to 27751653; 30054298; 29274205; 28635954
Phenotypes for gene: BICD2 were set to reduced fetal movements; PROXIMAL SPINAL MUSCULAR ATROPHY WITH AUTOSOMAL-DOMINANT INHERITANCE; Spinal muscular atrophy, lower extremity-predominant, 2B, autosomal dominant, 618291; arthrogryposis multiplex congenita (AMC); hydrops fetalis; Pterygium
Mode of pathogenicity for gene: BICD2 was set to Other
Fetal anomalies v0.0 BHLHA9 Zornitza Stark gene: BHLHA9 was added
gene: BHLHA9 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BHLHA9 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: BHLHA9 were set to ?Camptosynpolydactyly, complex, OMIM:607539; Syndactyly, mesoaxial synostotic, with phalangeal reduction, OMIM:609432; SPLIT HAND AND FOOT MALFORMATION; MESOAXIAL SYNOSTOTIC SYNDACTYLY WITH PHALANGEAL REDUCTION, MALIK-PERCIN TYPE
Fetal anomalies v0.0 BGN Zornitza Stark gene: BGN was added
gene: BGN was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BGN was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Publications for gene: BGN were set to 27236923; 27632686
Phenotypes for gene: BGN were set to Meester-Loeys syndrome, 300989; X-Linked Spondyloepimetaphyseal Dysplasia; Severe syndromic form of thoracic aortic aneurysm & dissection; Spondyloepimetaphyseal dysplasia, X-linked, 300106
Fetal anomalies v0.0 BFSP2 Zornitza Stark gene: BFSP2 was added
gene: BFSP2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BFSP2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: BFSP2 were set to CATARACT AUTOSOMAL DOMINANT BFSP2-RELATED
Fetal anomalies v0.0 BCS1L Zornitza Stark gene: BCS1L was added
gene: BCS1L was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BCS1L was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: BCS1L were set to 30712880
Phenotypes for gene: BCS1L were set to GRACILE syndrome, 603358; GRACILE SYNDROME
Fetal anomalies v0.0 BCOR Zornitza Stark gene: BCOR was added
gene: BCOR was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BCOR was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Phenotypes for gene: BCOR were set to MICROPHTHALMIA SYNDROMIC TYPE 2
Fetal anomalies v0.0 BCL11A Zornitza Stark gene: BCL11A was added
gene: BCL11A was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BCL11A was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: BCL11A were set to INTELLECTUAL DISABILITY
Fetal anomalies v0.0 BCAP31 Zornitza Stark gene: BCAP31 was added
gene: BCAP31 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BCAP31 was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: BCAP31 were set to DEAFNESS, DYSTONIA, AND CENTRAL HYPOMYELINATION WITH DISORGANIZATION OF THE GOLGI APPARATUS
Fetal anomalies v0.0 BBS9 Zornitza Stark gene: BBS9 was added
gene: BBS9 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BBS9 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: BBS9 were set to BARDET-BIEDL SYNDROME TYPE 9
Fetal anomalies v0.0 BBS7 Zornitza Stark gene: BBS7 was added
gene: BBS7 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BBS7 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: BBS7 were set to BARDET-BIEDL SYNDROME TYPE 7
Fetal anomalies v0.0 BBS5 Zornitza Stark gene: BBS5 was added
gene: BBS5 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BBS5 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: BBS5 were set to BARDET-BIEDL SYNDROME TYPE 5
Fetal anomalies v0.0 BBS4 Zornitza Stark gene: BBS4 was added
gene: BBS4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BBS4 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: BBS4 were set to 28425981
Phenotypes for gene: BBS4 were set to BARDET-BIEDL SYNDROME TYPE 4
Fetal anomalies v0.0 BBS2 Zornitza Stark gene: BBS2 was added
gene: BBS2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BBS2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: BBS2 were set to BARDET-BIEDL SYNDROME TYPE 2
Fetal anomalies v0.0 BBS12 Zornitza Stark gene: BBS12 was added
gene: BBS12 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BBS12 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: BBS12 were set to BARDET-BIEDL SYNDROME TYPE 12
Fetal anomalies v0.0 BBS10 Zornitza Stark gene: BBS10 was added
gene: BBS10 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BBS10 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: BBS10 were set to BARDET-BIEDL SYNDROME TYPE 10
Fetal anomalies v0.0 BBS1 Zornitza Stark gene: BBS1 was added
gene: BBS1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: BBS1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: BBS1 were set to Bardet-Biedl syndrome 1 MONDO:0008854; Bardet-Biedl syndrome 1 OMIM:209900
Fetal anomalies v0.0 B4GALT7 Zornitza Stark gene: B4GALT7 was added
gene: B4GALT7 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: B4GALT7 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: B4GALT7 were set to EHLERS-DANLOS SYNDROME PROGEROID TYPE
Fetal anomalies v0.0 B3GLCT Zornitza Stark gene: B3GLCT was added
gene: B3GLCT was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: B3GLCT was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: B3GLCT were set to 29096039
Phenotypes for gene: B3GLCT were set to PETERS-PLUS SYNDROME 261540
Fetal anomalies v0.0 B3GAT3 Zornitza Stark gene: B3GAT3 was added
gene: B3GAT3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: B3GAT3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: B3GAT3 were set to Multiple joint dislocations, short stature, craniofacial dysmorphism, with or without congenital heart defects 245600
Fetal anomalies v0.0 B3GALT6 Zornitza Stark gene: B3GALT6 was added
gene: B3GALT6 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: B3GALT6 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: B3GALT6 were set to SPONDYLOEPIMETAPHYSEAL DYSPLASIA WITH JOINT LAXITY TYPE 1; EHLERS-DANLOS SYNDROME
Fetal anomalies v0.0 ATRX Zornitza Stark gene: ATRX was added
gene: ATRX was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ATRX was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: ATRX were set to ALPHA-THALASSEMIA MENTAL RETARDATION SYNDROME X-LINKED NON-DELETION TYPE; MENTAL RETARDATION SYNDROMIC X-LINKED WITH HYPOTONIC FACIES SYNDROME TYPE 1
Fetal anomalies v0.0 ATP7A Zornitza Stark gene: ATP7A was added
gene: ATP7A was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ATP7A was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Publications for gene: ATP7A were set to 23035047
Phenotypes for gene: ATP7A were set to SPINAL MUSCULAR ATROPHY, DISTAL, X-LINKED 3; MENKES DISEASE; OCCIPITAL HORN SYNDROME
Fetal anomalies v0.0 ATP6V0A2 Zornitza Stark gene: ATP6V0A2 was added
gene: ATP6V0A2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ATP6V0A2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ATP6V0A2 were set to Cutis laxa, autosomal recessive, type IIA; Wrinkly skin syndrome 219200
Fetal anomalies v0.0 ATIC Zornitza Stark gene: ATIC was added
gene: ATIC was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ATIC was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ATIC were set to AICA-RIBOSURIA
Fetal anomalies v0.0 ATAD3A Zornitza Stark gene: ATAD3A was added
gene: ATAD3A was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ATAD3A was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: ATAD3A were set to 33845882; 28549128; 28158749; 29053797; 32607449; 32004445; 33575671; 31727539; 28327206; 27640307
Phenotypes for gene: ATAD3A were set to ATAD3A disorder - global developmental delay, hypotonia, optic atrophy, axonal neuropathy, and hypertrophic cardiomyopathy; Pontocerebellar hypoplasia, hypotonia, and respiratory insufficiency syndrome, neonatal lethal, OMIM:618810; Harel-Yoon syndrome, OMIM:617183
Mode of pathogenicity for gene: ATAD3A was set to Loss-of-function variants (as defined in pop up message) DO NOT cause this phenotype - please provide details in the comments
Fetal anomalies v0.0 ASXL1 Zornitza Stark gene: ASXL1 was added
gene: ASXL1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ASXL1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: ASXL1 were set to BOHRING-OPITZ SYNDROME
Fetal anomalies v0.0 ASS1 Zornitza Stark gene: ASS1 was added
gene: ASS1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ASS1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ASS1 were set to CITRULLINEMIA TYPE I
Fetal anomalies v0.0 ASPM Zornitza Stark gene: ASPM was added
gene: ASPM was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ASPM was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ASPM were set to PRIMARY AUTOSOMAL RECESSIVE MICROCEPHALY
Fetal anomalies v0.0 ASPA Zornitza Stark gene: ASPA was added
gene: ASPA was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ASPA was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ASPA were set to CANAVAN DISEASE
Fetal anomalies v0.0 ASNS Zornitza Stark gene: ASNS was added
gene: ASNS was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ASNS was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ASNS were set to Asparagine synthetase deficiency 615574
Fetal anomalies v0.0 ASCC1 Zornitza Stark gene: ASCC1 was added
gene: ASCC1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ASCC1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ASCC1 were set to 28749478; 26924529; 30327447
Phenotypes for gene: ASCC1 were set to spinal muscular atrophy; hypotonia; contractures; fetal akinesia; arthrogryposis
Fetal anomalies v0.0 ASAH1 Zornitza Stark gene: ASAH1 was added
gene: ASAH1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ASAH1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ASAH1 were set to SPINAL MUSCULAR ATROPHY ASSOCIATED WITH PROGRESSIVE MYOCLONIC EPILEPSY; FARBER LIPOGRANULOMATOSIS
Fetal anomalies v0.0 ARX Zornitza Stark gene: ARX was added
gene: ARX was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ARX was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: ARX were set to AGENESIS OF THE CORPUS CALLOSUM WITH ABNORMAL GENITALIA; EPILEPTIC ENCEPHALOPATHY EARLY INFANTILE TYPE 1; PARTINGTON SYNDROME; MENTAL RETARDATION X-LINKED ARX-RELATED; LISSENCEPHALY X-LINKED TYPE 2
Fetal anomalies v0.0 ARSE Zornitza Stark gene: ARSE was added
gene: ARSE was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ARSE was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: ARSE were set to CHONDRODYSPLASIA PUNCTATA 1, X-LINKED
Fetal anomalies v0.0 ARSB Zornitza Stark gene: ARSB was added
gene: ARSB was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ARSB was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ARSB were set to MUCOPOLYSACCHARIDOSIS TYPE 6
Fetal anomalies v0.0 ARSA Zornitza Stark gene: ARSA was added
gene: ARSA was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ARSA was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ARSA were set to ARYLSULFATASE A DEFICIENCY
Fetal anomalies v0.0 ARMC9 Zornitza Stark gene: ARMC9 was added
gene: ARMC9 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ARMC9 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ARMC9 were set to Joubert syndrome 30
Fetal anomalies v0.0 ARMC4 Zornitza Stark gene: ARMC4 was added
gene: ARMC4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ARMC4 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ARMC4 were set to CILIARY DYSKINESIA, PRIMARY, 23
Fetal anomalies v0.0 ARL6 Zornitza Stark gene: ARL6 was added
gene: ARL6 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ARL6 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ARL6 were set to RETINITIS PIGMENTOSA TYPE 55; BARDET-BIEDL SYNDROME TYPE 3
Fetal anomalies v0.0 ARL13B Zornitza Stark gene: ARL13B was added
gene: ARL13B was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ARL13B was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ARL13B were set to 25138100; 18674751; 29255182
Phenotypes for gene: ARL13B were set to Joubert syndrome 8, 612291
Fetal anomalies v0.0 ARID1B Zornitza Stark gene: ARID1B was added
gene: ARID1B was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ARID1B was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: ARID1B were set to COFFIN SIRIS SYNDROME; MENTAL RETARDATION, AUTOSOMAL DOMINANT 12
Fetal anomalies v0.0 ARID1A Zornitza Stark gene: ARID1A was added
gene: ARID1A was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ARID1A was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: ARID1A were set to COFFIN-SIRIS SYNDROME
Fetal anomalies v0.0 ARHGAP31 Zornitza Stark gene: ARHGAP31 was added
gene: ARHGAP31 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ARHGAP31 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: ARHGAP31 were set to ADAMS-OLIVER SYNDROME 1
Fetal anomalies v0.0 ARCN1 Zornitza Stark gene: ARCN1 was added
gene: ARCN1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ARCN1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: ARCN1 were set to 27476655
Phenotypes for gene: ARCN1 were set to Short stature, rhizomelic, with microcephaly, micrognathia, and developmental delay, 617164; Microcephalic dwarfism
Fetal anomalies v0.0 AR Zornitza Stark gene: AR was added
gene: AR was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: AR was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: AR were set to SPINAL AND BULBAR MUSCULAR ATROPHY; ANDROGEN INSENSITIVITY SYNDROME
Fetal anomalies v0.0 AP4E1 Zornitza Stark gene: AP4E1 was added
gene: AP4E1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: AP4E1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: AP4E1 were set to Hereditary spastic paraplegia 51, MONDO:0013401; Spastic paraplegia 51, autosomal recessive, OMIM:613744
Fetal anomalies v0.0 AP1S2 Zornitza Stark gene: AP1S2 was added
gene: AP1S2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: AP1S2 was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: AP1S2 were set to Pettigrew syndrome, OMIM:304340
Fetal anomalies v0.0 ANTXR1 Zornitza Stark gene: ANTXR1 was added
gene: ANTXR1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ANTXR1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ANTXR1 were set to GAPO SYNDROME
Fetal anomalies v0.0 ANOS1 Zornitza Stark gene: ANOS1 was added
gene: ANOS1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ANOS1 was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: ANOS1 were set to Hypogonadotropic hypogonadism 1 with or without anosmia (Kallmann syndrome 1) 308700
Fetal anomalies v0.0 ANKRD11 Zornitza Stark gene: ANKRD11 was added
gene: ANKRD11 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ANKRD11 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: ANKRD11 were set to KBG SYNDROME
Fetal anomalies v0.0 ANKH Zornitza Stark gene: ANKH was added
gene: ANKH was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ANKH was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: ANKH were set to CRANIOMETAPHYSEAL DYSPLASIA JACKSON TYPE; CHONDROCALCINOSIS 2
Fetal anomalies v0.0 ANAPC1 Zornitza Stark gene: ANAPC1 was added
gene: ANAPC1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ANAPC1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ANAPC1 were set to 31303264
Phenotypes for gene: ANAPC1 were set to Rothmund-Thomson Syndrome Type 1
Fetal anomalies v0.0 AMT Zornitza Stark gene: AMT was added
gene: AMT was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: AMT was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: AMT were set to GLYCINE ENCEPHALOPATHY
Fetal anomalies v0.0 AMPD2 Zornitza Stark gene: AMPD2 was added
gene: AMPD2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: AMPD2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: AMPD2 were set to PONTOCEREBELLAR HYPOPLASIA
Fetal anomalies v0.0 AMER1 Zornitza Stark gene: AMER1 was added
gene: AMER1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: AMER1 was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Publications for gene: AMER1 were set to 28425981
Phenotypes for gene: AMER1 were set to OSTEOPATHIA STRIATA WITH CRANIAL SCLEROSIS
Fetal anomalies v0.0 ALX4 Zornitza Stark gene: ALX4 was added
gene: ALX4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ALX4 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: ALX4 were set to FRONTONASAL DYSPLASIA 2; PARIETAL FORAMINA 2
Fetal anomalies v0.0 ALX3 Zornitza Stark gene: ALX3 was added
gene: ALX3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ALX3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ALX3 were set to FRONTONASAL DYSPLASIA TYPE 1
Fetal anomalies v0.0 ALX1 Zornitza Stark gene: ALX1 was added
gene: ALX1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ALX1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ALX1 were set to FRONTONASAL DYSPLASIA TYPE 3
Fetal anomalies v0.0 ALPL Zornitza Stark gene: ALPL was added
gene: ALPL was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ALPL was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: ALPL were set to HYPOPHOSPHATASIA
Fetal anomalies v0.0 ALMS1 Zornitza Stark gene: ALMS1 was added
gene: ALMS1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ALMS1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ALMS1 were set to ALSTROM SYNDROME
Fetal anomalies v0.0 ALG8 Zornitza Stark gene: ALG8 was added
gene: ALG8 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ALG8 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ALG8 were set to ALG8-CDG
Fetal anomalies v0.0 ALG6 Zornitza Stark gene: ALG6 was added
gene: ALG6 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ALG6 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ALG6 were set to ALG6-CDG
Fetal anomalies v0.0 ALG3 Zornitza Stark gene: ALG3 was added
gene: ALG3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ALG3 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ALG3 were set to 16006436
Phenotypes for gene: ALG3 were set to ALG3-CDG
Fetal anomalies v0.0 ALG12 Zornitza Stark gene: ALG12 was added
gene: ALG12 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ALG12 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ALG12 were set to CONGENITAL DISORDER OF GLYCOSYLATION TYPE 1G
Fetal anomalies v0.0 ALG1 Zornitza Stark gene: ALG1 was added
gene: ALG1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ALG1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ALG1 were set to ALG1-CDG
Fetal anomalies v0.0 ALDOA Zornitza Stark gene: ALDOA was added
gene: ALDOA was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ALDOA was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ALDOA were set to GLYCOGEN STORAGE DISEASE XII
Fetal anomalies v0.0 ALDH7A1 Zornitza Stark gene: ALDH7A1 was added
gene: ALDH7A1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ALDH7A1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ALDH7A1 were set to PYRIDOXINE-DEPENDENT EPILEPSY
Fetal anomalies v0.0 ALDH3A2 Zornitza Stark gene: ALDH3A2 was added
gene: ALDH3A2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ALDH3A2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ALDH3A2 were set to SJOEGREN-LARSSON SYNDROME
Fetal anomalies v0.0 ALDH1A3 Zornitza Stark gene: ALDH1A3 was added
gene: ALDH1A3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ALDH1A3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ALDH1A3 were set to ANOPHTHALMIA/MICROPHTHALMIA
Fetal anomalies v0.0 ALDH18A1 Zornitza Stark gene: ALDH18A1 was added
gene: ALDH18A1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ALDH18A1 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: ALDH18A1 were set to SPASTIC PARAPLEGIA 9, AUTOSOMAL DOMINANT; MENTAL RETARDATION-JOINT HYPERMOBILITY-SKIN LAXITY WITH OR WITHOUT METABOLIC ABNORMALITIES; CUTIS LAXA, AUTOSOMAL DOMINANT 3
Fetal anomalies v0.0 AKT3 Zornitza Stark gene: AKT3 was added
gene: AKT3 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: AKT3 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: AKT3 were set to HEMIMEGALENCEPHALY AKT3
Mode of pathogenicity for gene: AKT3 was set to Other
Fetal anomalies v0.0 AKT1 Zornitza Stark gene: AKT1 was added
gene: AKT1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: AKT1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: AKT1 were set to 33030203
Phenotypes for gene: AKT1 were set to PROTEUS SYNDROME
Fetal anomalies v0.0 AHI1 Zornitza Stark gene: AHI1 was added
gene: AHI1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: AHI1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: AHI1 were set to JOUBERT SYNDROME
Fetal anomalies v0.0 AHDC1 Zornitza Stark gene: AHDC1 was added
gene: AHDC1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: AHDC1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: AHDC1 were set to XIA-GIBBS SYNDROME
Fetal anomalies v0.0 AGPS Zornitza Stark gene: AGPS was added
gene: AGPS was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: AGPS was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: AGPS were set to RHIZOMELIC CHONDRODYSPLASIA PUNCTATA TYPE 3
Fetal anomalies v0.0 AGL Zornitza Stark gene: AGL was added
gene: AGL was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: AGL was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: AGL were set to GLYCOGEN STORAGE DISEASE TYPE III
Fetal anomalies v0.0 AGK Zornitza Stark gene: AGK was added
gene: AGK was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: AGK was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: AGK were set to SENGERS SYNDROME
Fetal anomalies v0.0 AFF4 Zornitza Stark gene: AFF4 was added
gene: AFF4 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: AFF4 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: AFF4 were set to CORNELIA DE LANGE-LIKE SYNDROME
Fetal anomalies v0.0 ADSL Zornitza Stark gene: ADSL was added
gene: ADSL was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ADSL was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ADSL were set to ADENYLOSUCCINASE DEFICIENCY
Fetal anomalies v0.0 ADNP Zornitza Stark gene: ADNP was added
gene: ADNP was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ADNP was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: ADNP were set to MENTAL RETARDATION, AUTOSOMAL DOMINANT, 28
Fetal anomalies v0.0 ADGRG6 Zornitza Stark gene: ADGRG6 was added
gene: ADGRG6 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ADGRG6 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ADGRG6 were set to LETHAL CONGENITAL CONTRACTURE SYNDROME 9
Fetal anomalies v0.0 ADGRG1 Zornitza Stark gene: ADGRG1 was added
gene: ADGRG1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ADGRG1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ADGRG1 were set to POLYMICROGYRIA
Fetal anomalies v0.0 ADAR Zornitza Stark gene: ADAR was added
gene: ADAR was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ADAR was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: ADAR were set to AICARDI-GOUTIERES SYNDROME ASSOCIATED WITH A TYPE I INTERFERON SIGNATURE; DYSCHROMATOSIS SYMMETRICA HEREDITARIA 1
Fetal anomalies v0.0 ADAMTSL2 Zornitza Stark gene: ADAMTSL2 was added
gene: ADAMTSL2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ADAMTSL2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ADAMTSL2 were set to Geleophysic dysplasia 1 231050
Fetal anomalies v0.0 ADAMTS17 Zornitza Stark gene: ADAMTS17 was added
gene: ADAMTS17 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ADAMTS17 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ADAMTS17 were set to 19836009; 22486325; 30712880; 24940034
Phenotypes for gene: ADAMTS17 were set to Weill-Marchesani 4 syndrome, recessive, 613195
Fetal anomalies v0.0 ADAMTS10 Zornitza Stark gene: ADAMTS10 was added
gene: ADAMTS10 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ADAMTS10 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ADAMTS10 were set to Weill-Marchesani syndrome 1, recessive 277600
Fetal anomalies v0.0 ACY1 Zornitza Stark gene: ACY1 was added
gene: ACY1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ACY1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ACY1 were set to AMINOACYLASE-1 DEFICIENCY
Fetal anomalies v0.0 ACVR2B Zornitza Stark gene: ACVR2B was added
gene: ACVR2B was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ACVR2B was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: ACVR2B were set to PMID: 9916847; PMID: 9242489
Phenotypes for gene: ACVR2B were set to Heterotaxy; Dextrocardia; polysplenia; Gut malrotation; Double outlet right ventricle; Transposition of the great arteries; asplenia; right-sided spleen
Fetal anomalies v0.0 ACTG2 Zornitza Stark gene: ACTG2 was added
gene: ACTG2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ACTG2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: ACTG2 were set to 31070878; 25998219; 30712878
Phenotypes for gene: ACTG2 were set to Fetal Megacystis; Visceral myopathy 155310
Mode of pathogenicity for gene: ACTG2 was set to Other
Fetal anomalies v0.0 ACTG1 Zornitza Stark gene: ACTG1 was added
gene: ACTG1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ACTG1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: ACTG1 were set to BARAITSER-WINTER SYNDROME
Fetal anomalies v0.0 ACTC1 Zornitza Stark gene: ACTC1 was added
gene: ACTC1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ACTC1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: ACTC1 were set to 24461919
Phenotypes for gene: ACTC1 were set to Atrial septal defect 5 612794
Fetal anomalies v0.0 ACTB Zornitza Stark gene: ACTB was added
gene: ACTB was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ACTB was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Phenotypes for gene: ACTB were set to ACTB Haploinsufficiency syndtome; BARAITSER-WINTER SYNDROME
Fetal anomalies v0.0 ACTA2 Zornitza Stark gene: ACTA2 was added
gene: ACTA2 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ACTA2 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: ACTA2 were set to AORTIC ANEURYSM, FAMILIAL THORACIC 6; MOYAMOYA DISEASE 5
Fetal anomalies v0.0 ACTA1 Zornitza Stark gene: ACTA1 was added
gene: ACTA1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ACTA1 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Publications for gene: ACTA1 were set to 30266093
Phenotypes for gene: ACTA1 were set to Nemaline myopathy 3, autosomal dominant or recessive, OMIM:161800
Fetal anomalies v0.0 ACP5 Zornitza Stark gene: ACP5 was added
gene: ACP5 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ACP5 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ACP5 were set to SPONDYLOENCHONDRODYSPLASIA WITH IMMUNE DYSREGULATION
Fetal anomalies v0.0 ACOX1 Zornitza Stark gene: ACOX1 was added
gene: ACOX1 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ACOX1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ACOX1 were set to Peroxisomal acyl-CoA oxidase deficiency, OMIM:264470; ADRENOLEUKODYSTROPHY PSEUDONEONATAL
Fetal anomalies v0.0 ACE Zornitza Stark gene: ACE was added
gene: ACE was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ACE was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ACE were set to 30058238
Phenotypes for gene: ACE were set to Renal tubular dysgenesis 267430
Fetal anomalies v0.0 ACAN Zornitza Stark gene: ACAN was added
gene: ACAN was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ACAN was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: ACAN were set to SPONDYLOEPIMETAPHYSEAL DYSPLASIA AGGRECAN TYPE; SPONDYLOEPIPHYSEAL DYSPLASIA TYPE KIMBERLEY
Fetal anomalies v0.0 ACADVL Zornitza Stark gene: ACADVL was added
gene: ACADVL was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ACADVL was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ACADVL were set to VERY LONG CHAIN ACYL-COENZYME A DEHYDROGENASE DEFICIENCY
Fetal anomalies v0.0 ACAD9 Zornitza Stark gene: ACAD9 was added
gene: ACAD9 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ACAD9 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ACAD9 were set to 26475292
Phenotypes for gene: ACAD9 were set to ACYL-COA DEHYDROGENASE FAMILY MEMBER TYPE 9 DEFICIENCY
Fetal anomalies v0.0 ABHD5 Zornitza Stark gene: ABHD5 was added
gene: ABHD5 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ABHD5 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ABHD5 were set to CHANARIN-DORFMAN SYNDROME
Fetal anomalies v0.0 ABCC9 Zornitza Stark gene: ABCC9 was added
gene: ABCC9 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ABCC9 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: ABCC9 were set to CANTU SYNDROME HYPERTRICHOTIC OSTEOCHONDRODYSPLASIA
Fetal anomalies v0.0 ABCC6 Zornitza Stark gene: ABCC6 was added
gene: ABCC6 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ABCC6 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ABCC6 were set to ARTERIAL CALCIFICATION, GENERALIZED, OF INFANCY, 2
Fetal anomalies v0.0 ABCA12 Zornitza Stark gene: ABCA12 was added
gene: ABCA12 was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: ABCA12 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: ABCA12 were set to Ichthyosis, congenital, autosomal recessive 242500
Fetal anomalies v0.0 AAAS Zornitza Stark gene: AAAS was added
gene: AAAS was added to Fetal anomalies. Sources: Expert Review Green,Genomics England PanelApp
Mode of inheritance for gene: AAAS was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: AAAS were set to Triple-A syndrome, MONDO:0009279; Achalasia-addisonianism-alacrimia syndrome, OMIM:231550
Fetal anomalies v0.0 Zornitza Stark Added panel Fetal anomalies
Congenital nystagmus v0.23 CNGB3 Zornitza Stark Marked gene: CNGB3 as ready
Congenital nystagmus v0.23 CNGB3 Zornitza Stark Gene: cngb3 has been classified as Green List (High Evidence).
Congenital nystagmus v0.23 CNGB3 Zornitza Stark changed review comment from: Well established gene-disease association. The c.1148delC is a common founder variant in the Pingelapese.; to: Well established gene-disease association. The c.1148delC is a common founder variant in the Pingelapese. Nystagmus is a feature.
Congenital nystagmus v0.23 CNGA3 Zornitza Stark Marked gene: CNGA3 as ready
Congenital nystagmus v0.23 CNGA3 Zornitza Stark Gene: cnga3 has been classified as Green List (High Evidence).
Congenital nystagmus v0.23 CNGA3 Zornitza Stark changed review comment from: Well established gene-disease association, over 100 families reported.; to: Well established gene-disease association, over 100 families reported. Characterized by photophobia, reduced visual acuity, nystagmus, and the complete inability to discriminate between colours. Electroretinographic recordings show that in achromatopsia the rod photoreceptor function is normal, whereas cone photoreceptor responses are absent.
Congenital nystagmus v0.23 Zornitza Stark removed gene:CHM from the panel
Congenital nystagmus v0.22 CEP290 Zornitza Stark Marked gene: CEP290 as ready
Congenital nystagmus v0.22 CEP290 Zornitza Stark Gene: cep290 has been classified as Green List (High Evidence).
Congenital nystagmus v0.22 CEP290 Zornitza Stark Phenotypes for gene: CEP290 were changed from to Leber congenital amaurosis 10, MIM# 611755
Congenital nystagmus v0.21 CEP290 Zornitza Stark Publications for gene: CEP290 were set to
Congenital nystagmus v0.20 CEP290 Zornitza Stark Mode of inheritance for gene: CEP290 was changed from to BIALLELIC, autosomal or pseudoautosomal
Congenital nystagmus v0.19 CEP290 Zornitza Stark reviewed gene: CEP290: Rating: GREEN; Mode of pathogenicity: None; Publications: 16909394, 17554762, 33957996, 31734136; Phenotypes: Leber congenital amaurosis 10, MIM# 611755; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Congenital nystagmus v0.19 CASK Zornitza Stark Marked gene: CASK as ready
Congenital nystagmus v0.19 CASK Zornitza Stark Gene: cask has been classified as Green List (High Evidence).
Congenital nystagmus v0.19 CASK Zornitza Stark Phenotypes for gene: CASK were changed from Mental retardation, with or without nystagmus 300422; FG syndrome 4 300422; Mental retardation and microcephaly with pontine and cerebellar hypoplasia 300749 XLD to Mental retardation, with or without nystagmus, MIM# 300422
Congenital nystagmus v0.18 CASK Zornitza Stark Publications for gene: CASK were set to
Congenital nystagmus v0.17 CASK Zornitza Stark reviewed gene: CASK: Rating: GREEN; Mode of pathogenicity: None; Publications: 19377476; Phenotypes: Mental retardation, with or without nystagmus, MIM# 300422; Mode of inheritance: None
Congenital nystagmus v0.17 Zornitza Stark removed gene:CACNA2D4 from the panel
Congenital nystagmus v0.16 CACNA1F Zornitza Stark Marked gene: CACNA1F as ready
Congenital nystagmus v0.16 CACNA1F Zornitza Stark Gene: cacna1f has been classified as Green List (High Evidence).
Congenital nystagmus v0.16 CACNA1F Zornitza Stark Phenotypes for gene: CACNA1F were changed from Aland Island eye disease 300600 XL; Aland Island eye disease, 300600; Night blindness, congenital stationary (incomplete), 2A, X-linked, 300071; Cone-rod dystropy, X-linked, 3, 300476; Cone-rod dystrophy, X-linked, 3 300476 XLR; Night blindness, congenital stationary (incomplete), 2A, X-linked 300071 XL to Aland Island eye disease, MIM# 300600; Cone-rod dystrophy, X-linked, 3, MIM# 300476
Congenital nystagmus v0.15 CACNA1F Zornitza Stark Publications for gene: CACNA1F were set to
Congenital nystagmus v0.14 CACNA1F Zornitza Stark reviewed gene: CACNA1F: Rating: GREEN; Mode of pathogenicity: None; Publications: 17525176, 16505158, 23776498, 24124559; Phenotypes: Aland Island eye disease, MIM# 300600, Cone-rod dystrophy, X-linked, 3, MIM# 300476; Mode of inheritance: X-LINKED: hemizygous mutation in males, biallelic mutations in females
Congenital nystagmus v0.14 CACNA1A Zornitza Stark Marked gene: CACNA1A as ready
Congenital nystagmus v0.14 CACNA1A Zornitza Stark Gene: cacna1a has been classified as Green List (High Evidence).
Congenital nystagmus v0.14 CACNA1A Zornitza Stark Phenotypes for gene: CACNA1A were changed from Acetazolamide-Responsive Hereditary Paroxysmal Cerebellar Ataxia; CACNA1A-Related Episodic Ataxia Type 2; Episodic Ataxia Type 2 (EA2) Episodic Ataxia, Nystagmus-Associated to Developemental and epileptic encephalopathy 42, MIM# 617106; Episodic ataxia, type 2, MIM# 108500; Migraine, familial hemiplegic, 1, MIM# 141500; Migraine, familial hemiplegic, 1, with progressive cerebellar ataxia 141500; Spinocerebellar ataxia 6, MIM# 183086
Congenital nystagmus v0.13 CACNA1A Zornitza Stark reviewed gene: CACNA1A: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Developemental and epileptic encephalopathy 42, MIM# 617106, Episodic ataxia, type 2, MIM# 108500, Migraine, familial hemiplegic, 1, MIM# 141500, Migraine, familial hemiplegic, 1, with progressive cerebellar ataxia 141500, Spinocerebellar ataxia 6, MIM# 183086; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9452 CABP4 Zornitza Stark Marked gene: CABP4 as ready
Mendeliome v0.9452 CABP4 Zornitza Stark Gene: cabp4 has been classified as Green List (High Evidence).
Mendeliome v0.9452 CABP4 Zornitza Stark Phenotypes for gene: CABP4 were changed from to Cone-rod synaptic disorder, congenital nonprogressive, MIM# 610427
Mendeliome v0.9451 CABP4 Zornitza Stark Publications for gene: CABP4 were set to
Mendeliome v0.9450 CABP4 Zornitza Stark Mode of inheritance for gene: CABP4 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9449 CABP4 Zornitza Stark reviewed gene: CABP4: Rating: GREEN; Mode of pathogenicity: None; Publications: 16960802, 19074807, 20157620; Phenotypes: Cone-rod synaptic disorder, congenital nonprogressive, MIM# 610427; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Congenital nystagmus v0.13 CABP4 Zornitza Stark Marked gene: CABP4 as ready
Congenital nystagmus v0.13 CABP4 Zornitza Stark Gene: cabp4 has been classified as Green List (High Evidence).
Congenital nystagmus v0.13 CABP4 Zornitza Stark Phenotypes for gene: CABP4 were changed from Night blindness, congenital stationary (incomplete), 2B, autosomal recessive, 610427 to Cone-rod synaptic disorder, congenital nonprogressive, MIM# 610427
Congenital nystagmus v0.12 CABP4 Zornitza Stark Publications for gene: CABP4 were set to
Congenital nystagmus v0.11 CABP4 Zornitza Stark reviewed gene: CABP4: Rating: GREEN; Mode of pathogenicity: None; Publications: 16960802, 19074807, 20157620; Phenotypes: Cone-rod synaptic disorder, congenital nonprogressive, MIM# 610427; Mode of inheritance: None
Mendeliome v0.9449 ATF6 Zornitza Stark Marked gene: ATF6 as ready
Mendeliome v0.9449 ATF6 Zornitza Stark Gene: atf6 has been classified as Green List (High Evidence).
Mendeliome v0.9449 ATF6 Zornitza Stark Phenotypes for gene: ATF6 were changed from to Achromatopsia 7, MIM#616517
Mendeliome v0.9448 ATF6 Zornitza Stark Publications for gene: ATF6 were set to
Mendeliome v0.9447 ATF6 Zornitza Stark Mode of inheritance for gene: ATF6 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9446 ATF6 Zornitza Stark reviewed gene: ATF6: Rating: GREEN; Mode of pathogenicity: None; Publications: 26063662, 26029869; Phenotypes: Achromatopsia 7, MIM#616517; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Congenital nystagmus v0.11 ATF6 Zornitza Stark Marked gene: ATF6 as ready
Congenital nystagmus v0.11 ATF6 Zornitza Stark Gene: atf6 has been classified as Green List (High Evidence).
Congenital nystagmus v0.11 ATF6 Zornitza Stark reviewed gene: ATF6: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Achromatopsia 7, MIM#616517; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Congenital nystagmus v0.11 AP3B1 Zornitza Stark Marked gene: AP3B1 as ready
Congenital nystagmus v0.11 AP3B1 Zornitza Stark Gene: ap3b1 has been classified as Green List (High Evidence).
Congenital nystagmus v0.11 AP3B1 Zornitza Stark Phenotypes for gene: AP3B1 were changed from Hermansky-Pudlak syndrome 2 608233 AR to Hermansky-Pudlak syndrome 2, MIM# 608233; MONDO:0011997
Congenital nystagmus v0.10 AP3B1 Zornitza Stark Publications for gene: AP3B1 were set to
Congenital nystagmus v0.9 AP3B1 Zornitza Stark changed review comment from: Well established gene-disease association, oculo-cutaneous albinism and platelet defects.; to: Well established gene-disease association, oculo-cutaneous albinism and platelet defects. Nystagmus is a feature.
Skeletal dysplasia v0.126 Zornitza Stark removed gene:AIPL1 from the panel
Mendeliome v0.9446 AIPL1 Zornitza Stark Marked gene: AIPL1 as ready
Mendeliome v0.9446 AIPL1 Zornitza Stark Gene: aipl1 has been classified as Green List (High Evidence).
Mendeliome v0.9446 AIPL1 Zornitza Stark Phenotypes for gene: AIPL1 were changed from to Leber congenital amaurosis 4, 604393 Cone-rod dystrophy, 604393 Retinitis pigmentosa, juvenile, 604393
Mendeliome v0.9445 AIPL1 Zornitza Stark Publications for gene: AIPL1 were set to
Mendeliome v0.9444 AIPL1 Zornitza Stark Mode of inheritance for gene: AIPL1 was changed from Unknown to BOTH monoallelic and biallelic (but BIALLELIC mutations cause a more SEVERE disease form), autosomal or pseudoautosomal
Mendeliome v0.9443 AIPL1 Zornitza Stark reviewed gene: AIPL1: Rating: GREEN; Mode of pathogenicity: None; Publications: 10615133; Phenotypes: Leber congenital amaurosis 4, 604393 Cone-rod dystrophy, 604393 Retinitis pigmentosa, juvenile, 604393; Mode of inheritance: BOTH monoallelic and biallelic (but BIALLELIC mutations cause a more SEVERE disease form), autosomal or pseudoautosomal
Congenital nystagmus v0.9 AIPL1 Zornitza Stark Marked gene: AIPL1 as ready
Congenital nystagmus v0.9 AIPL1 Zornitza Stark Gene: aipl1 has been classified as Green List (High Evidence).
Congenital nystagmus v0.9 AIPL1 Zornitza Stark Phenotypes for gene: AIPL1 were changed from to Leber congenital amaurosis 4, MIM# 604393
Congenital nystagmus v0.8 AIPL1 Zornitza Stark Publications for gene: AIPL1 were set to
Congenital nystagmus v0.7 AIPL1 Zornitza Stark Mode of inheritance for gene: AIPL1 was changed from to BIALLELIC, autosomal or pseudoautosomal
Congenital nystagmus v0.6 AIPL1 Zornitza Stark reviewed gene: AIPL1: Rating: GREEN; Mode of pathogenicity: None; Publications: 10615133; Phenotypes: Leber congenital amaurosis 4, MIM# 604393; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Pseudohypoparathyroidism and Albright Hereditary Osteodystrophy v0.11 GNAS-AS1 Zornitza Stark Tag SV/CNV tag was added to gene: GNAS-AS1.
Mendeliome v0.9443 GNAS-AS1 Zornitza Stark Tag SV/CNV tag was added to gene: GNAS-AS1.
Mendeliome v0.9443 GNAS-AS1 Zornitza Stark Marked gene: GNAS-AS1 as ready
Mendeliome v0.9443 GNAS-AS1 Zornitza Stark Gene: gnas-as1 has been classified as Red List (Low Evidence).
Mendeliome v0.9443 GNAS-AS1 Zornitza Stark Phenotypes for gene: GNAS-AS1 were changed from to Pseudohypoparathyroidism type 1b MIM no: 603233
Mendeliome v0.9442 GNAS-AS1 Zornitza Stark Publications for gene: GNAS-AS1 were set to
Mendeliome v0.9441 GNAS-AS1 Zornitza Stark Mode of inheritance for gene: GNAS-AS1 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, maternally imprinted (paternal allele expressed)
Mendeliome v0.9440 GNAS-AS1 Zornitza Stark Classified gene: GNAS-AS1 as Red List (low evidence)
Mendeliome v0.9440 GNAS-AS1 Zornitza Stark Gene: gnas-as1 has been classified as Red List (Low Evidence).
Mendeliome v0.9439 GNAS-AS1 Zornitza Stark reviewed gene: GNAS-AS1: Rating: RED; Mode of pathogenicity: None; Publications: 22378814, 15592469, 29959430, 25005734; Phenotypes: Pseudohypoparathyroidism type 1b MIM no: 603233; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, maternally imprinted (paternal allele expressed)
Pseudohypoparathyroidism and Albright Hereditary Osteodystrophy v0.11 GNAS-AS1 Zornitza Stark Marked gene: GNAS-AS1 as ready
Pseudohypoparathyroidism and Albright Hereditary Osteodystrophy v0.11 GNAS-AS1 Zornitza Stark Gene: gnas-as1 has been classified as Red List (Low Evidence).
Pseudohypoparathyroidism and Albright Hereditary Osteodystrophy v0.11 GNAS-AS1 Zornitza Stark Phenotypes for gene: GNAS-AS1 were changed from to Pseudohypoparathyroidism type 1b MIM no: 603233
Pseudohypoparathyroidism and Albright Hereditary Osteodystrophy v0.10 GNAS-AS1 Zornitza Stark Publications for gene: GNAS-AS1 were set to
Pseudohypoparathyroidism and Albright Hereditary Osteodystrophy v0.9 GNAS-AS1 Zornitza Stark Mode of inheritance for gene: GNAS-AS1 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, maternally imprinted (paternal allele expressed)
Pseudohypoparathyroidism and Albright Hereditary Osteodystrophy v0.8 GNAS-AS1 Zornitza Stark Classified gene: GNAS-AS1 as Red List (low evidence)
Pseudohypoparathyroidism and Albright Hereditary Osteodystrophy v0.8 GNAS-AS1 Zornitza Stark Gene: gnas-as1 has been classified as Red List (Low Evidence).
Pseudohypoparathyroidism and Albright Hereditary Osteodystrophy v0.7 GNAS-AS1 Zornitza Stark reviewed gene: GNAS-AS1: Rating: RED; Mode of pathogenicity: None; Publications: 22378814, 15592469, 29959430, 25005734; Phenotypes: Pseudohypoparathyroidism type 1b MIM no: 603233; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, maternally imprinted (paternal allele expressed)
Imprinting disorders v1.3 GNAS-AS1 Zornitza Stark Marked gene: GNAS-AS1 as ready
Imprinting disorders v1.3 GNAS-AS1 Zornitza Stark Gene: gnas-as1 has been classified as Red List (Low Evidence).
Imprinting disorders v1.3 GNAS-AS1 Zornitza Stark Tag SV/CNV tag was added to gene: GNAS-AS1.
Imprinting disorders v1.3 GNAS-AS1 Zornitza Stark Classified gene: GNAS-AS1 as Red List (low evidence)
Imprinting disorders v1.3 GNAS-AS1 Zornitza Stark Gene: gnas-as1 has been classified as Red List (Low Evidence).
Mendeliome v0.9439 IFT74 Zornitza Stark Phenotypes for gene: IFT74 were changed from Bardet-Biedl syndrome 20, MIM# 617119; Joubert syndrome to Bardet-Biedl syndrome 20, MIM# 617119; Joubert syndrome; Spermatogenic failure 58, MIM# 619585
Mendeliome v0.9438 IFT74 Zornitza Stark Publications for gene: IFT74 were set to 27486776; 32144365; 33531668
Mendeliome v0.9437 IFT74 Zornitza Stark edited their review of gene: IFT74: Added comment: Limited evidence for association with spermatogenic failure: two unrelated individuals with same homozygous missense variant.; Changed publications: 27486776, 32144365, 33531668, 33689014; Changed phenotypes: Bardet-Biedl syndrome 20, MIM# 617119, Joubert syndrome, Spermatogenic failure 58, MIM# 619585
Interstitial Lung Disease v0.78 RSPH9 Zornitza Stark Marked gene: RSPH9 as ready
Interstitial Lung Disease v0.78 RSPH9 Zornitza Stark Gene: rsph9 has been classified as Green List (High Evidence).
Interstitial Lung Disease v0.78 RSPH9 Zornitza Stark Phenotypes for gene: RSPH9 were changed from to Ciliary dyskinesia, primary, 12 (MIM#612650)
Interstitial Lung Disease v0.77 RSPH9 Zornitza Stark Publications for gene: RSPH9 were set to
Interstitial Lung Disease v0.76 RSPH9 Zornitza Stark Mode of inheritance for gene: RSPH9 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Interstitial Lung Disease v0.75 RTEL1 Zornitza Stark Marked gene: RTEL1 as ready
Interstitial Lung Disease v0.75 RTEL1 Zornitza Stark Gene: rtel1 has been classified as Green List (High Evidence).
Interstitial Lung Disease v0.75 RTEL1 Zornitza Stark Phenotypes for gene: RTEL1 were changed from to Pulmonary fibrosis and/or bone marrow failure, telomere-related, 3, MIM# 616373
Interstitial Lung Disease v0.74 RTEL1 Zornitza Stark Publications for gene: RTEL1 were set to
Interstitial Lung Disease v0.73 RTEL1 Zornitza Stark Mode of inheritance for gene: RTEL1 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Interstitial Lung Disease v0.72 RTEL1 Zornitza Stark edited their review of gene: RTEL1: Changed mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Interstitial Lung Disease v0.72 RTEL1 Zornitza Stark changed review comment from: Well established gene-disease associations, multiple families for each MOI, mouse model.; to: Well established gene-disease association.
Interstitial Lung Disease v0.72 RTEL1 Zornitza Stark edited their review of gene: RTEL1: Changed publications: 25848748, 25607374, 23959892; Changed phenotypes: Pulmonary fibrosis and/or bone marrow failure, telomere-related, 3, MIM# 616373
Interstitial Lung Disease v0.72 SERPINA1 Zornitza Stark Marked gene: SERPINA1 as ready
Interstitial Lung Disease v0.72 SERPINA1 Zornitza Stark Gene: serpina1 has been classified as Green List (High Evidence).
Interstitial Lung Disease v0.72 SERPINA1 Zornitza Stark Phenotypes for gene: SERPINA1 were changed from to Emphysema due to AAT deficiency, MIM# 613490
Interstitial Lung Disease v0.71 SERPINA1 Zornitza Stark Mode of inheritance for gene: SERPINA1 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Interstitial Lung Disease v0.70 SERPINA1 Zornitza Stark reviewed gene: SERPINA1: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Emphysema due to AAT deficiency, MIM# 613490; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Imprinting disorders v1.2 GNAS-AS1 Anna Le Fevre changed review comment from: Single report of a AD-PHP-Ib kindred with a maternally inherited deletion limited to GNAS-AS1 (Chillambhi et al 2010). Further reports of maternally inherited deletions including regions of both GNAS-AS1 and exon NESP55.

Note, this non-coding RNA is paternally expressed, but causative deletions have been maternally inherited.

Reports of two AD-PHP-Ib kindreds with 4-kb microdeletions comprising the entire NESP55 DMR. These include exon NESP55 (GNAS encoded) and exons 3 and 4 of the GNAS antisense transcript. It remains unknown whether the observed imprinting changes and PTH resistance in these patients result from the loss of NESP55 expression or the loss of the deleted genomic region.

Chillambhi et al reported a AD-PHP-Ib kindred and identified a novel deletion that exclusively affects exons encoding the GNAS-AS. Overlapping with the previously identified deletions by approximately 1.5 kb. Unlike the previously identified deletions associated with AD-PHP-Ib, the novel deletion not only disrupts methylation of three GNAS DMRs (A/B, AS, and XL) after maternal transmission but also appears to partially alter methylation of the NESP55 and the A/B DMRs after paternal transmission, revealing a novel cis-acting mechanism that governs imprinting on both parental alleles.

Rezwan et al reported two further families with 33bp and 40bp deletions intronic to both NESP55 and NESP-AS. These were not definitively causative of the phenotype in the family.
Sources: Literature; to: Single report of a AD-PHP-Ib kindred with a maternally inherited deletion limited to GNAS-AS1 (Chillambhi et al 2010). Further reports of maternally inherited deletions including regions of both GNAS-AS1 and exon NESP55. Although deletions in this region appear to be causative of AD-PHP-Ib, evidence for deletions limited to only GNAS-AS1 is limited to date.

Note, this non-coding RNA is paternally expressed, but causative deletions have been maternally inherited.

Reports of two AD-PHP-Ib kindreds with 4-kb microdeletions comprising the entire NESP55 DMR. These include exon NESP55 (GNAS encoded) and exons 3 and 4 of the GNAS antisense transcript. It remains unknown whether the observed imprinting changes and PTH resistance in these patients result from the loss of NESP55 expression or the loss of the deleted genomic region.

Chillambhi et al reported a AD-PHP-Ib kindred and identified a novel deletion that exclusively affects exons encoding the GNAS-AS. Overlapping with the previously identified deletions by approximately 1.5 kb. Unlike the previously identified deletions associated with AD-PHP-Ib, the novel deletion not only disrupts methylation of three GNAS DMRs (A/B, AS, and XL) after maternal transmission but also appears to partially alter methylation of the NESP55 and the A/B DMRs after paternal transmission, revealing a novel cis-acting mechanism that governs imprinting on both parental alleles.

Rezwan et al reported two further families with 33bp and 40bp deletions intronic to both NESP55 and NESP-AS. These were not definitively causative of the phenotype in the family.
Sources: Literature
Imprinting disorders v1.2 GNAS-AS1 Anna Le Fevre gene: GNAS-AS1 was added
gene: GNAS-AS1 was added to Imprinting disorders. Sources: Literature
Mode of inheritance for gene: GNAS-AS1 was set to MONOALLELIC, autosomal or pseudoautosomal, maternally imprinted (paternal allele expressed)
Publications for gene: GNAS-AS1 were set to PMID: 22378814; 15592469; 29959430; 25005734
Phenotypes for gene: GNAS-AS1 were set to Pseudohypoparathyroidism type 1b MIM no: 603233
Review for gene: GNAS-AS1 was set to RED
Added comment: Single report of a AD-PHP-Ib kindred with a maternally inherited deletion limited to GNAS-AS1 (Chillambhi et al 2010). Further reports of maternally inherited deletions including regions of both GNAS-AS1 and exon NESP55.

Note, this non-coding RNA is paternally expressed, but causative deletions have been maternally inherited.

Reports of two AD-PHP-Ib kindreds with 4-kb microdeletions comprising the entire NESP55 DMR. These include exon NESP55 (GNAS encoded) and exons 3 and 4 of the GNAS antisense transcript. It remains unknown whether the observed imprinting changes and PTH resistance in these patients result from the loss of NESP55 expression or the loss of the deleted genomic region.

Chillambhi et al reported a AD-PHP-Ib kindred and identified a novel deletion that exclusively affects exons encoding the GNAS-AS. Overlapping with the previously identified deletions by approximately 1.5 kb. Unlike the previously identified deletions associated with AD-PHP-Ib, the novel deletion not only disrupts methylation of three GNAS DMRs (A/B, AS, and XL) after maternal transmission but also appears to partially alter methylation of the NESP55 and the A/B DMRs after paternal transmission, revealing a novel cis-acting mechanism that governs imprinting on both parental alleles.

Rezwan et al reported two further families with 33bp and 40bp deletions intronic to both NESP55 and NESP-AS. These were not definitively causative of the phenotype in the family.
Sources: Literature
Mendeliome v0.9437 SFTPC Zornitza Stark Marked gene: SFTPC as ready
Mendeliome v0.9437 SFTPC Zornitza Stark Gene: sftpc has been classified as Green List (High Evidence).
Mendeliome v0.9437 SFTPC Zornitza Stark Phenotypes for gene: SFTPC were changed from to Surfactant metabolism dysfunction, pulmonary, 2, MIM# 610913
Mendeliome v0.9436 SFTPC Zornitza Stark Publications for gene: SFTPC were set to
Mendeliome v0.9435 SFTPC Zornitza Stark Mode of inheritance for gene: SFTPC was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9434 SFTPC Zornitza Stark reviewed gene: SFTPC: Rating: GREEN; Mode of pathogenicity: None; Publications: 11207353, 11991887, 11893657, 15557112, 19443464; Phenotypes: Surfactant metabolism dysfunction, pulmonary, 2, MIM# 610913; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Interstitial Lung Disease v0.70 SFTPC Zornitza Stark Marked gene: SFTPC as ready
Interstitial Lung Disease v0.70 SFTPC Zornitza Stark Gene: sftpc has been classified as Green List (High Evidence).
Interstitial Lung Disease v0.70 SFTPC Zornitza Stark Phenotypes for gene: SFTPC were changed from to Surfactant metabolism dysfunction, pulmonary, 2, MIM# 610913
Interstitial Lung Disease v0.69 SFTPC Zornitza Stark Publications for gene: SFTPC were set to
Interstitial Lung Disease v0.68 SFTPC Zornitza Stark Mode of inheritance for gene: SFTPC was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Interstitial Lung Disease v0.67 SFTPC Zornitza Stark reviewed gene: SFTPC: Rating: GREEN; Mode of pathogenicity: None; Publications: 11207353, 11991887, 11893657, 15557112, 19443464; Phenotypes: Surfactant metabolism dysfunction, pulmonary, 2, MIM# 610913; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9434 SFTPB Zornitza Stark Marked gene: SFTPB as ready
Mendeliome v0.9434 SFTPB Zornitza Stark Gene: sftpb has been classified as Green List (High Evidence).
Mendeliome v0.9434 SFTPB Zornitza Stark Phenotypes for gene: SFTPB were changed from to Surfactant metabolism dysfunction, pulmonary, 1, MIM# 265120
Mendeliome v0.9433 SFTPB Zornitza Stark Publications for gene: SFTPB were set to
Mendeliome v0.9432 SFTPB Zornitza Stark Mode of inheritance for gene: SFTPB was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9431 SFTPB Zornitza Stark reviewed gene: SFTPB: Rating: GREEN; Mode of pathogenicity: None; Publications: 8163685, 8021783, 10378403, 10571948; Phenotypes: Surfactant metabolism dysfunction, pulmonary, 1, MIM# 265120; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Interstitial Lung Disease v0.67 SFTPB Zornitza Stark Marked gene: SFTPB as ready
Interstitial Lung Disease v0.67 SFTPB Zornitza Stark Gene: sftpb has been classified as Green List (High Evidence).
Interstitial Lung Disease v0.67 SFTPB Zornitza Stark Phenotypes for gene: SFTPB were changed from to Surfactant metabolism dysfunction, pulmonary, 1, MIM# 265120
Interstitial Lung Disease v0.66 SFTPB Zornitza Stark Publications for gene: SFTPB were set to
Interstitial Lung Disease v0.65 SFTPB Zornitza Stark Mode of inheritance for gene: SFTPB was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Interstitial Lung Disease v0.64 SFTPB Zornitza Stark reviewed gene: SFTPB: Rating: GREEN; Mode of pathogenicity: None; Publications: 8163685, 8021783, 10378403, 10571948; Phenotypes: Surfactant metabolism dysfunction, pulmonary, 1, MIM# 265120; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9431 SFTPA2 Zornitza Stark Marked gene: SFTPA2 as ready
Mendeliome v0.9431 SFTPA2 Zornitza Stark Gene: sftpa2 has been classified as Green List (High Evidence).
Mendeliome v0.9431 SFTPA2 Zornitza Stark Phenotypes for gene: SFTPA2 were changed from to Pulmonary fibrosis, idiopathic, MIM# 178500
Mendeliome v0.9430 SFTPA2 Zornitza Stark Publications for gene: SFTPA2 were set to
Mendeliome v0.9429 SFTPA2 Zornitza Stark Mode of inheritance for gene: SFTPA2 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9428 SFTPA2 Zornitza Stark reviewed gene: SFTPA2: Rating: GREEN; Mode of pathogenicity: None; Publications: 19100526, 32602668; Phenotypes: Pulmonary fibrosis, idiopathic, MIM# 178500; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Interstitial Lung Disease v0.64 SFTPA2 Zornitza Stark Marked gene: SFTPA2 as ready
Interstitial Lung Disease v0.64 SFTPA2 Zornitza Stark Gene: sftpa2 has been classified as Green List (High Evidence).
Interstitial Lung Disease v0.64 SFTPA2 Zornitza Stark Phenotypes for gene: SFTPA2 were changed from to Pulmonary fibrosis, idiopathic, MIM# 178500
Interstitial Lung Disease v0.63 SFTPA2 Zornitza Stark Publications for gene: SFTPA2 were set to
Interstitial Lung Disease v0.62 SFTPA2 Zornitza Stark Mode of inheritance for gene: SFTPA2 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Interstitial Lung Disease v0.61 SFTPA2 Zornitza Stark reviewed gene: SFTPA2: Rating: GREEN; Mode of pathogenicity: None; Publications: 19100526, 32602668; Phenotypes: Pulmonary fibrosis, idiopathic, MIM# 178500; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Interstitial Lung Disease v0.61 SFTPA1 Zornitza Stark Marked gene: SFTPA1 as ready
Interstitial Lung Disease v0.61 SFTPA1 Zornitza Stark Gene: sftpa1 has been classified as Amber List (Moderate Evidence).
Interstitial Lung Disease v0.61 SFTPA1 Zornitza Stark Phenotypes for gene: SFTPA1 were changed from to Idiopathic pulmonary fibrosis
Interstitial Lung Disease v0.60 SFTPA1 Zornitza Stark Publications for gene: SFTPA1 were set to
Interstitial Lung Disease v0.59 SFTPA1 Zornitza Stark Mode of inheritance for gene: SFTPA1 was changed from Unknown to BOTH monoallelic and biallelic (but BIALLELIC mutations cause a more SEVERE disease form), autosomal or pseudoautosomal
Interstitial Lung Disease v0.58 SFTPA1 Zornitza Stark Classified gene: SFTPA1 as Amber List (moderate evidence)
Interstitial Lung Disease v0.58 SFTPA1 Zornitza Stark Gene: sftpa1 has been classified as Amber List (Moderate Evidence).
Mendeliome v0.9428 SFTPD Zornitza Stark Marked gene: SFTPD as ready
Mendeliome v0.9428 SFTPD Zornitza Stark Gene: sftpd has been classified as Red List (Low Evidence).
Mendeliome v0.9428 SFTPD Zornitza Stark Phenotypes for gene: SFTPD were changed from to Interstitial lung disease
Mendeliome v0.9427 SFTPD Zornitza Stark Publications for gene: SFTPD were set to
Mendeliome v0.9426 SFTPD Zornitza Stark Classified gene: SFTPD as Red List (low evidence)
Mendeliome v0.9426 SFTPD Zornitza Stark Gene: sftpd has been classified as Red List (Low Evidence).
Mendeliome v0.9425 SFTPD Zornitza Stark reviewed gene: SFTPD: Rating: RED; Mode of pathogenicity: None; Publications: 9751757; Phenotypes: Interstitial lung disease; Mode of inheritance: None
Interstitial Lung Disease v0.57 SFTPD Zornitza Stark Marked gene: SFTPD as ready
Interstitial Lung Disease v0.57 SFTPD Zornitza Stark Gene: sftpd has been classified as Red List (Low Evidence).
Interstitial Lung Disease v0.57 SFTPD Zornitza Stark Phenotypes for gene: SFTPD were changed from to Interstitial lung disease
Interstitial Lung Disease v0.56 SFTPD Zornitza Stark Publications for gene: SFTPD were set to
Interstitial Lung Disease v0.55 SFTPD Zornitza Stark Classified gene: SFTPD as Red List (low evidence)
Interstitial Lung Disease v0.55 SFTPD Zornitza Stark Gene: sftpd has been classified as Red List (Low Evidence).
Interstitial Lung Disease v0.54 SFTPD Zornitza Stark reviewed gene: SFTPD: Rating: RED; Mode of pathogenicity: None; Publications: 9751757; Phenotypes: Interstitial lung disease; Mode of inheritance: None
Hyperammonaemia v0.2 SLC7A7 Zornitza Stark Marked gene: SLC7A7 as ready
Hyperammonaemia v0.2 SLC7A7 Zornitza Stark Gene: slc7a7 has been classified as Green List (High Evidence).
Hyperammonaemia v0.2 SLC7A7 Zornitza Stark Publications for gene: SLC7A7 were set to
Hyperammonaemia v0.1 SLC7A7 Zornitza Stark reviewed gene: SLC7A7: Rating: GREEN; Mode of pathogenicity: None; Publications: 10080182, 18716612; Phenotypes: Lysinuric protein intolerance, MIM# 222700; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Interstitial Lung Disease v0.54 SLC7A7 Zornitza Stark Marked gene: SLC7A7 as ready
Interstitial Lung Disease v0.54 SLC7A7 Zornitza Stark Gene: slc7a7 has been classified as Green List (High Evidence).
Interstitial Lung Disease v0.54 SLC7A7 Zornitza Stark Phenotypes for gene: SLC7A7 were changed from to Lysinuric protein intolerance, MIM# 222700
Interstitial Lung Disease v0.53 SLC7A7 Zornitza Stark Publications for gene: SLC7A7 were set to
Mendeliome v0.9425 SLC7A7 Zornitza Stark Marked gene: SLC7A7 as ready
Mendeliome v0.9425 SLC7A7 Zornitza Stark Gene: slc7a7 has been classified as Green List (High Evidence).
Mendeliome v0.9425 SLC7A7 Zornitza Stark Phenotypes for gene: SLC7A7 were changed from to Lysinuric protein intolerance, MIM# 222700
Mendeliome v0.9424 SLC7A7 Zornitza Stark Publications for gene: SLC7A7 were set to
Mendeliome v0.9423 SLC7A7 Zornitza Stark Mode of inheritance for gene: SLC7A7 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9422 SLC7A7 Zornitza Stark reviewed gene: SLC7A7: Rating: GREEN; Mode of pathogenicity: None; Publications: 10080182, 18716612; Phenotypes: Lysinuric protein intolerance, MIM# 222700; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Interstitial Lung Disease v0.52 SLC7A7 Zornitza Stark Mode of inheritance for gene: SLC7A7 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Interstitial Lung Disease v0.51 SLC7A7 Zornitza Stark reviewed gene: SLC7A7: Rating: GREEN; Mode of pathogenicity: None; Publications: 10080182, 18716612; Phenotypes: Lysinuric protein intolerance, MIM# 222700; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Interstitial Lung Disease v0.51 NME8 Zornitza Stark Marked gene: NME8 as ready
Interstitial Lung Disease v0.51 NME8 Zornitza Stark Gene: nme8 has been classified as Red List (Low Evidence).
Interstitial Lung Disease v0.51 NME8 Zornitza Stark Phenotypes for gene: NME8 were changed from to Ciliary dyskinesia, primary, 6 MIM#610852
Interstitial Lung Disease v0.50 NME8 Zornitza Stark Publications for gene: NME8 were set to
Interstitial Lung Disease v0.49 NME8 Zornitza Stark Mode of inheritance for gene: NME8 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Interstitial Lung Disease v0.48 NME8 Zornitza Stark Classified gene: NME8 as Red List (low evidence)
Interstitial Lung Disease v0.48 NME8 Zornitza Stark Gene: nme8 has been classified as Red List (Low Evidence).
Interstitial Lung Disease v0.47 SMAD9 Zornitza Stark Marked gene: SMAD9 as ready
Interstitial Lung Disease v0.47 SMAD9 Zornitza Stark Gene: smad9 has been classified as Green List (High Evidence).
Interstitial Lung Disease v0.47 SMAD9 Zornitza Stark Phenotypes for gene: SMAD9 were changed from to Pulmonary hypertension, primary, 2 MIM#615342
Interstitial Lung Disease v0.46 SMAD9 Zornitza Stark Publications for gene: SMAD9 were set to
Interstitial Lung Disease v0.45 SMAD9 Zornitza Stark Mode of inheritance for gene: SMAD9 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Muscular dystrophy and myopathy_Paediatric v0.94 JAG2 Zornitza Stark Phenotypes for gene: JAG2 were changed from muscular dystrophy to Muscular dystrophy, limb-girdle, autosomal recessive 27, MIM# 619566; muscular dystrophy
Muscular dystrophy and myopathy_Paediatric v0.93 JAG2 Zornitza Stark edited their review of gene: JAG2: Changed phenotypes: Muscular dystrophy, limb-girdle, autosomal recessive 27, MIM# 619566, muscular dystrophy
Mendeliome v0.9422 JAG2 Zornitza Stark Phenotypes for gene: JAG2 were changed from muscular dystrophy to Muscular dystrophy, limb-girdle, autosomal recessive 27, MIM# 619566; muscular dystrophy
Mendeliome v0.9421 JAG2 Zornitza Stark reviewed gene: JAG2: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Muscular dystrophy, limb-girdle, autosomal recessive 27, MIM# 619566; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9421 STX16 Zornitza Stark Marked gene: STX16 as ready
Mendeliome v0.9421 STX16 Zornitza Stark Gene: stx16 has been classified as Green List (High Evidence).
Mendeliome v0.9421 STX16 Zornitza Stark Phenotypes for gene: STX16 were changed from to Pseudohypoparathyroidism type 1b MIM#: 603233
Mendeliome v0.9420 STX16 Zornitza Stark Publications for gene: STX16 were set to
Mendeliome v0.9419 STX16 Zornitza Stark Mode of inheritance for gene: STX16 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, paternally imprinted (maternal allele expressed)
Mendeliome v0.9418 STX16 Zornitza Stark reviewed gene: STX16: Rating: GREEN; Mode of pathogenicity: None; Publications: 1456170, 15579741, 15800843, 33320452, 32337648, 33247854, 29959430; Phenotypes: Pseudohypoparathyroidism type 1b MIM no: 603233; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, paternally imprinted (maternal allele expressed)
Pseudohypoparathyroidism and Albright Hereditary Osteodystrophy v0.7 STX16 Zornitza Stark Marked gene: STX16 as ready
Pseudohypoparathyroidism and Albright Hereditary Osteodystrophy v0.7 STX16 Zornitza Stark Gene: stx16 has been classified as Green List (High Evidence).
Pseudohypoparathyroidism and Albright Hereditary Osteodystrophy v0.7 STX16 Zornitza Stark Phenotypes for gene: STX16 were changed from to Pseudohypoparathyroidism type 1b MIM#: 603233
Pseudohypoparathyroidism and Albright Hereditary Osteodystrophy v0.6 STX16 Zornitza Stark Publications for gene: STX16 were set to
Pseudohypoparathyroidism and Albright Hereditary Osteodystrophy v0.5 STX16 Zornitza Stark Mode of inheritance for gene: STX16 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, paternally imprinted (maternal allele expressed)
Pseudohypoparathyroidism and Albright Hereditary Osteodystrophy v0.4 STX16 Zornitza Stark Tag SV/CNV tag was added to gene: STX16.
Pseudohypoparathyroidism and Albright Hereditary Osteodystrophy v0.4 STX16 Zornitza Stark commented on gene: STX16: Multiple reports of a PHP-Ib phenotype.

Caused in most cases by a maternally inherited 3-kb, 4.4-kb or larger deletion involving STX16, which is associated with loss of methylation (LOM) at GNAS exon A/B DMR (also referred to as exon 1A or GNAS A/B:TSS-DMR).

Of PHP1B cases, 15–20% are familial, with an autosomal dominant mode of inheritance (AD-PHP1B) through the maternal lineage. In this familial form, the methylation defect is usually limited to loss of methylation at GNAS A/B:TSS-DMR, secondary to a 3 kb microdeletion on the maternal allele of cis-acting control elements within STX16. Other maternally inherited deletions and duplications have also been identified in some rare familial cases affecting either an isolated GNAS A/B:TSS-DMR or all four DMRs (Nature review, PMID 29959430)

STX16 is not clearly an imprinted gene, but only maternally inherited deletions are associated with this phenotype. Deletions in this gene are thought to disrupt cis-acting regulation of GNAS expression.
Pseudohypoparathyroidism and Albright Hereditary Osteodystrophy v0.4 STX16 Zornitza Stark reviewed gene: STX16: Rating: GREEN; Mode of pathogenicity: None; Publications: 1456170, 15579741, 15800843, 33320452, 32337648, 33247854, 29959430; Phenotypes: Pseudohypoparathyroidism type 1b MIM#: 603233; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, paternally imprinted (maternal allele expressed)
Calcium and Phosphate disorders v0.35 STX16 Zornitza Stark Mode of inheritance for gene: STX16 was changed from MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted to MONOALLELIC, autosomal or pseudoautosomal, paternally imprinted (maternal allele expressed)
Calcium and Phosphate disorders v0.34 STX16 Zornitza Stark edited their review of gene: STX16: Changed mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, paternally imprinted (maternal allele expressed)
Imprinting disorders v1.1 STX16 Zornitza Stark Marked gene: STX16 as ready
Imprinting disorders v1.1 STX16 Zornitza Stark Gene: stx16 has been classified as Green List (High Evidence).
Imprinting disorders v1.1 STX16 Zornitza Stark Classified gene: STX16 as Green List (high evidence)
Imprinting disorders v1.1 STX16 Zornitza Stark Gene: stx16 has been classified as Green List (High Evidence).
Imprinting disorders v1.0 STX16 Zornitza Stark Tag SV/CNV tag was added to gene: STX16.
Imprinting disorders v1.0 STX16 Anna Le Fevre gene: STX16 was added
gene: STX16 was added to Imprinting disorders. Sources: Literature
Mode of inheritance for gene: STX16 was set to MONOALLELIC, autosomal or pseudoautosomal, paternally imprinted (maternal allele expressed)
Publications for gene: STX16 were set to PMID: 1456170; 15579741; 15800843; 33320452; 32337648; 33247854; 29959430
Phenotypes for gene: STX16 were set to Pseudohypoparathyroidism type 1b MIM no: 603233
Review for gene: STX16 was set to GREEN
Added comment: Multiple reports of a PHP-Ib phenotype.

Caused in most cases by a maternally inherited 3-kb, 4.4-kb or larger deletion involving STX16, which is associated with loss of methylation (LOM) at GNAS exon A/B DMR (also referred to as exon 1A or GNAS A/B:TSS-DMR).

Of PHP1B cases, 15–20% are familial, with an autosomal dominant mode of inheritance (AD-PHP1B) through the maternal lineage. In this familial form, the methylation defect is usually limited to loss of methylation at GNAS A/B:TSS-DMR, secondary to a 3 kb microdeletion on the maternal allele of cis-acting control elements within STX16. Other maternally inherited deletions and duplications have also been identified in some rare familial cases affecting either an isolated GNAS A/B:TSS-DMR or all four DMRs (Nature review, PMID 29959430)

STX16 is not clearly an imprinted gene, but only maternally inherited deletions are associated with this phenotype. Deletions in this gene are thought to disrupt cis-acting regulation of GNAS expression.
Sources: Literature
Interstitial Lung Disease v0.44 STAT3 Zornitza Stark Marked gene: STAT3 as ready
Interstitial Lung Disease v0.44 STAT3 Zornitza Stark Gene: stat3 has been classified as Green List (High Evidence).
Interstitial Lung Disease v0.44 STAT3 Zornitza Stark Phenotypes for gene: STAT3 were changed from to Hyper-IgE recurrent infection syndrome MIM# 147060; Autoimmune disease, multisystem, infantile-onset, 1 MIM# 615952
Interstitial Lung Disease v0.43 STAT3 Zornitza Stark Publications for gene: STAT3 were set to
Interstitial Lung Disease v0.42 STAT3 Zornitza Stark Mode of inheritance for gene: STAT3 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Interstitial Lung Disease v0.41 STAT3 Zornitza Stark reviewed gene: STAT3: Rating: GREEN; Mode of pathogenicity: None; Publications: 17881745, 14566054, 25349174, 25038750, 25359994; Phenotypes: Hyper-IgE recurrent infection syndrome MIM# 147060, Autoimmune disease, multisystem, infantile-onset, 1 MIM# 615952; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Interstitial Lung Disease v0.41 STRA6 Zornitza Stark Marked gene: STRA6 as ready
Interstitial Lung Disease v0.41 STRA6 Zornitza Stark Gene: stra6 has been classified as Green List (High Evidence).
Interstitial Lung Disease v0.41 STRA6 Zornitza Stark Phenotypes for gene: STRA6 were changed from to Microphthalmia, syndromic 9, MIM# 601186
Interstitial Lung Disease v0.40 STRA6 Zornitza Stark Publications for gene: STRA6 were set to
Interstitial Lung Disease v0.39 STRA6 Zornitza Stark Mode of inheritance for gene: STRA6 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Interstitial Lung Disease v0.38 STRA6 Zornitza Stark reviewed gene: STRA6: Rating: GREEN; Mode of pathogenicity: None; Publications: 17273977, 17503335, 19213032, 26373900, 30880327, 26373900, 25457163; Phenotypes: Microphthalmia, syndromic 9, MIM# 601186; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Intellectual disability syndromic and non-syndromic v0.4218 TAOK1 Zornitza Stark Phenotypes for gene: TAOK1 were changed from Intellectual disability; hypotonia; macrocephaly to Developmental delay with or without intellectual impairment or behavioural abnormalities, MIM#619575; Intellectual disability; hypotonia; macrocephaly
Intellectual disability syndromic and non-syndromic v0.4217 TAOK1 Zornitza Stark reviewed gene: TAOK1: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Developmental delay with or without intellectual impairment or behavioural abnormalities, MIM#619575; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9418 TAOK1 Zornitza Stark Phenotypes for gene: TAOK1 were changed from TAOK1-related neurodevelopmental disorder to Developmental delay with or without intellectual impairment or behavioural abnormalities, MIM#619575; TAOK1-related neurodevelopmental disorder
Mendeliome v0.9417 TAOK1 Zornitza Stark edited their review of gene: TAOK1: Changed phenotypes: Developmental delay with or without intellectual impairment or behavioural abnormalities, MIM#619575, TAOK1-related neurodevelopmental disorder
Macrocephaly_Megalencephaly v0.89 TAOK1 Zornitza Stark Phenotypes for gene: TAOK1 were changed from Intellectual disability; macrocephaly to Developmental delay with or without intellectual impairment or behavioural abnormalities, MIM#619575; Intellectual disability; macrocephaly
Macrocephaly_Megalencephaly v0.88 TAOK1 Zornitza Stark reviewed gene: TAOK1: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Developmental delay with or without intellectual impairment or behavioural abnormalities, MIM#619575; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9417 STOX1 Zornitza Stark Marked gene: STOX1 as ready
Mendeliome v0.9417 STOX1 Zornitza Stark Gene: stox1 has been classified as Red List (Low Evidence).
Mendeliome v0.9417 STOX1 Zornitza Stark Phenotypes for gene: STOX1 were changed from to Preeclampsia/eclampsia 4 (MIM#609404)
Mendeliome v0.9416 STOX1 Zornitza Stark Publications for gene: STOX1 were set to
Mendeliome v0.9415 STOX1 Zornitza Stark Classified gene: STOX1 as Red List (low evidence)
Mendeliome v0.9415 STOX1 Zornitza Stark Gene: stox1 has been classified as Red List (Low Evidence).
Mendeliome v0.9414 CHRNA5 Zornitza Stark Marked gene: CHRNA5 as ready
Mendeliome v0.9414 CHRNA5 Zornitza Stark Gene: chrna5 has been classified as Red List (Low Evidence).
Mendeliome v0.9414 CHRNA5 Zornitza Stark Phenotypes for gene: CHRNA5 were changed from to Lung cancer susceptibility 2 (MIM#612052); Nicotine dependence, susceptibility to (MIM#612052)
Mendeliome v0.9413 CHRNA5 Zornitza Stark Classified gene: CHRNA5 as Red List (low evidence)
Mendeliome v0.9413 CHRNA5 Zornitza Stark Gene: chrna5 has been classified as Red List (Low Evidence).
Intellectual disability syndromic and non-syndromic v0.4217 KIAA0556 Zornitza Stark Marked gene: KIAA0556 as ready
Intellectual disability syndromic and non-syndromic v0.4217 KIAA0556 Zornitza Stark Gene: kiaa0556 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4217 KIAA0556 Zornitza Stark Classified gene: KIAA0556 as Green List (high evidence)
Intellectual disability syndromic and non-syndromic v0.4217 KIAA0556 Zornitza Stark Gene: kiaa0556 has been classified as Green List (High Evidence).
Mendeliome v0.9412 TBX4 Zornitza Stark edited their review of gene: TBX4: Changed publications: 31761294, 31965066; Changed phenotypes: Ischiocoxopodopatellar syndrome with or without pulmonary arterial hypertension MIM#147891, Amelia, posterior, with pelvic and pulmonary hypoplasia syndrome, MIM# 601360
Interstitial Lung Disease v0.38 TBX4 Zornitza Stark Marked gene: TBX4 as ready
Interstitial Lung Disease v0.38 TBX4 Zornitza Stark Gene: tbx4 has been classified as Green List (High Evidence).
Interstitial Lung Disease v0.38 TBX4 Zornitza Stark Phenotypes for gene: TBX4 were changed from to Ischiocoxopodopatellar syndrome with or without pulmonary arterial hypertension MIM#147891; Amelia, posterior, with pelvic and pulmonary hypoplasia syndrome, MIM# 601360
Interstitial Lung Disease v0.37 TBX4 Zornitza Stark Publications for gene: TBX4 were set to
Interstitial Lung Disease v0.36 TBX4 Zornitza Stark Mode of inheritance for gene: TBX4 was changed from Unknown to BOTH monoallelic and biallelic (but BIALLELIC mutations cause a more SEVERE disease form), autosomal or pseudoautosomal
Interstitial Lung Disease v0.35 TBX4 Zornitza Stark reviewed gene: TBX4: Rating: GREEN; Mode of pathogenicity: None; Publications: 31761294, 31965066; Phenotypes: Amelia, posterior, with pelvic and pulmonary hypoplasia syndrome, MIM# 601360; Mode of inheritance: BOTH monoallelic and biallelic (but BIALLELIC mutations cause a more SEVERE disease form), autosomal or pseudoautosomal
Interstitial Lung Disease v0.34 TCF21 Zornitza Stark Marked gene: TCF21 as ready
Interstitial Lung Disease v0.34 TCF21 Zornitza Stark Gene: tcf21 has been classified as Red List (Low Evidence).
Interstitial Lung Disease v0.34 TCF21 Zornitza Stark Phenotypes for gene: TCF21 were changed from to Interstitial lung disease
Interstitial Lung Disease v0.33 TCF21 Zornitza Stark Classified gene: TCF21 as Red List (low evidence)
Interstitial Lung Disease v0.33 TCF21 Zornitza Stark Gene: tcf21 has been classified as Red List (Low Evidence).
Interstitial Lung Disease v0.32 TERC Zornitza Stark Marked gene: TERC as ready
Interstitial Lung Disease v0.32 TERC Zornitza Stark Gene: terc has been classified as Green List (High Evidence).
Interstitial Lung Disease v0.32 TERC Zornitza Stark Phenotypes for gene: TERC were changed from to Dyskeratosis congenita, autosomal dominant 1, MIM# 127550
Interstitial Lung Disease v0.31 TERC Zornitza Stark Publications for gene: TERC were set to
Interstitial Lung Disease v0.30 TERC Zornitza Stark Mode of inheritance for gene: TERC was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Interstitial Lung Disease v0.29 TERC Zornitza Stark edited their review of gene: TERC: Changed publications: 34479523
Interstitial Lung Disease v0.29 TERC Zornitza Stark commented on gene: TERC: Interstitial lung disease is a feature.
Interstitial Lung Disease v0.29 TERT Zornitza Stark Marked gene: TERT as ready
Interstitial Lung Disease v0.29 TERT Zornitza Stark Gene: tert has been classified as Green List (High Evidence).
Interstitial Lung Disease v0.29 TERT Zornitza Stark Phenotypes for gene: TERT were changed from to Dyskeratosis congenita, MIM# 613989; Pulmonary fibrosis and/or bone marrow failure, telomere-related, 1, MIM# 614742
Interstitial Lung Disease v0.28 TERT Zornitza Stark Publications for gene: TERT were set to
Interstitial Lung Disease v0.27 TERT Zornitza Stark Mode of inheritance for gene: TERT was changed from Unknown to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Interstitial Lung Disease v0.26 TERT Zornitza Stark changed review comment from: Well established gene-disease association.; to: Well established gene-disease association, interstitial lung disease is a feature.
Interstitial Lung Disease v0.26 TINF2 Zornitza Stark Marked gene: TINF2 as ready
Interstitial Lung Disease v0.26 TINF2 Zornitza Stark Gene: tinf2 has been classified as Green List (High Evidence).
Interstitial Lung Disease v0.26 TINF2 Zornitza Stark Phenotypes for gene: TINF2 were changed from to Dyskeratosis congenita, autosomal dominant 3, MIM# 613990
Interstitial Lung Disease v0.25 TINF2 Zornitza Stark Publications for gene: TINF2 were set to
Interstitial Lung Disease v0.24 TINF2 Zornitza Stark Mode of inheritance for gene: TINF2 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Interstitial Lung Disease v0.23 TINF2 Zornitza Stark edited their review of gene: TINF2: Changed phenotypes: Dyskeratosis congenita, autosomal dominant 3, MIM# 613990
Interstitial Lung Disease v0.23 TINF2 Zornitza Stark changed review comment from: RS is a severe variant of DKC with early bone marrow failure and retinopathy.

Well established gene-disease associations.; to: Well established gene-disease association, interstitial lung disease is a feature.
Interstitial Lung Disease v0.22 ABCA3 Zornitza Stark Marked gene: ABCA3 as ready
Interstitial Lung Disease v0.22 ABCA3 Zornitza Stark Gene: abca3 has been classified as Green List (High Evidence).
Interstitial Lung Disease v0.22 ABCA3 Zornitza Stark Phenotypes for gene: ABCA3 were changed from to Surfactant metabolism dysfunction, pulmonary, 3, MIM# 610921
Interstitial Lung Disease v0.21 ABCA3 Zornitza Stark Publications for gene: ABCA3 were set to
Interstitial Lung Disease v0.20 ABCA3 Zornitza Stark Mode of inheritance for gene: ABCA3 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Interstitial Lung Disease v0.19 TMEM173 Zornitza Stark Marked gene: TMEM173 as ready
Interstitial Lung Disease v0.19 TMEM173 Zornitza Stark Gene: tmem173 has been classified as Green List (High Evidence).
Interstitial Lung Disease v0.19 TMEM173 Zornitza Stark Phenotypes for gene: TMEM173 were changed from to STING-associated vasculopathy, infantile-onset, MIM# 615934
Interstitial Lung Disease v0.18 TMEM173 Zornitza Stark Publications for gene: TMEM173 were set to
Interstitial Lung Disease v0.17 TMEM173 Zornitza Stark Mode of inheritance for gene: TMEM173 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Interstitial Lung Disease v0.16 TSC1 Zornitza Stark Marked gene: TSC1 as ready
Interstitial Lung Disease v0.16 TSC1 Zornitza Stark Gene: tsc1 has been classified as Green List (High Evidence).
Interstitial Lung Disease v0.16 TSC1 Zornitza Stark Phenotypes for gene: TSC1 were changed from to Tuberous sclerosis-1, MIM# 191100
Interstitial Lung Disease v0.15 TSC1 Zornitza Stark Mode of inheritance for gene: TSC1 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Interstitial Lung Disease v0.14 TSC1 Zornitza Stark reviewed gene: TSC1: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Tuberous sclerosis-1, MIM# 191100; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Interstitial Lung Disease v0.14 TSC2 Zornitza Stark Marked gene: TSC2 as ready
Interstitial Lung Disease v0.14 TSC2 Zornitza Stark Gene: tsc2 has been classified as Green List (High Evidence).
Interstitial Lung Disease v0.14 TSC2 Zornitza Stark Phenotypes for gene: TSC2 were changed from to Tuberous sclerosis-2, MIM# 613254
Interstitial Lung Disease v0.13 TSC2 Zornitza Stark Mode of inheritance for gene: TSC2 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Interstitial Lung Disease v0.12 TSC2 Zornitza Stark reviewed gene: TSC2: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Tuberous sclerosis-2, MIM# 613254; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Interstitial Lung Disease v0.12 TTF1 Zornitza Stark Marked gene: TTF1 as ready
Interstitial Lung Disease v0.12 TTF1 Zornitza Stark Gene: ttf1 has been classified as Red List (Low Evidence).
Interstitial Lung Disease v0.12 TTF1 Zornitza Stark Phenotypes for gene: TTF1 were changed from to Interstitial lung disease
Interstitial Lung Disease v0.11 TTF1 Zornitza Stark Publications for gene: TTF1 were set to
Interstitial Lung Disease v0.10 TTF1 Zornitza Stark Mode of inheritance for gene: TTF1 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Interstitial Lung Disease v0.9 TTF1 Zornitza Stark Classified gene: TTF1 as Red List (low evidence)
Interstitial Lung Disease v0.9 TTF1 Zornitza Stark Gene: ttf1 has been classified as Red List (Low Evidence).
Interstitial Lung Disease v0.8 TTF1 Zornitza Stark reviewed gene: TTF1: Rating: RED; Mode of pathogenicity: None; Publications: 20203240; Phenotypes: Interstitial lung disease; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Genetic Epilepsy v0.1365 ZNHIT3 Zornitza Stark Marked gene: ZNHIT3 as ready
Genetic Epilepsy v0.1365 ZNHIT3 Zornitza Stark Gene: znhit3 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1365 ZNHIT3 Zornitza Stark Classified gene: ZNHIT3 as Green List (high evidence)
Genetic Epilepsy v0.1365 ZNHIT3 Zornitza Stark Gene: znhit3 has been classified as Green List (High Evidence).
Optic Atrophy v1.3 ZNHIT3 Zornitza Stark Marked gene: ZNHIT3 as ready
Optic Atrophy v1.3 ZNHIT3 Zornitza Stark Gene: znhit3 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1364 ZNHIT3 Zornitza Stark gene: ZNHIT3 was added
gene: ZNHIT3 was added to Genetic Epilepsy. Sources: Expert Review
founder tags were added to gene: ZNHIT3.
Mode of inheritance for gene: ZNHIT3 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ZNHIT3 were set to 28335020; 28335020; 31048081
Phenotypes for gene: ZNHIT3 were set to PEHO syndrome, MIM# 260565
Review for gene: ZNHIT3 was set to GREEN
Added comment: PEHO is a severe autosomal recessive neurodevelopmental disorder characterized by extreme cerebellar atrophy due to almost total loss of granule neurons. Affected individuals present in early infancy with hypotonia, profoundly delayed psychomotor development, optic atrophy, progressive atrophy of the cerebellum and brainstem, and dysmyelination. Most patients also develop infantile seizures that are often associated with hypsarrhythmia on EEG, and many have peripheral oedema. More than 20 affected individuals reported of Finnish origin, p.Ser31Leu is a founder variant. One compound het reported and supportive animal model.
Sources: Expert Review
Optic Atrophy v1.3 ZNHIT3 Zornitza Stark Classified gene: ZNHIT3 as Green List (high evidence)
Optic Atrophy v1.3 ZNHIT3 Zornitza Stark Gene: znhit3 has been classified as Green List (High Evidence).
Optic Atrophy v1.2 ZNHIT3 Zornitza Stark gene: ZNHIT3 was added
gene: ZNHIT3 was added to Optic Atrophy. Sources: Literature
founder tags were added to gene: ZNHIT3.
Mode of inheritance for gene: ZNHIT3 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ZNHIT3 were set to 28335020; 28335020; 31048081
Phenotypes for gene: ZNHIT3 were set to PEHO syndrome, MIM# 260565
Review for gene: ZNHIT3 was set to GREEN
Added comment: PEHO is a severe autosomal recessive neurodevelopmental disorder characterized by extreme cerebellar atrophy due to almost total loss of granule neurons. Affected individuals present in early infancy with hypotonia, profoundly delayed psychomotor development, optic atrophy, progressive atrophy of the cerebellum and brainstem, and dysmyelination. Most patients also develop infantile seizures that are often associated with hypsarrhythmia on EEG, and many have peripheral oedema. More than 20 affected individuals reported of Finnish origin, p.Ser31Leu is a founder variant. One compound het reported and supportive animal model.
Sources: Literature
Microcephaly v1.64 ZNHIT3 Zornitza Stark Marked gene: ZNHIT3 as ready
Microcephaly v1.64 ZNHIT3 Zornitza Stark Gene: znhit3 has been classified as Green List (High Evidence).
Microcephaly v1.64 ZNHIT3 Zornitza Stark Classified gene: ZNHIT3 as Green List (high evidence)
Microcephaly v1.64 ZNHIT3 Zornitza Stark Gene: znhit3 has been classified as Green List (High Evidence).
Microcephaly v1.63 ZNHIT3 Zornitza Stark gene: ZNHIT3 was added
gene: ZNHIT3 was added to Microcephaly. Sources: Expert Review
founder tags were added to gene: ZNHIT3.
Mode of inheritance for gene: ZNHIT3 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ZNHIT3 were set to 28335020; 28335020; 31048081
Phenotypes for gene: ZNHIT3 were set to PEHO syndrome, MIM# 260565
Review for gene: ZNHIT3 was set to GREEN
Added comment: PEHO is a severe autosomal recessive neurodevelopmental disorder characterized by extreme cerebellar atrophy due to almost total loss of granule neurons. Affected individuals present in early infancy with hypotonia, profoundly delayed psychomotor development, optic atrophy, progressive atrophy of the cerebellum and brainstem, and dysmyelination. Most patients also develop infantile seizures that are often associated with hypsarrhythmia on EEG, and many have peripheral oedema. More than 20 affected individuals reported of Finnish origin, p.Ser31Leu is a founder variant. One compound het reported and supportive animal model.
Sources: Expert Review
Intellectual disability syndromic and non-syndromic v0.4216 ZNHIT3 Zornitza Stark Tag founder tag was added to gene: ZNHIT3.
Intellectual disability syndromic and non-syndromic v0.4216 ZNHIT3 Zornitza Stark Classified gene: ZNHIT3 as Green List (high evidence)
Intellectual disability syndromic and non-syndromic v0.4216 ZNHIT3 Zornitza Stark Gene: znhit3 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4215 ZNHIT3 Zornitza Stark Classified gene: ZNHIT3 as Green List (high evidence)
Intellectual disability syndromic and non-syndromic v0.4215 ZNHIT3 Zornitza Stark Gene: znhit3 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4214 ZNHIT3 Zornitza Stark Marked gene: ZNHIT3 as ready
Intellectual disability syndromic and non-syndromic v0.4214 ZNHIT3 Zornitza Stark Gene: znhit3 has been classified as Red List (Low Evidence).
Intellectual disability syndromic and non-syndromic v0.4214 ZNHIT3 Zornitza Stark gene: ZNHIT3 was added
gene: ZNHIT3 was added to Intellectual disability syndromic and non-syndromic. Sources: Literature
Mode of inheritance for gene: ZNHIT3 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ZNHIT3 were set to 28335020; 28335020; 31048081
Phenotypes for gene: ZNHIT3 were set to PEHO syndrome, MIM# 260565
Review for gene: ZNHIT3 was set to GREEN
Added comment: PEHO is a severe autosomal recessive neurodevelopmental disorder characterized by extreme cerebellar atrophy due to almost total loss of granule neurons. Affected individuals present in early infancy with hypotonia, profoundly delayed psychomotor development, optic atrophy, progressive atrophy of the cerebellum and brainstem, and dysmyelination. Most patients also develop infantile seizures that are often associated with hypsarrhythmia on EEG, and many have peripheral oedema. More than 20 affected individuals reported of Finnish origin, p.Ser31Leu is a founder variant. One compound het reported and supportive animal model.
Sources: Literature
Mendeliome v0.9412 ZNHIT3 Zornitza Stark Marked gene: ZNHIT3 as ready
Mendeliome v0.9412 ZNHIT3 Zornitza Stark Gene: znhit3 has been classified as Green List (High Evidence).
Mendeliome v0.9412 ZNHIT3 Zornitza Stark Phenotypes for gene: ZNHIT3 were changed from to PEHO syndrome, MIM# 260565
Mendeliome v0.9411 ZNHIT3 Zornitza Stark Publications for gene: ZNHIT3 were set to
Mendeliome v0.9410 ZNHIT3 Zornitza Stark Mode of inheritance for gene: ZNHIT3 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9409 ZNHIT3 Zornitza Stark Tag founder tag was added to gene: ZNHIT3.
Mendeliome v0.9409 ZNHIT3 Zornitza Stark reviewed gene: ZNHIT3: Rating: GREEN; Mode of pathogenicity: None; Publications: 28335020, 28335020, 31048081; Phenotypes: PEHO syndrome, MIM# 260565; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Interstitial Lung Disease v0.8 ZNHIT3 Zornitza Stark Marked gene: ZNHIT3 as ready
Interstitial Lung Disease v0.8 ZNHIT3 Zornitza Stark Gene: znhit3 has been classified as Red List (Low Evidence).
Interstitial Lung Disease v0.8 ZNHIT3 Zornitza Stark Phenotypes for gene: ZNHIT3 were changed from to PEHO syndrome, MIM# 260565
Interstitial Lung Disease v0.7 ZNHIT3 Zornitza Stark Mode of inheritance for gene: ZNHIT3 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Interstitial Lung Disease v0.6 ZNHIT3 Zornitza Stark Classified gene: ZNHIT3 as Red List (low evidence)
Interstitial Lung Disease v0.6 ZNHIT3 Zornitza Stark Gene: znhit3 has been classified as Red List (Low Evidence).
Interstitial Lung Disease v0.5 ZNHIT3 Zornitza Stark reviewed gene: ZNHIT3: Rating: RED; Mode of pathogenicity: None; Publications: ; Phenotypes: PEHO syndrome, MIM# 260565; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Callosome v0.328 HCFC1 Zornitza Stark Mode of inheritance for gene: HCFC1 was changed from BIALLELIC, autosomal or pseudoautosomal to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Callosome v0.327 HCFC1 Zornitza Stark edited their review of gene: HCFC1: Changed mode of inheritance: X-LINKED: hemizygous mutation in males, biallelic mutations in females
Mendeliome v0.9409 ADGRG1 Zornitza Stark Marked gene: ADGRG1 as ready
Mendeliome v0.9409 ADGRG1 Zornitza Stark Gene: adgrg1 has been classified as Green List (High Evidence).
Polymicrogyria and Schizencephaly v0.164 ADGRG1 Zornitza Stark Tag 5'UTR tag was added to gene: ADGRG1.
Polymicrogyria and Schizencephaly v0.164 ADGRG1 Zornitza Stark changed review comment from: 12 families reported in the original paper.; to: 12 families reported in the original paper.

Note promoter deletion is common.
Mendeliome v0.9409 ADGRG1 Zornitza Stark Phenotypes for gene: ADGRG1 were changed from to Polymicrogyria, bilateral frontoparietal, MIM#606854
Mendeliome v0.9408 ADGRG1 Zornitza Stark Publications for gene: ADGRG1 were set to
Genetic Epilepsy v0.1363 ADGRG1 Zornitza Stark changed review comment from: 12 families reported in the original paper. ID and seizures are common features.; to: 12 families reported in the original paper. ID and seizures are common features.

Note promoter deletion is common.
Genetic Epilepsy v0.1363 ADGRG1 Zornitza Stark Tag 5'UTR tag was added to gene: ADGRG1.
Mendeliome v0.9407 ADGRG1 Zornitza Stark Mode of inheritance for gene: ADGRG1 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9406 ADGRG1 Zornitza Stark Tag 5'UTR tag was added to gene: ADGRG1.
Mendeliome v0.9406 ADGRG1 Zornitza Stark reviewed gene: ADGRG1: Rating: GREEN; Mode of pathogenicity: None; Publications: 16240336, 33299078; Phenotypes: Polymicrogyria, bilateral frontoparietal, MIM#606854; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Genetic Epilepsy v0.1363 ADGRG1 Zornitza Stark Marked gene: ADGRG1 as ready
Genetic Epilepsy v0.1363 ADGRG1 Zornitza Stark Gene: adgrg1 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1363 ADGRG1 Zornitza Stark Phenotypes for gene: ADGRG1 were changed from to Polymicrogyria, bilateral frontoparietal, MIM#606854
Genetic Epilepsy v0.1362 ADGRG1 Zornitza Stark Publications for gene: ADGRG1 were set to
Genetic Epilepsy v0.1361 ADGRG1 Zornitza Stark Mode of inheritance for gene: ADGRG1 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Genetic Epilepsy v0.1360 ADGRG1 Zornitza Stark reviewed gene: ADGRG1: Rating: GREEN; Mode of pathogenicity: None; Publications: 16240336, 33299078; Phenotypes: Polymicrogyria, bilateral frontoparietal, MIM#606854; Mode of inheritance: None
Intellectual disability syndromic and non-syndromic v0.4213 KIAA0556 Paul De Fazio gene: KIAA0556 was added
gene: KIAA0556 was added to Intellectual disability syndromic and non-syndromic. Sources: Literature
Mode of inheritance for gene: KIAA0556 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: KIAA0556 were set to 26714646; 27245168
Phenotypes for gene: KIAA0556 were set to Joubert syndrome 26, MIM# 616784
Review for gene: KIAA0556 was set to GREEN
gene: KIAA0556 was marked as current diagnostic
Added comment: 5 individuals from two families reported, supportive mouse model. Individuals were reported to have (global) developmental delay.

New HGNC approved name is KATNIP.
Sources: Literature
Mendeliome v0.9406 CHRNA5 Paul De Fazio reviewed gene: CHRNA5: Rating: RED; Mode of pathogenicity: None; Publications: 20643934, 18385676; Phenotypes: Lung cancer susceptibility 2 (MIM#612052), Nicotine dependence, susceptibility to (MIM#612052); Mode of inheritance: Unknown; Current diagnostic: yes
Mendeliome v0.9406 STOX1 Paul De Fazio reviewed gene: STOX1: Rating: RED; Mode of pathogenicity: None; Publications: 15806103, 17290274, 30548667, 33301424; Phenotypes: Preeclampsia/eclampsia 4 (MIM#609404); Mode of inheritance: Unknown; Current diagnostic: yes
Genetic Epilepsy v0.1360 GATAD2B Zornitza Stark Marked gene: GATAD2B as ready
Genetic Epilepsy v0.1360 GATAD2B Zornitza Stark Gene: gatad2b has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1360 GATAD2B Zornitza Stark Classified gene: GATAD2B as Amber List (moderate evidence)
Genetic Epilepsy v0.1360 GATAD2B Zornitza Stark Gene: gatad2b has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1359 GATAD2B Zornitza Stark gene: GATAD2B was added
gene: GATAD2B was added to Genetic Epilepsy. Sources: Expert Review
Mode of inheritance for gene: GATAD2B was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: GATAD2B were set to 32688057
Phenotypes for gene: GATAD2B were set to Mental retardation, autosomal dominant 18, OMIM # 615074
Review for gene: GATAD2B was set to AMBER
Added comment: More than 70 patients reported: - loss-of-function and missense variants - clinical features of hypotonia, intellectual disability, strabismus, cardiac defects, characteristic facies, childhood apraxia of speech, and macrocephaly.

Seizures are a rare feature.
Sources: Expert Review
Intellectual disability syndromic and non-syndromic v0.4213 FGF12 Zornitza Stark Marked gene: FGF12 as ready
Intellectual disability syndromic and non-syndromic v0.4213 FGF12 Zornitza Stark Gene: fgf12 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4213 FGF12 Zornitza Stark Phenotypes for gene: FGF12 were changed from to Developmental and epileptic encephalopathy 47, MIM# 617166
Intellectual disability syndromic and non-syndromic v0.4212 FGF12 Zornitza Stark Publications for gene: FGF12 were set to
Intellectual disability syndromic and non-syndromic v0.4211 FGF12 Zornitza Stark Mode of inheritance for gene: FGF12 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Intellectual disability syndromic and non-syndromic v0.4210 FGF12 Zornitza Stark reviewed gene: FGF12: Rating: GREEN; Mode of pathogenicity: None; Publications: 32645220, 27164707, 27830185, 27872899; Phenotypes: Developmental and epileptic encephalopathy 47, MIM# 617166; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9406 FGF12 Zornitza Stark Marked gene: FGF12 as ready
Mendeliome v0.9406 FGF12 Zornitza Stark Gene: fgf12 has been classified as Green List (High Evidence).
Mendeliome v0.9406 FGF12 Zornitza Stark Phenotypes for gene: FGF12 were changed from to Developmental and epileptic encephalopathy 47, MIM# 617166
Mendeliome v0.9405 FGF12 Zornitza Stark Publications for gene: FGF12 were set to
Mendeliome v0.9404 FGF12 Zornitza Stark Mode of inheritance for gene: FGF12 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9403 FGF12 Zornitza Stark reviewed gene: FGF12: Rating: GREEN; Mode of pathogenicity: None; Publications: 32645220, 27164707, 27830185, 27872899; Phenotypes: Developmental and epileptic encephalopathy 47, MIM# 617166; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Genetic Epilepsy v0.1358 FGF12 Zornitza Stark Marked gene: FGF12 as ready
Genetic Epilepsy v0.1358 FGF12 Zornitza Stark Gene: fgf12 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1358 FGF12 Zornitza Stark Phenotypes for gene: FGF12 were changed from to Developmental and epileptic encephalopathy 47, MIM# 617166
Genetic Epilepsy v0.1357 FGF12 Zornitza Stark Publications for gene: FGF12 were set to
Genetic Epilepsy v0.1356 FGF12 Zornitza Stark Mode of inheritance for gene: FGF12 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Genetic Epilepsy v0.1355 FGF12 Zornitza Stark reviewed gene: FGF12: Rating: GREEN; Mode of pathogenicity: None; Publications: 32645220, 27164707, 27830185, 27872899; Phenotypes: Developmental and epileptic encephalopathy 47, MIM# 617166; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Genetic Epilepsy v0.1355 KIF5A Zornitza Stark Marked gene: KIF5A as ready
Genetic Epilepsy v0.1355 KIF5A Zornitza Stark Gene: kif5a has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1355 KIF5A Zornitza Stark Classified gene: KIF5A as Green List (high evidence)
Genetic Epilepsy v0.1355 KIF5A Zornitza Stark Gene: kif5a has been classified as Green List (High Evidence).
Mendeliome v0.9403 KCNAB3 Zornitza Stark Marked gene: KCNAB3 as ready
Mendeliome v0.9403 KCNAB3 Zornitza Stark Gene: kcnab3 has been classified as Red List (Low Evidence).
Mendeliome v0.9403 KCNAB3 Zornitza Stark Classified gene: KCNAB3 as Red List (low evidence)
Mendeliome v0.9403 KCNAB3 Zornitza Stark Gene: kcnab3 has been classified as Red List (Low Evidence).
Mendeliome v0.9402 TBK1 Zornitza Stark Marked gene: TBK1 as ready
Mendeliome v0.9402 TBK1 Zornitza Stark Gene: tbk1 has been classified as Green List (High Evidence).
Mendeliome v0.9402 TBK1 Zornitza Stark Phenotypes for gene: TBK1 were changed from to Frontotemporal dementia and/or amyotrophic lateral sclerosis 4, MIM# 616439
Mendeliome v0.9401 TBK1 Zornitza Stark Publications for gene: TBK1 were set to
Mendeliome v0.9400 TBK1 Zornitza Stark Mode of inheritance for gene: TBK1 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Intellectual disability syndromic and non-syndromic v0.4210 KCTD13 Zornitza Stark Mode of inheritance for gene: KCTD13 was changed from Unknown to Unknown
Congenital Disorders of Glycosylation v1.20 OSTC Zornitza Stark Marked gene: OSTC as ready
Congenital Disorders of Glycosylation v1.20 OSTC Zornitza Stark Gene: ostc has been classified as Red List (Low Evidence).
Congenital Disorders of Glycosylation v1.20 OSTC Zornitza Stark Classified gene: OSTC as Red List (low evidence)
Congenital Disorders of Glycosylation v1.20 OSTC Zornitza Stark Gene: ostc has been classified as Red List (Low Evidence).
Mendeliome v0.9399 OSTC Zornitza Stark Marked gene: OSTC as ready
Mendeliome v0.9399 OSTC Zornitza Stark Gene: ostc has been classified as Red List (Low Evidence).
Mendeliome v0.9399 OSTC Zornitza Stark Classified gene: OSTC as Red List (low evidence)
Mendeliome v0.9399 OSTC Zornitza Stark Gene: ostc has been classified as Red List (Low Evidence).
Mendeliome v0.9398 KCNC2 Zornitza Stark Marked gene: KCNC2 as ready
Mendeliome v0.9398 KCNC2 Zornitza Stark Gene: kcnc2 has been classified as Amber List (Moderate Evidence).
Mendeliome v0.9398 KCNC2 Zornitza Stark Publications for gene: KCNC2 were set to PMID:32392612; 31972370
Mendeliome v0.9397 KCNC2 Zornitza Stark Classified gene: KCNC2 as Amber List (moderate evidence)
Mendeliome v0.9397 KCNC2 Zornitza Stark Gene: kcnc2 has been classified as Amber List (Moderate Evidence).
Mendeliome v0.9396 KCTD13 Zornitza Stark Marked gene: KCTD13 as ready
Mendeliome v0.9396 KCTD13 Zornitza Stark Gene: kctd13 has been classified as Red List (Low Evidence).
Mendeliome v0.9396 KCTD13 Zornitza Stark Phenotypes for gene: KCTD13 were changed from to Intellectual disability; seizures
Intellectual disability syndromic and non-syndromic v0.4209 KCTD13 Zornitza Stark Mode of inheritance for gene: KCTD13 was changed from MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted to Unknown
Mendeliome v0.9395 KCTD13 Zornitza Stark Publications for gene: KCTD13 were set to PMID: 33409479
Intellectual disability syndromic and non-syndromic v0.4208 KCTD13 Zornitza Stark edited their review of gene: KCTD13: Changed mode of inheritance: Unknown
Mendeliome v0.9394 KCTD13 Zornitza Stark Mode of inheritance for gene: KCTD13 was changed from BIALLELIC, autosomal or pseudoautosomal to Unknown
Mendeliome v0.9393 KCTD13 Zornitza Stark Classified gene: KCTD13 as Red List (low evidence)
Mendeliome v0.9393 KCTD13 Zornitza Stark Gene: kctd13 has been classified as Red List (Low Evidence).
Mendeliome v0.9392 KCTD13 Zornitza Stark reviewed gene: KCTD13: Rating: RED; Mode of pathogenicity: None; Publications: 22596160, 29088697; Phenotypes: Intellectual disability; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Genetic Epilepsy v0.1354 MED27 Zornitza Stark Marked gene: MED27 as ready
Genetic Epilepsy v0.1354 MED27 Zornitza Stark Gene: med27 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1354 KPNA7 Zornitza Stark Marked gene: KPNA7 as ready
Genetic Epilepsy v0.1354 KPNA7 Zornitza Stark Gene: kpna7 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1354 KPNA7 Zornitza Stark Classified gene: KPNA7 as Red List (low evidence)
Genetic Epilepsy v0.1354 KPNA7 Zornitza Stark Gene: kpna7 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1353 KPNA7 Ain Roesley gene: KPNA7 was added
gene: KPNA7 was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: KPNA7 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: KPNA7 were set to 24045845; 32179771
Phenotypes for gene: KPNA7 were set to severe neurodevelopmental defects; epilepsy
Penetrance for gene: KPNA7 were set to unknown
Review for gene: KPNA7 was set to RED
gene: KPNA7 was marked as current diagnostic
Added comment: 1 fam with 2 siblings. Functional showed disruptions to CTCF binding
Sources: Literature
Genetic Epilepsy v0.1353 KMT2D Zornitza Stark Marked gene: KMT2D as ready
Genetic Epilepsy v0.1353 KMT2D Zornitza Stark Gene: kmt2d has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1353 KMT2D Zornitza Stark Publications for gene: KMT2D were set to 33552639; 28404210; 27922244
Genetic Epilepsy v0.1352 KMT2D Zornitza Stark Classified gene: KMT2D as Green List (high evidence)
Genetic Epilepsy v0.1352 KMT2D Zornitza Stark Gene: kmt2d has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1351 KMT2D Zornitza Stark reviewed gene: KMT2D: Rating: GREEN; Mode of pathogenicity: None; Publications: 21882399; Phenotypes: Kabuki syndrome 1 MIM#147920; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Genetic Epilepsy v0.1351 MED27 Zornitza Stark Classified gene: MED27 as Green List (high evidence)
Genetic Epilepsy v0.1351 MED27 Zornitza Stark Gene: med27 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1350 MED13L Zornitza Stark Marked gene: MED13L as ready
Genetic Epilepsy v0.1350 MED13L Zornitza Stark Gene: med13l has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1350 MAP1B Zornitza Stark Marked gene: MAP1B as ready
Genetic Epilepsy v0.1350 MAP1B Zornitza Stark Gene: map1b has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1350 MAP1B Zornitza Stark Phenotypes for gene: MAP1B were changed from febrile, fever-triggered and afebrile seizures to Intellectual disability; seizures; PVNH; dysmorphic features; Periventricular nodular heterotopia 9, MIM# 618918
Genetic Epilepsy v0.1350 MED13L Zornitza Stark Classified gene: MED13L as Green List (high evidence)
Genetic Epilepsy v0.1350 MED13L Zornitza Stark Gene: med13l has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1349 MAP1B Zornitza Stark Classified gene: MAP1B as Green List (high evidence)
Genetic Epilepsy v0.1349 MAP1B Zornitza Stark Gene: map1b has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1348 LIG3 Zornitza Stark Marked gene: LIG3 as ready
Genetic Epilepsy v0.1348 LIG3 Zornitza Stark Gene: lig3 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1348 MAP1B Zornitza Stark reviewed gene: MAP1B: Rating: GREEN; Mode of pathogenicity: None; Publications: 31317654, 30150678, 30214071, 33772511; Phenotypes: Intellectual disability, seizures, PVNH, dysmorphic features, Periventricular nodular heterotopia 9, MIM# 618918; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9392 KCTD13 Daniel Flanagan gene: KCTD13 was added
gene: KCTD13 was added to Mendeliome. Sources: Expert list
Mode of inheritance for gene: KCTD13 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: KCTD13 were set to PMID: 33409479
Review for gene: KCTD13 was set to RED
Added comment: Mouse model and in vitro evidence suggesting the deletion of KCTD13 has a similar metabolic affect as adenylosuccinate lyase deficiency, which has seizures and autistic features.
Sources: Expert list
Genetic Epilepsy v0.1348 LIG3 Zornitza Stark Classified gene: LIG3 as Green List (high evidence)
Genetic Epilepsy v0.1348 LIG3 Zornitza Stark Gene: lig3 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1347 ODC1 Zornitza Stark Marked gene: ODC1 as ready
Genetic Epilepsy v0.1347 ODC1 Zornitza Stark Gene: odc1 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1347 ODC1 Zornitza Stark Classified gene: ODC1 as Red List (low evidence)
Genetic Epilepsy v0.1347 ODC1 Zornitza Stark Gene: odc1 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1346 NAA10 Zornitza Stark Phenotypes for gene: NAA10 were changed from Microphthalmia, syndromic 1, MIM# 309800 to Microphthalmia, syndromic 1, MIM# 309800; NAA10-related syndrome; Seizures
Genetic Epilepsy v0.1345 KCTD13 Zornitza Stark Marked gene: KCTD13 as ready
Genetic Epilepsy v0.1345 KCTD13 Zornitza Stark Gene: kctd13 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1345 NAA10 Zornitza Stark Classified gene: NAA10 as Amber List (moderate evidence)
Genetic Epilepsy v0.1345 NAA10 Zornitza Stark Gene: naa10 has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1344 KCTD13 Zornitza Stark Classified gene: KCTD13 as Red List (low evidence)
Genetic Epilepsy v0.1344 KCTD13 Zornitza Stark Gene: kctd13 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1343 OGT Zornitza Stark Marked gene: OGT as ready
Genetic Epilepsy v0.1343 OGT Zornitza Stark Gene: ogt has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1343 OGT Zornitza Stark Classified gene: OGT as Red List (low evidence)
Genetic Epilepsy v0.1343 OGT Zornitza Stark Gene: ogt has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1342 KCNH1 Zornitza Stark Marked gene: KCNH1 as ready
Genetic Epilepsy v0.1342 KCNH1 Zornitza Stark Gene: kcnh1 has been classified as Green List (High Evidence).
Mendeliome v0.9392 KCNC2 Daniel Flanagan gene: KCNC2 was added
gene: KCNC2 was added to Mendeliome. Sources: Expert list
Mode of inheritance for gene: KCNC2 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: KCNC2 were set to PMID:32392612; 31972370
Phenotypes for gene: KCNC2 were set to epileptic encephalopathy; spastic tetraplegia; opisthotonos attacks; intellectual disability; West syndrome
Review for gene: KCNC2 was set to AMBER
Added comment: PMID: 31972370. De novo missense variant (p.Val471Leu) identified in a child with early severe developmental and epileptic encephalopathy, spastic tetraplegia, opisthotonos attacks.

PMID: 32392612. De novo missense variant (p.Asp167Tyr) identified in a neurofibromatosis type 1 related West syndrome patient. Functional analysis showed a significant reduction of the mean potassium current and a shift in the voltage dependence of steady-state activation. Maternally inherited NF1 variant (p.T1951Nfs*5) also identified, the mother was "clinically unremarkable".
Sources: Expert list
Genetic Epilepsy v0.1342 NAGLU Zornitza Stark reviewed gene: NAGLU: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Mucopolysaccharidosis type IIIB (Sanfilippo B) - 252920, Seizures; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9392 OSTC Belinda Chong gene: OSTC was added
gene: OSTC was added to Mendeliome. Sources: Literature
Mode of inheritance for gene: OSTC was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: OSTC were set to PMID: 32267060
Phenotypes for gene: OSTC were set to Oligosaccharyltransferase complex-congenital disorders of glycosylation
Review for gene: OSTC was set to RED
Added comment: A patient with microcephaly, dysmorphic facies, congenital heart defect, focal epilepsy, infantile spasms, skeletal dysplasia, and a type 1 serum transferrin isoelectrofocusing due to a novel CDG caused by a homozygous variant in the oligosaccharyltransferase complex noncatalytic subunit (OSTC) gene involved in glycosylation and confirmed by serum transferrin electrophoresis.
Patient was homozygous for a canonical splice variant (c.431 + 1G > A), mRNA from patient's fibroblast showed mRNA transcript reduced 80-90%/aberrant splicing - predicting NMD.
GnomAD - 10 hets, 0 hom
Sources: Literature
Sources: Literature
Genetic Epilepsy v0.1342 KCNH1 Zornitza Stark Phenotypes for gene: KCNH1 were changed from seizures; epilepsy; intellectual disability; hypotonia; skeletal abnormalities; nail abnormalities to Temple-Baraitser syndrome, OMIM:611816 Zimmermann-Laband syndrome 1, OMIM:135500 Intellectual disability Encephalopathy without features of TBS/ZLS
Genetic Epilepsy v0.1342 KCTD7 Ain Roesley reviewed gene: KCTD7: Rating: GREEN; Mode of pathogenicity: None; Publications: 33767931, 33970744, 22693283, 22748208; Phenotypes: Epilepsy, progressive myoclonic 3, with or without intracellular inclusions MMI#611726; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal; Current diagnostic: yes
Genetic Epilepsy v0.1342 NAGLU Zornitza Stark Marked gene: NAGLU as ready
Genetic Epilepsy v0.1342 NAGLU Zornitza Stark Gene: naglu has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1342 NAGLU Zornitza Stark Phenotypes for gene: NAGLU were changed from Mucopolysaccharidosis type IIIB (Sanfilippo B) - 252920; ?Charcot-Marie-Tooth disease, axonal, type 2V - 616491; Seizures to Mucopolysaccharidosis type IIIB (Sanfilippo B) - 252920; Seizures
Genetic Epilepsy v0.1341 KCNH1 Zornitza Stark Classified gene: KCNH1 as Green List (high evidence)
Genetic Epilepsy v0.1341 KCNH1 Zornitza Stark Gene: kcnh1 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1340 KCNH1 Zornitza Stark reviewed gene: KCNH1: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Temple-Baraitser syndrome, OMIM:611816 Zimmermann-Laband syndrome 1, OMIM:135500 Intellectual disability Encephalopathy without features of TBS/ZLS; Mode of inheritance: None
Genetic Epilepsy v0.1340 ODC1 Belinda Chong changed review comment from: Epilepsy appears to be a rare feature of this syndrome.
Sources: Literature; to: Epilepsy not reported.
Sources: Literature
Genetic Epilepsy v0.1340 NAGLU Zornitza Stark Mode of inheritance for gene: NAGLU was changed from BOTH monoallelic and biallelic (but BIALLELIC mutations cause a more SEVERE disease form), autosomal or pseudoautosomal to BIALLELIC, autosomal or pseudoautosomal
Genetic Epilepsy v0.1339 OSGEP Zornitza Stark Marked gene: OSGEP as ready
Genetic Epilepsy v0.1339 OSGEP Zornitza Stark Gene: osgep has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1339 NAGLU Zornitza Stark Classified gene: NAGLU as Green List (high evidence)
Genetic Epilepsy v0.1339 NAGLU Zornitza Stark Gene: naglu has been classified as Green List (High Evidence).
Congenital Disorders of Glycosylation v1.19 OSTC Belinda Chong gene: OSTC was added
gene: OSTC was added to Congenital Disorders of Glycosylation. Sources: Literature
Mode of inheritance for gene: OSTC was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: OSTC were set to PMID: 32267060
Phenotypes for gene: OSTC were set to Oligosaccharyltransferase complex-congenital disorders of glycosylation
Review for gene: OSTC was set to RED
Added comment: A patient with microcephaly, dysmorphic facies, congenital heart defect, focal epilepsy, infantile spasms, skeletal dysplasia, and a type 1 serum transferrin isoelectrofocusing due to a novel CDG caused by a homozygous variant in the oligosaccharyltransferase complex noncatalytic subunit (OSTC) gene involved in glycosylation and confirmed by serum transferrin electrophoresis.
Patient was homozygous for a canonical splice variant (c.431 + 1G > A), mRNA from patient's fibroblast showed mRNA transcript reduced 80-90%/aberrant splicing - predicting NMD.
GnomAD - 10 hets, 0 hom
Sources: Literature
Sources: Literature
Genetic Epilepsy v0.1338 OSGEP Zornitza Stark Classified gene: OSGEP as Green List (high evidence)
Genetic Epilepsy v0.1338 OSGEP Zornitza Stark Gene: osgep has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1337 OGT Belinda Chong changed review comment from: Epilepsy appears to be a rare feature of this disorder.
Sources: Literature; to: Epilepsy not reported
Sources: Literature
Genetic Epilepsy v0.1337 KCNN3 Zornitza Stark Marked gene: KCNN3 as ready
Genetic Epilepsy v0.1337 KCNN3 Zornitza Stark Gene: kcnn3 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1337 KCNN3 Zornitza Stark Classified gene: KCNN3 as Red List (low evidence)
Genetic Epilepsy v0.1337 KCNN3 Zornitza Stark Gene: kcnn3 has been classified as Red List (Low Evidence).
Intellectual disability syndromic and non-syndromic v0.4208 NDUFA8 Zornitza Stark Marked gene: NDUFA8 as ready
Intellectual disability syndromic and non-syndromic v0.4208 NDUFA8 Zornitza Stark Gene: ndufa8 has been classified as Amber List (Moderate Evidence).
Intellectual disability syndromic and non-syndromic v0.4208 NDUFA8 Zornitza Stark Classified gene: NDUFA8 as Amber List (moderate evidence)
Intellectual disability syndromic and non-syndromic v0.4208 NDUFA8 Zornitza Stark Gene: ndufa8 has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1336 OSTC Zornitza Stark Marked gene: OSTC as ready
Genetic Epilepsy v0.1336 OSTC Zornitza Stark Gene: ostc has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1336 OGT Belinda Chong changed review comment from: Epilepsy appears to be a rare feature of this syndrome.
Sources: Literature; to: Epilepsy appears to be a rare feature of this disorder.
Sources: Literature
Mendeliome v0.9392 TBK1 Lucy Spencer reviewed gene: TBK1: Rating: ; Mode of pathogenicity: None; Publications: PMID: 31000212, 25943890; Phenotypes: Frontotemporal dementia, amyotrophic lateral sclerosis; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9392 KCNAB3 Daniel Flanagan gene: KCNAB3 was added
gene: KCNAB3 was added to Mendeliome. Sources: Expert list
Mode of inheritance for gene: KCNAB3 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: KCNAB3 were set to PMID: 32990398
Phenotypes for gene: KCNAB3 were set to febrile seizures; afebrile seizure; genetic epilepsy with febrile seizures plus
Review for gene: KCNAB3 was set to RED
Added comment: Missense variant identified in a single Han Chinese family with febrile seizures plus. Three affected carriers and one unaffected carrier. Patch clamp functional studies indicates that the variant accelerates the inactivation of the potassium channels.
Sources: Expert list
Genetic Epilepsy v0.1336 OSTC Zornitza Stark Classified gene: OSTC as Red List (low evidence)
Genetic Epilepsy v0.1336 OSTC Zornitza Stark Gene: ostc has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1335 NDUFA8 Zornitza Stark Marked gene: NDUFA8 as ready
Genetic Epilepsy v0.1335 NDUFA8 Zornitza Stark Gene: ndufa8 has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1335 NDUFA8 Zornitza Stark Classified gene: NDUFA8 as Amber List (moderate evidence)
Genetic Epilepsy v0.1335 NDUFA8 Zornitza Stark Gene: ndufa8 has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1334 OTUD5 Zornitza Stark Marked gene: OTUD5 as ready
Genetic Epilepsy v0.1334 OTUD5 Zornitza Stark Gene: otud5 has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1334 OTUD5 Zornitza Stark Phenotypes for gene: OTUD5 were changed from X-Linked Intellectual Disability and Congenital Malformation to Multiple congenital anomalies-neurodevelopmental syndrome, X-linked, MIM# 301056
Genetic Epilepsy v0.1333 KCNC2 Zornitza Stark Marked gene: KCNC2 as ready
Genetic Epilepsy v0.1333 KCNC2 Zornitza Stark Gene: kcnc2 has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1333 KCNC2 Zornitza Stark Classified gene: KCNC2 as Amber List (moderate evidence)
Genetic Epilepsy v0.1333 KCNC2 Zornitza Stark Gene: kcnc2 has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1332 OTUD5 Zornitza Stark Classified gene: OTUD5 as Amber List (moderate evidence)
Genetic Epilepsy v0.1332 OTUD5 Zornitza Stark Gene: otud5 has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1331 NOTCH3 Zornitza Stark Marked gene: NOTCH3 as ready
Genetic Epilepsy v0.1331 NOTCH3 Zornitza Stark Gene: notch3 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1331 OTUD5 Zornitza Stark reviewed gene: OTUD5: Rating: AMBER; Mode of pathogenicity: None; Publications: ; Phenotypes: Multiple congenital anomalies-neurodevelopmental syndrome, X-linked, MIM# 301056; Mode of inheritance: None
Genetic Epilepsy v0.1331 NOTCH3 Zornitza Stark Phenotypes for gene: NOTCH3 were changed from ?Myofibromatosis, infantile 2 - 615293; Cerebral arteriopathy with subcortical infarcts and leukoencephalopathy 1 - 125310; Lateral meningocele syndrome - 130720 to Cerebral arteriopathy with subcortical infarcts and leukoencephalopathy 1 - 125310
Genetic Epilepsy v0.1330 NOTCH3 Zornitza Stark Classified gene: NOTCH3 as Red List (low evidence)
Genetic Epilepsy v0.1330 NOTCH3 Zornitza Stark Gene: notch3 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1329 KCNAB3 Zornitza Stark Marked gene: KCNAB3 as ready
Genetic Epilepsy v0.1329 KCNAB3 Zornitza Stark Gene: kcnab3 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1329 KCNAB3 Zornitza Stark Classified gene: KCNAB3 as Red List (low evidence)
Genetic Epilepsy v0.1329 KCNAB3 Zornitza Stark Gene: kcnab3 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1328 KCNA1 Zornitza Stark Marked gene: KCNA1 as ready
Genetic Epilepsy v0.1328 KCNA1 Zornitza Stark Gene: kcna1 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1328 KCNA1 Zornitza Stark Classified gene: KCNA1 as Green List (high evidence)
Genetic Epilepsy v0.1328 KCNA1 Zornitza Stark Gene: kcna1 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1327 DAB1 Zornitza Stark Marked gene: DAB1 as ready
Genetic Epilepsy v0.1327 DAB1 Zornitza Stark Gene: dab1 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1327 DAB1 Zornitza Stark Classified gene: DAB1 as Red List (low evidence)
Genetic Epilepsy v0.1327 DAB1 Zornitza Stark Gene: dab1 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1326 KIF5A Ain Roesley gene: KIF5A was added
gene: KIF5A was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: KIF5A was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: KIF5A were set to 27414745; 33681666; 27463701
Phenotypes for gene: KIF5A were set to Myoclonus, intractable, neonatal MIM#617235
Penetrance for gene: KIF5A were set to Complete
Review for gene: KIF5A was set to GREEN
gene: KIF5A was marked as current diagnostic
Added comment: PMID: 27414745
1x de novo with myoclonic seizures

PMID: 33681666
1x de novo with epileptic spasm

PMID: 27463701
2 unrelated patients who presented shortly after birth with nearly continuous nonrhythmic large-amplitude myoclonic jerks associated with intermittent apnea
2x de novo fs
Sources: Literature
Genetic Epilepsy v0.1326 KMT2D Ain Roesley gene: KMT2D was added
gene: KMT2D was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: KMT2D was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: KMT2D were set to 33552639; 28404210; 27922244
Phenotypes for gene: KMT2D were set to Kabuki syndrome 1 MIM#147920
Penetrance for gene: KMT2D were set to Complete
Review for gene: KMT2D was set to GREEN
Added comment: PMID:33552639
1x proband with focal epilepsy. Note: only KDM6A and KMT2D were analysed as Kabuki syndrome was suspected. Parental DNA unavailable for segregation

PMID:28404210
5 out of 14 reported to have epilepsy

PMID:27922244
1x individual
Sources: Literature
Genetic Epilepsy v0.1326 EXOSC8 Zornitza Stark Marked gene: EXOSC8 as ready
Genetic Epilepsy v0.1326 EXOSC8 Zornitza Stark Gene: exosc8 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1326 EXOSC8 Zornitza Stark gene: EXOSC8 was added
gene: EXOSC8 was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: EXOSC8 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: EXOSC8 were set to 24989451; 29656927; 34210538
Phenotypes for gene: EXOSC8 were set to Pontocerebellar hypoplasia, type 1C, MIM#616081
Review for gene: EXOSC8 was set to RED
Added comment: Typical clinical presentation is with severe muscle weakness and failure to thrive apparent in the first months of life. Affected infants show delayed psychomotor development, often with visual and hearing impairment, and may die of respiratory failure. Brain imaging typically shows cerebellar hypoplasia, hypoplasia of the corpus callosum, and immature myelination.

Single family reported with seizures as part of the phenotype.
Sources: Literature
Genetic Epilepsy v0.1325 ELOVL4 Zornitza Stark changed review comment from: 5 unrelated families reported, seizures in at least 4 of the families.
Sources: Expert Review; to: 5 unrelated families reported, seizures in at least 4 of the families.

Note mono-allelic variants cause retinopathy/SCA.
Sources: Expert Review
Genetic Epilepsy v0.1325 ELOVL4 Zornitza Stark Marked gene: ELOVL4 as ready
Genetic Epilepsy v0.1325 ELOVL4 Zornitza Stark Gene: elovl4 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1325 ELOVL4 Zornitza Stark Classified gene: ELOVL4 as Green List (high evidence)
Genetic Epilepsy v0.1325 ELOVL4 Zornitza Stark Gene: elovl4 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1324 ELOVL4 Zornitza Stark gene: ELOVL4 was added
gene: ELOVL4 was added to Genetic Epilepsy. Sources: Expert Review
Mode of inheritance for gene: ELOVL4 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ELOVL4 were set to 22100072; 24571530; 33652762
Phenotypes for gene: ELOVL4 were set to Ichthyosis, spastic quadriplegia, and mental retardation (MIM#614457)
Review for gene: ELOVL4 was set to GREEN
Added comment: 5 unrelated families reported, seizures in at least 4 of the families.
Sources: Expert Review
Additional findings_Paediatric v0.261 EFHC1 Zornitza Stark Marked gene: EFHC1 as ready
Additional findings_Paediatric v0.261 EFHC1 Zornitza Stark Gene: efhc1 has been classified as Red List (Low Evidence).
Additional findings_Paediatric v0.261 EFHC1 Zornitza Stark Phenotypes for gene: EFHC1 were changed from Myoclonic epilepsy to {Epilepsy, juvenile absence, susceptibility to, 1}, 607631; {Myoclonic epilepsy, juvenile, susceptibility to, 1}, 254770
Additional findings_Paediatric v0.260 EFHC1 Zornitza Stark Publications for gene: EFHC1 were set to
Additional findings_Paediatric v0.259 EFHC1 Zornitza Stark Classified gene: EFHC1 as Red List (low evidence)
Additional findings_Paediatric v0.259 EFHC1 Zornitza Stark Gene: efhc1 has been classified as Red List (Low Evidence).
Additional findings_Paediatric v0.258 EFHC1 Zornitza Stark reviewed gene: EFHC1: Rating: RED; Mode of pathogenicity: None; Publications: 31056551, 28370826, 29750216, 33969125, 33181902; Phenotypes: {Epilepsy, juvenile absence, susceptibility to, 1}, 607631, {Myoclonic epilepsy, juvenile, susceptibility to, 1}, 254770; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Genetic Epilepsy v0.1323 EFHC1 Zornitza Stark Publications for gene: EFHC1 were set to 31056551; 28370826; 29750216
Genetic Epilepsy v0.1322 EFHC1 Zornitza Stark edited their review of gene: EFHC1: Changed publications: 31056551, 28370826, 29750216, 33969125, 33181902
Genetic Epilepsy v0.1322 MED27 Ain Roesley gene: MED27 was added
gene: MED27 was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: MED27 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: MED27 were set to 33443317
Phenotypes for gene: MED27 were set to Neurodevelopmental disorder with spasticity, cataracts, and cerebellar hypoplasia MIM#619286
Penetrance for gene: MED27 were set to unknown
Review for gene: MED27 was set to GREEN
Added comment: 9 out of 15 reported to have epilepsy
Sources: Literature
Genetic Epilepsy v0.1322 MED13L Ain Roesley gene: MED13L was added
gene: MED13L was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: MED13L was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: MED13L were set to 32646507; 29511999; 25712080
Phenotypes for gene: MED13L were set to Impaired intellectual development and distinctive facial features with or without cardiac defects MIM#616789
Penetrance for gene: MED13L were set to unknown
Review for gene: MED13L was set to GREEN
gene: MED13L was marked as current diagnostic
Added comment: PMID:32646507;
8/18 individuals with missense variants reported to have epileptic seizures

PMID:29511999;
1x individual with fs variant

PMID: 25712080;
1x individual with nonsense variant
Sources: Literature
Genetic Epilepsy v0.1322 MAP1B Ain Roesley gene: MAP1B was added
gene: MAP1B was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: MAP1B was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: MAP1B were set to 33772511
Phenotypes for gene: MAP1B were set to febrile, fever-triggered and afebrile seizures
Penetrance for gene: MAP1B were set to unknown
Review for gene: MAP1B was set to RED
Added comment: 4 affected family members had various combinations of: febrile, fever-triggered and afebrile seizures; photo-sensitivity; comorbid mild developmental delays; obsessive-compulsive behaviors; and poor attention span.
childhood onset, heterozygous fs variant
Sources: Literature
Genetic Epilepsy v0.1322 DNAJC6 Zornitza Stark Publications for gene: DNAJC6 were set to
Genetic Epilepsy v0.1321 DNAJC6 Zornitza Stark edited their review of gene: DNAJC6: Changed publications: 23211418
Hydrocephalus_Ventriculomegaly v0.100 DENND5A Zornitza Stark Marked gene: DENND5A as ready
Hydrocephalus_Ventriculomegaly v0.100 DENND5A Zornitza Stark Gene: dennd5a has been classified as Green List (High Evidence).
Hydrocephalus_Ventriculomegaly v0.100 DENND5A Zornitza Stark Phenotypes for gene: DENND5A were changed from to Epileptic encephalopathy, early infantile, 49, MIM# 617281
Hydrocephalus_Ventriculomegaly v0.99 DENND5A Zornitza Stark Publications for gene: DENND5A were set to
Hydrocephalus_Ventriculomegaly v0.98 DENND5A Zornitza Stark Mode of inheritance for gene: DENND5A was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Hydrocephalus_Ventriculomegaly v0.97 DENND5A Zornitza Stark reviewed gene: DENND5A: Rating: GREEN; Mode of pathogenicity: None; Publications: 27431290, 27866705, 32705489; Phenotypes: Epileptic encephalopathy, early infantile, 49, MIM# 617281; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9392 DENND5A Zornitza Stark Marked gene: DENND5A as ready
Mendeliome v0.9392 DENND5A Zornitza Stark Gene: dennd5a has been classified as Green List (High Evidence).
Mendeliome v0.9392 DENND5A Zornitza Stark Phenotypes for gene: DENND5A were changed from to Epileptic encephalopathy, early infantile, 49, MIM# 617281
Mendeliome v0.9391 DENND5A Zornitza Stark Publications for gene: DENND5A were set to
Mendeliome v0.9390 DENND5A Zornitza Stark Mode of inheritance for gene: DENND5A was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9389 DENND5A Zornitza Stark reviewed gene: DENND5A: Rating: GREEN; Mode of pathogenicity: None; Publications: 27431290, 27866705, 32705489; Phenotypes: Epileptic encephalopathy, early infantile, 49, MIM# 617281; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Genetic Epilepsy v0.1321 DENND5A Zornitza Stark Marked gene: DENND5A as ready
Genetic Epilepsy v0.1321 DENND5A Zornitza Stark Gene: dennd5a has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1321 DENND5A Zornitza Stark Phenotypes for gene: DENND5A were changed from to Epileptic encephalopathy, early infantile, 49, MIM# 617281
Genetic Epilepsy v0.1320 DENND5A Zornitza Stark Publications for gene: DENND5A were set to
Genetic Epilepsy v0.1319 DENND5A Zornitza Stark Mode of inheritance for gene: DENND5A was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Genetic Epilepsy v0.1318 DENND5A Zornitza Stark reviewed gene: DENND5A: Rating: GREEN; Mode of pathogenicity: None; Publications: 27431290, 27866705, 32705489; Phenotypes: Epileptic encephalopathy, early infantile, 49, MIM# 617281; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Genetic Epilepsy v0.1318 DARS2 Zornitza Stark Marked gene: DARS2 as ready
Genetic Epilepsy v0.1318 DARS2 Zornitza Stark Gene: dars2 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1318 DARS2 Zornitza Stark gene: DARS2 was added
gene: DARS2 was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: DARS2 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: DARS2 were set to 17384640; 15002045; 16788019; 30352563
Phenotypes for gene: DARS2 were set to Leukoencephalopathy with brain stem and spinal cord involvement and lactate elevation, MIM# 611105
Review for gene: DARS2 was set to RED
Added comment: Well established gene-disease association. Affected individuals typically present with slowly progressive cerebellar ataxia, spasticity, and dorsal column dysfunction, sometimes with a mild cognitive deficit or decline. Single individual reported with seizures in PMID 30352563.
Sources: Literature
Genetic Epilepsy v0.1317 LIG3 Ain Roesley gene: LIG3 was added
gene: LIG3 was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: LIG3 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: LIG3 were set to 33855352
Phenotypes for gene: LIG3 were set to mitochondrial neurogastrointestinal encephalomyopathy
Penetrance for gene: LIG3 were set to Complete
Review for gene: LIG3 was set to GREEN
gene: LIG3 was marked as current diagnostic
Added comment: 7 affecteds from 3 families
All had severe dysmotility of the gut, leukoencephalopathy and/or progressive cortical atrophy and 1 family with cerebellar atrophy
All had epilepsy, stroke-like episodes, migraine and developmental delay, reminiscent of MELAS.

4 missense (K537N led to splicing defects) and 2 nonsense
molecular defects demonstrated on patients' fibroblasts
KO models done on zebrafish
Sources: Literature
Genetic Epilepsy v0.1317 ODC1 Belinda Chong gene: ODC1 was added
gene: ODC1 was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: ODC1 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: ODC1 were set to PMID:30475435; 30239107
Phenotypes for gene: ODC1 were set to Bachmann-Bupp syndrome 619075
Review for gene: ODC1 was set to RED
gene: ODC1 was marked as current diagnostic
Added comment: Epilepsy appears to be a rare feature of this syndrome.
Sources: Literature
Genetic Epilepsy v0.1317 NAA10 Krithika Murali reviewed gene: NAA10: Rating: AMBER; Mode of pathogenicity: None; Publications: 29957440, 34200686; Phenotypes: Microphthalmia, syndromic 1 - 309800, Ogden syndrome - 300855, Seizures; Mode of inheritance: X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Genetic Epilepsy v0.1317 KCTD13 Daniel Flanagan gene: KCTD13 was added
gene: KCTD13 was added to Genetic Epilepsy. Sources: Expert list
Mode of inheritance for gene: KCTD13 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: KCTD13 were set to PMID: 33409479
Review for gene: KCTD13 was set to RED
Added comment: Mouse model and in vitro evidence suggesting the deletion of KCTD13 has a similar metabolic affect as adenylosuccinate lyase deficiency, which has seizures and autistic features.
Sources: Expert list
Genetic Epilepsy v0.1317 OGT Belinda Chong gene: OGT was added
gene: OGT was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: OGT was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Publications for gene: OGT were set to PMID: 28302723; 28584052; 31296563; 31627256; 29769320; 29606577
Phenotypes for gene: OGT were set to Intellectual developmental disorder, X-linked 106 MIM#300997
Review for gene: OGT was set to RED
gene: OGT was marked as current diagnostic
Added comment: Epilepsy appears to be a rare feature of this syndrome.
Sources: Literature
Vascular Malformations_Germline v1.8 GDF2 Bryony Thompson Phenotypes for gene: GDF2 were changed from Telangiectasia, hereditary hemorrhagic, type 5 615506 to Telangiectasia, hereditary hemorrhagic, type 5 615506; pulmonary arteriovenous malformations
Vascular Malformations_Germline v1.7 GDF2 Bryony Thompson Publications for gene: GDF2 were set to 23972370
Hereditary Haemorrhagic Telangiectasia v1.4 GDF2 Bryony Thompson Mode of inheritance for gene: GDF2 was changed from MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Vascular Malformations_Germline v1.6 GDF2 Bryony Thompson Mode of inheritance for gene: GDF2 was changed from MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Vascular Malformations_Germline v1.5 GDF2 Bryony Thompson Classified gene: GDF2 as Green List (high evidence)
Vascular Malformations_Germline v1.5 GDF2 Bryony Thompson Gene: gdf2 has been classified as Green List (High Evidence).
Vascular Malformations_Germline v1.4 GDF2 Bryony Thompson reviewed gene: GDF2: Rating: GREEN; Mode of pathogenicity: None; Publications: 23972370, 27081547, 32573726, 32992168, 34611981, 33834622, 32669404, 26056270, 23972370, https://doi.org/10.1164/ajrccm-conference.2020.201.1_MeetingAbstracts.A6356; Phenotypes: Telangiectasia, hereditary hemorrhagic, type 5 615506, pulmonary arteriovenous malformations; Mode of inheritance: BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Hereditary Haemorrhagic Telangiectasia v1.3 GDF2 Bryony Thompson edited their review of gene: GDF2: Changed phenotypes: Telangiectasia, hereditary hemorrhagic, type 5 615506, pulmonary arteriovenous malformations
Hereditary Haemorrhagic Telangiectasia v1.3 GDF2 Bryony Thompson Phenotypes for gene: GDF2 were changed from Telangiectasia, hereditary hemorrhagic, type 5 615506 to Telangiectasia, hereditary hemorrhagic, type 5 615506; pulmonary arteriovenous malformations
Hereditary Haemorrhagic Telangiectasia v1.2 GDF2 Bryony Thompson Publications for gene: GDF2 were set to 23972370; 27081547; 25674101
Hereditary Haemorrhagic Telangiectasia v1.1 GDF2 Bryony Thompson Classified gene: GDF2 as Green List (high evidence)
Hereditary Haemorrhagic Telangiectasia v1.1 GDF2 Bryony Thompson Gene: gdf2 has been classified as Green List (High Evidence).
Hereditary Haemorrhagic Telangiectasia v1.0 GDF2 Bryony Thompson edited their review of gene: GDF2: Added comment: 4 probands/families with heterozygous variants with features of HHT and supporting in vitro or patient cell assays.
2 probands - PMID: 23972370 - first publication of the HHT gene-disease association describing 3 probands with 3 different missense variants & supporting in vitro functional assays. 1 of the missense variants is present in gnomAD v2.1 at a frequency not expected for the disease (p.Arg333Trp, 115 hets; p.Arg68Leu, 0 hets; p.Pro85Leu, 2 hets)
0 probands - PMID: 27081547 - a suspected HHT case with missense p.Arg317Gln, which is present in 11 hets in gnomAD v2.1
0 probands - PMID: 32573726 - identified 4 GDF2 variants (3 missense and 1 synonymous splice site adjacent without strong splice predictions) in a cohort of HHT cases, 3 had likely pathogenic/pathogenic ENG variants that could explain the phenotype, including a case with GDF2 p.Arg333Trp which was reported as pathogenic in the original publication from 2013
0 probands - PMID: 32992168 - a case with PAVM and no other features of HHT with a heterozygous missense (p.Gly291Ser), which is present in 20 hets in gnomAD v2.1.
1 family - PMID: 34611981 - a suspected HHT case and affected mother had heterozygous missense variant (p.Glu355Gln). Another suspected HHT case had another heterozygous missense variant (p.Val403Ile), but there are 23 hets in gnomAD v2.1. Also, 2 cases with multi-gene deletions including GDF2.
1 family - https://doi.org/10.1164/ajrccm-conference.2020.201.1_MeetingAbstracts.A6356 - A novel heterozygous GDF2 missense variant was identified in one HHT family from the 100,000 Genomes Project and segregated with disease. The proband was severely affected, having presented in childhood with multiple PAVMs, frequent epistaxis, and typical HHT telangiectasia. Plasma samples form the family showed significantly lower circulating BMP9 levels in affected cars compared to controls

3 homozygous cases with features of HHT, including PAVM:
2 probands - PMID: 33834622 - 2 unrelated paediatric cases with homozygous nonsense variants (p.Gln26Ter, p.Glu279Ter) with facial telangiectases and either pulmonary arterial hypertension or pulmonary arteriovenous malformations (PAVM). Plasma levels of both BMP9 and BMP10 were undetectable. Heterozygous parents did not have any symptoms or clinical signs of HHT.
1 proband - PMID: 32669404 - an 8 yo with epistaxis and diffuse PAVM homozygous for c.1060_1062delinsAG, p.Tyr354ArgfsTer15 (consanguineous family). 7 yo sister homozygous for the same variant had no symptoms, except some telangiectasia. Heterozygous parents had telangiectasia or epistaxis

2 supporting knockout animal models:
PMID: 26056270 - knockout mouse model had imperfect closure of ductus arteriosus (an arterial connection in the foetus that directs blood flow away from the pulmonary circulation)
PMID: 23972370 - BMP9 knockdown experiments in zebrafish exhibited small but significant decreases in both anterior-posterior and dorsal-ventral axes, as well as subtle defects in the maturation of the caudal vein.; Changed rating: GREEN; Changed publications: 23972370, 27081547, 32573726, 32992168, 34611981, 33834622, 32669404, 26056270, 23972370, https://doi.org/10.1164/ajrccm-conference.2020.201.1_MeetingAbstracts.A6356; Changed mode of inheritance: BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Genetic Epilepsy v0.1317 KCNH1 Daniel Flanagan gene: KCNH1 was added
gene: KCNH1 was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: KCNH1 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: KCNH1 were set to PMID: 33594261
Phenotypes for gene: KCNH1 were set to seizures; epilepsy; intellectual disability; hypotonia; skeletal abnormalities; nail abnormalities
Added comment: 24/27 patients with KCNH1 variants have seizures/epilepsy. These patients also had intellectual disabilities, hypotonia, skeletal abnormalities and nail abnormalities.
Sources: Literature
Genetic Epilepsy v0.1317 NAGLU Krithika Murali gene: NAGLU was added
gene: NAGLU was added to Genetic Epilepsy. Sources: Expert list,Literature
Mode of inheritance for gene: NAGLU was set to BOTH monoallelic and biallelic (but BIALLELIC mutations cause a more SEVERE disease form), autosomal or pseudoautosomal
Publications for gene: NAGLU were set to 34396902; 25818867; 8650226
Phenotypes for gene: NAGLU were set to Mucopolysaccharidosis type IIIB (Sanfilippo B) - 252920; ?Charcot-Marie-Tooth disease, axonal, type 2V - 616491; Seizures
Review for gene: NAGLU was set to GREEN
Added comment: The association between bi-allelic variants and Sanfilippo B is well established. The disorder is characterized by the accumulation of heparan sulfate, resulting in progressive neurodegeneration, behavioural problems, mild skeletal changes, and shortened life span. The clinical severity ranges from mild to severe. Seizures have been reported in affected individuals.

Two families reported with mono-allelic variants and CMT.
Sources: Expert list, Literature
Genetic Epilepsy v0.1317 OSGEP Belinda Chong gene: OSGEP was added
gene: OSGEP was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: OSGEP was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: OSGEP were set to PMID: 28805828; 33333793
Phenotypes for gene: OSGEP were set to Galloway-Mowat syndrome 3, MIM#617729
Review for gene: OSGEP was set to GREEN
gene: OSGEP was marked as current diagnostic
Added comment: Epilepsy reported in multiple individuals with Galloway-Mowat syndrome 3
Sources: Literature
Genetic Epilepsy v0.1317 KCNN3 Daniel Flanagan gene: KCNN3 was added
gene: KCNN3 was added to Genetic Epilepsy. Sources: Expert list
Mode of inheritance for gene: KCNN3 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: KCNN3 were set to PMID: 33594261
Phenotypes for gene: KCNN3 were set to Zimmermann-Laband syndrome
Review for gene: KCNN3 was set to RED
Added comment: PMID: 33594261. 0/5 patients with KCNN3 variants had seizures or epilepsy. 1 patient had suspected but not confirmed seizures.
Sources: Expert list
Hereditary Haemorrhagic Telangiectasia v1.0 GDF2 Bryony Thompson Deleted their comment
Genetic Epilepsy v0.1317 OSTC Belinda Chong gene: OSTC was added
gene: OSTC was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: OSTC was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: OSTC were set to PMID: 32267060
Phenotypes for gene: OSTC were set to Oligosaccharyltransferase complex-congenital disorders of glycosylation
Review for gene: OSTC was set to RED
Added comment: A patient with microcephaly, dysmorphic facies, congenital heart defect, focal epilepsy, infantile spasms, skeletal dysplasia, and a type 1 serum transferrin isoelectrofocusing due to a novel CDG caused by a homozygous variant in the oligosaccharyltransferase complex noncatalytic subunit (OSTC) gene involved in glycosylation and confirmed by serum transferrin electrophoresis.
Patient was homozygous for a canonical splice variant (c.431 + 1G > A), mRNA from patient's fibroblast showed mRNA transcript reduced 80-90%/aberrant splicing - predicting NMD.
GnomAD - 10 hets, 0 hom
Sources: Literature
Intellectual disability syndromic and non-syndromic v0.4207 NDUFA8 Krithika Murali gene: NDUFA8 was added
gene: NDUFA8 was added to Intellectual disability syndromic and non-syndromic. Sources: Literature
Mode of inheritance for gene: NDUFA8 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: NDUFA8 were set to 32385911; 33153867
Phenotypes for gene: NDUFA8 were set to Mitochondrial complex I deficiency, nuclear type 37- 619272; Epilepsy; Microcephaly; Developmental Delay
Review for gene: NDUFA8 was set to AMBER
Added comment: 3 individuals from 2 unrelated families reported with phenotypic features including microcephaly (1/3), seizures (2/3), developmental delay (3/3) and MRI-B changes (3/3).
Sources: Literature
Genetic Epilepsy v0.1317 NDUFA8 Krithika Murali gene: NDUFA8 was added
gene: NDUFA8 was added to Genetic Epilepsy. Sources: Expert list,Literature
Mode of inheritance for gene: NDUFA8 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: NDUFA8 were set to 32385911; 33153867
Phenotypes for gene: NDUFA8 were set to Mitochondrial complex I deficiency, nuclear type 37 - 619272; Epilepsy; Microcephaly; Developmental Delay
Review for gene: NDUFA8 was set to AMBER
Added comment: Second family reported with pair of affected siblings and homozygous missense variant, some functional data. 1 sibling had seizures.

Single individual reported with homozygous variant, fibroblasts showed apparent biochemical defects in mitochondrial complex I. Seizures reported.
Sources: Expert list, Literature
Genetic Epilepsy v0.1317 KCNC2 Daniel Flanagan gene: KCNC2 was added
gene: KCNC2 was added to Genetic Epilepsy. Sources: Expert list
Mode of inheritance for gene: KCNC2 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: KCNC2 were set to PMID:32392612; 31972370
Phenotypes for gene: KCNC2 were set to epileptic encephalopathy; spastic tetraplegia; opisthotonos attacks; intellectual disability; West syndrome
Review for gene: KCNC2 was set to AMBER
Added comment: PMID: 31972370. De novo missense variant (p.Val471Leu) identified in a child with early severe developmental and epileptic encephalopathy, spastic tetraplegia, opisthotonos attacks.

PMID: 32392612. De novo missense variant (p.Asp167Tyr) identified in a neurofibromatosis type 1 related West syndrome patient. Functional analysis showed a significant reduction of the mean potassium current and a shift in the voltage dependence of steady-state activation. Maternally inherited NF1 variant (p.T1951Nfs*5) also identified, the mother was "clinically unremarkable".
Sources: Expert list
Genetic Epilepsy v0.1317 OTUD5 Belinda Chong gene: OTUD5 was added
gene: OTUD5 was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: OTUD5 was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Publications for gene: OTUD5 were set to PMID:33748114
Phenotypes for gene: OTUD5 were set to X-Linked Intellectual Disability and Congenital Malformation
Review for gene: OTUD5 was set to AMBER
Added comment: A hemizygous OTUD5 missense variant, c.878A>T, p.Asn293Ile [NM_017602.4], was identified in a family in two brothers with epilepsy and brain magnetic resonance imaging showed a thin corpus callosum and mild ventriculomegaly.
Sources: Literature
Genetic Epilepsy v0.1317 NOTCH3 Krithika Murali gene: NOTCH3 was added
gene: NOTCH3 was added to Genetic Epilepsy. Sources: Expert list,Literature
Mode of inheritance for gene: NOTCH3 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: NOTCH3 were set to 33020014; 30776699; 21414809; 30056822; 17675836
Phenotypes for gene: NOTCH3 were set to ?Myofibromatosis, infantile 2 - 615293; Cerebral arteriopathy with subcortical infarcts and leukoencephalopathy 1 - 125310; Lateral meningocele syndrome - 130720
Review for gene: NOTCH3 was set to RED
Added comment: CADASIL typically presents with adult-onset migraine, TIA/stroke, cognitive disorders. Seizures noted in 5-10% of patients with CADASIL, usually preceded by stroke. Less than 5 cases described of adult-onset epilepsy as initial presenting symptom of CADASIL. All had characteristic MRI-B changes and review of cases shows that a number of them had preceding migraine or other symptoms.

Not suitable for inclusion in genetic epilepsy panel as seizures are adult-onset, rarely observed, and usually develop as a secondary phenomenon.
Sources: Expert list, Literature
Genetic Epilepsy v0.1317 KCNAB3 Daniel Flanagan gene: KCNAB3 was added
gene: KCNAB3 was added to Genetic Epilepsy. Sources: Expert list
Mode of inheritance for gene: KCNAB3 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: KCNAB3 were set to PMID: 32990398
Phenotypes for gene: KCNAB3 were set to febrile seizures; afebrile seizure; genetic epilepsy with febrile seizures plus
Review for gene: KCNAB3 was set to RED
Added comment: Missense variant identified in a single Han Chinese family with febrile seizures plus. Three affected carriers and one unaffected carrier. Patch clamp functional studies indicates that the variant accelerates the inactivation of the potassium channels.
Sources: Expert list
Genetic Epilepsy v0.1317 KCNA1 Daniel Flanagan gene: KCNA1 was added
gene: KCNA1 was added to Genetic Epilepsy. Sources: Expert list
Mode of inheritance for gene: KCNA1 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: KCNA1 were set to PMID: 32316562
Phenotypes for gene: KCNA1 were set to Epilepsy; seizures; epileptic encephalopathies; episodic ataxia type 1 and epilepsy
Review for gene: KCNA1 was set to GREEN
Added comment: KCNA1 variants reported in patients with episodic ataxia type 1 with epilepsy and seizures. KCNA1 variants also reported in patients with epileptic encephalopathies alone. Epilepsy or seizure-related variants tend to cluster in the S1,S2,S5,S6 transmembrane domains and in the pore domain.
Sources: Expert list
Genetic Epilepsy v0.1317 DAB1 Daniel Flanagan gene: DAB1 was added
gene: DAB1 was added to Genetic Epilepsy. Sources: Expert list
Mode of inheritance for gene: DAB1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: DAB1 were set to PMID: 33928188
Phenotypes for gene: DAB1 were set to epilepsy; developmental delay; cerebellar ataxia; structural brain abnormalities; oral motor difficulty
Review for gene: DAB1 was set to RED
Added comment: WES trio analysis identified compound heterozygous DAB1 canonical splice variants in a child with epilepsy (onset 6 years), developmental delay, cerebellar ataxia, oral motor difficulty, and structural brain abnormalities. RT-PCR confirms that the first variant (c.307-2A>T) causes a in-frame deletion of 3 amino acids. The second variant (c.67+1G>T) is reported to causes an in-frame deletion of exon 4 (first coding exon) and loss of the ATG initiation site.

New LoF mechanism suggested. Repeat expansion in this gene is known to be associated with disease.
Sources: Expert list
Imprinting disorders v1.0 Zornitza Stark promoted panel to version 1.0
Imprinting disorders v0.40 SGCE Zornitza Stark Phenotypes for gene: SGCE were changed from Affected tissue: brain; Phenotype resulting from under expression: upper body myoclonus, dystonia to Affected tissue: brain; Phenotype resulting from under expression: upper body myoclonus, dystonia; Dystonia-11, myoclonic, MIM# 159900 MONDO:0008044
Imprinting disorders v0.39 SGCE Zornitza Stark Marked gene: SGCE as ready
Imprinting disorders v0.39 SGCE Zornitza Stark Gene: sgce has been classified as Green List (High Evidence).
Imprinting disorders v0.39 SGCE Zornitza Stark Publications for gene: SGCE were set to 25209853; 23237735; 23365103; 30794780; 11528394; 12325078; 17200151
Imprinting disorders v0.38 SGCE Zornitza Stark Publications for gene: SGCE were set to PMID: 25209853; 23237735; 23365103; http://igc.otago.ac.nz/home.html; 30794780
Mendeliome v0.9389 ZAR1 Zornitza Stark Marked gene: ZAR1 as ready
Mendeliome v0.9389 ZAR1 Zornitza Stark Gene: zar1 has been classified as Red List (Low Evidence).
Mendeliome v0.9389 ZAR1 Zornitza Stark gene: ZAR1 was added
gene: ZAR1 was added to Mendeliome. Sources: Expert Review
Mode of inheritance for gene: ZAR1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ZAR1 were set to 29574422; 31598710; 12539046
Phenotypes for gene: ZAR1 were set to Multi locus imprinting disturbance in offspring
Review for gene: ZAR1 was set to RED
Added comment: Single report of biallelic variants in this gene in a mother of a child with Multi locus imprinting disturbance (MLID) with some features of Beckwith Wiedemann Syndrome. Shown to be a maternal effect gene that functions at the oocyte to embryo transition.
Sources: Expert Review
Imprinting disorders v0.36 ZAR1 Zornitza Stark Marked gene: ZAR1 as ready
Imprinting disorders v0.36 ZAR1 Zornitza Stark Gene: zar1 has been classified as Red List (Low Evidence).
Imprinting disorders v0.36 ZAR1 Zornitza Stark Classified gene: ZAR1 as Red List (low evidence)
Imprinting disorders v0.36 ZAR1 Zornitza Stark Gene: zar1 has been classified as Red List (Low Evidence).
Imprinting disorders v0.35 ZAR1 Zornitza Stark reviewed gene: ZAR1: Rating: RED; Mode of pathogenicity: None; Publications: ; Phenotypes: ; Mode of inheritance: None
Mendeliome v0.9388 UHRF1 Zornitza Stark Marked gene: UHRF1 as ready
Mendeliome v0.9388 UHRF1 Zornitza Stark Gene: uhrf1 has been classified as Red List (Low Evidence).
Mendeliome v0.9388 UHRF1 Zornitza Stark gene: UHRF1 was added
gene: UHRF1 was added to Mendeliome. Sources: Expert Review
Mode of inheritance for gene: UHRF1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: UHRF1 were set to 29574422; 28976982
Phenotypes for gene: UHRF1 were set to Multi locus imprinting disturbance in offspring
Review for gene: UHRF1 was set to RED
Added comment: Single report of biallelic variants in this gene in a mother of a child with Multi locus imprinting disturbance (MLID) and Silver Russell Syndrome phenotype. Maenohara et al demonstrate functions of UHRF1 during the global epigenetic reprogramming of oocytes and early embryos.
Sources: Expert Review
Imprinting disorders v0.35 UHRF1 Zornitza Stark Classified gene: UHRF1 as Red List (low evidence)
Imprinting disorders v0.35 UHRF1 Zornitza Stark Gene: uhrf1 has been classified as Red List (Low Evidence).
Imprinting disorders v0.34 UHRF1 Zornitza Stark reviewed gene: UHRF1: Rating: RED; Mode of pathogenicity: None; Publications: ; Phenotypes: ; Mode of inheritance: None
Imprinting disorders v0.34 UHRF1 Zornitza Stark Marked gene: UHRF1 as ready
Imprinting disorders v0.34 UHRF1 Zornitza Stark Gene: uhrf1 has been classified as Amber List (Moderate Evidence).
Imprinting disorders v0.34 UHRF1 Zornitza Stark Classified gene: UHRF1 as Amber List (moderate evidence)
Imprinting disorders v0.34 UHRF1 Zornitza Stark Gene: uhrf1 has been classified as Amber List (Moderate Evidence).
Intellectual disability syndromic and non-syndromic v0.4207 MAGEL2 Zornitza Stark Marked gene: MAGEL2 as ready
Intellectual disability syndromic and non-syndromic v0.4207 MAGEL2 Zornitza Stark Gene: magel2 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4207 MAGEL2 Zornitza Stark Phenotypes for gene: MAGEL2 were changed from to Schaaf-Yang syndrome, MIM# 615547
Intellectual disability syndromic and non-syndromic v0.4206 MAGEL2 Zornitza Stark Publications for gene: MAGEL2 were set to
Intellectual disability syndromic and non-syndromic v0.4205 MAGEL2 Zornitza Stark Mode of inheritance for gene: MAGEL2 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, maternally imprinted (paternal allele expressed)
Intellectual disability syndromic and non-syndromic v0.4204 MAGEL2 Zornitza Stark reviewed gene: MAGEL2: Rating: GREEN; Mode of pathogenicity: None; Publications: 24076603, 31397880, 29599419, 30302899; Phenotypes: Schaaf-Yang syndrome, MIM# 615547; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, maternally imprinted (paternal allele expressed)
Mendeliome v0.9387 MAGEL2 Zornitza Stark Marked gene: MAGEL2 as ready
Mendeliome v0.9387 MAGEL2 Zornitza Stark Gene: magel2 has been classified as Green List (High Evidence).
Mendeliome v0.9387 MAGEL2 Zornitza Stark Phenotypes for gene: MAGEL2 were changed from to Schaaf-Yang syndrome, MIM# 615547
Mendeliome v0.9386 MAGEL2 Zornitza Stark Publications for gene: MAGEL2 were set to
Mendeliome v0.9385 MAGEL2 Zornitza Stark Mode of inheritance for gene: MAGEL2 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, maternally imprinted (paternal allele expressed)
Mendeliome v0.9384 MAGEL2 Zornitza Stark reviewed gene: MAGEL2: Rating: GREEN; Mode of pathogenicity: None; Publications: 24076603, 31397880, 29599419, 30302899; Phenotypes: Schaaf-Yang syndrome, MIM# 615547; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, maternally imprinted (paternal allele expressed)
Imprinting disorders v0.33 MAGEL2 Zornitza Stark Marked gene: MAGEL2 as ready
Imprinting disorders v0.33 MAGEL2 Zornitza Stark Gene: magel2 has been classified as Green List (High Evidence).
Imprinting disorders v0.33 MAGEL2 Zornitza Stark Phenotypes for gene: MAGEL2 were changed from Schaaf-Yang syndrome; Chitayat-Hall Syndrome to Schaaf-Yang syndrome, MIM# 615547; Chitayat-Hall Syndrome
Imprinting disorders v0.32 MAGEL2 Zornitza Stark Classified gene: MAGEL2 as Green List (high evidence)
Imprinting disorders v0.32 MAGEL2 Zornitza Stark Gene: magel2 has been classified as Green List (High Evidence).
Imprinting disorders v0.31 MAGEL2 Zornitza Stark reviewed gene: MAGEL2: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Schaaf-Yang syndrome, MIM# 615547; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, maternally imprinted (paternal allele expressed)
Imprinting disorders v0.31 KCNQ1 Zornitza Stark Marked gene: KCNQ1 as ready
Imprinting disorders v0.31 KCNQ1 Zornitza Stark Gene: kcnq1 has been classified as Amber List (Moderate Evidence).
Imprinting disorders v0.31 KCNQ1 Zornitza Stark Publications for gene: KCNQ1 were set to PMID 30635621; 32393365; 30778172
Imprinting disorders v0.30 KCNQ1 Zornitza Stark Classified gene: KCNQ1 as Amber List (moderate evidence)
Imprinting disorders v0.30 KCNQ1 Zornitza Stark Gene: kcnq1 has been classified as Amber List (Moderate Evidence).
Mendeliome v0.9384 L3MBTL1 Zornitza Stark Marked gene: L3MBTL1 as ready
Mendeliome v0.9384 L3MBTL1 Zornitza Stark Gene: l3mbtl1 has been classified as Red List (Low Evidence).
Mendeliome v0.9384 L3MBTL1 Zornitza Stark gene: L3MBTL1 was added
gene: L3MBTL1 was added to Mendeliome. Sources: Expert Review
Mode of inheritance for gene: L3MBTL1 was set to MONOALLELIC, autosomal or pseudoautosomal, maternally imprinted (paternal allele expressed)
Publications for gene: L3MBTL1 were set to 23543057; 15123827; 30794780
Phenotypes for gene: L3MBTL1 were set to Affected tissue: myeloid lineages; Phenotype resulting from under expression: lymphoid malignancy
Review for gene: L3MBTL1 was set to RED
Added comment: Germline variation in this imprinted gene is not currently associated with disease.

Somatic deletions of 20q are associated with chronic myeloid malignancies. Aziz et al showed that a single heterozygous 20q deletion consistently resulted in the complete loss of expression of the imprinted genes L3MBTL1 and SGK2, indicative of a pathogenetic role for loss of the active paternally inherited locus. Concomitant loss of both L3MBTL1 and SGK2 dysregulated erythropoiesis and megakaryopoiesis.
Sources: Expert Review
Mendeliome v0.9383 KCNQ1OT1 Zornitza Stark Marked gene: KCNQ1OT1 as ready
Mendeliome v0.9383 KCNQ1OT1 Zornitza Stark Gene: kcnq1ot1 has been classified as Red List (Low Evidence).
Imprinting disorders v0.29 L3MBTL1 Zornitza Stark Marked gene: L3MBTL1 as ready
Imprinting disorders v0.29 L3MBTL1 Zornitza Stark Gene: l3mbtl1 has been classified as Red List (Low Evidence).
Imprinting disorders v0.29 L3MBTL1 Zornitza Stark Publications for gene: L3MBTL1 were set to http://igc.otago.ac.nz/home.html; 23543057; PMID: 15123827; 30794780
Imprinting disorders v0.28 L3MBTL1 Zornitza Stark Classified gene: L3MBTL1 as Red List (low evidence)
Imprinting disorders v0.28 L3MBTL1 Zornitza Stark Gene: l3mbtl1 has been classified as Red List (Low Evidence).
Mendeliome v0.9383 KCNQ1OT1 Zornitza Stark gene: KCNQ1OT1 was added
gene: KCNQ1OT1 was added to Mendeliome. Sources: Expert Review
Mode of inheritance for gene: KCNQ1OT1 was set to MONOALLELIC, autosomal or pseudoautosomal, maternally imprinted (paternal allele expressed)
Publications for gene: KCNQ1OT1 were set to 22205991; 15372379; 23511928; 30794780; 29377879; 10220444; 32447323; 33177595; 29047350
Phenotypes for gene: KCNQ1OT1 were set to Beckwith-Wiedemann syndrome OMIM:130650; Russell-Silver Syndrome
Review for gene: KCNQ1OT1 was set to AMBER
Added comment: Limited evidence that isolated intragenic variation in KCNQ1OT1 is definitively associated with a phenotype.

KCNQ1OT1 encodes the regulatory antisense non-coding RNA KCNQ1OT1 (KCNQ1 overlapping) and is located within the KCNQ1OT1:TSS DMR (imprinting control region 2; IC2) at 11p15.5. IC2 is located within KCNQ1 intron 10. KCNQ1OT1 is maternally imprinted and paternally expressed. On the paternal chromosome, KCNQ1OT1 is transcribed and represses in cis the flanking imprinted genes, including the growth inhibitor CDKN1C, which is normally transcribed from the maternal allele. In 50% of the BWS patients, loss of methylation (LOM) of IC2 leads to biallelic expression of KCNQ1OT1 and biallelic silencing of CDKN1C (PMID 30635621). Expression is increased in BWS due to IC2 epimutations or paternal UPD.

Single nucleotide variants within KCNQ1OT1 have not been definitively associated with human disease. A heterozygous maternally inherited non-coding variant was identified in an individual with isolated omphalocele. This variant was shown to alter the methylation pattern of the imprinted allele (PMID 29047350).

Eggerman et al (PMID 32447323) described a 132 base pair deletion within KCNQ1OT1 associated with growth retardation in the case of paternal but not maternal transmission. This intragenic deletion did not affect IC2 methylation.

Microdeletions of IC2 involving KCNQ1OT1 on the paternal allele have been identified in a small number of patients with Russell-Silver syndrome. Similarly, microdeletions of IC2 involving KCNQ1OT1 on the maternal allele have been identified in a small number of patients with BWS. These deletions also variably involve KCNQ1 or CDKN1C. LoF in CDKN1C is a known cause of BWS. There is some evidence to suggest that disruption of KCNQ1 prevents maternal methylation at IC2 (PMID 30778172).
Sources: Expert Review
Imprinting disorders v0.27 KCNQ1OT1 Zornitza Stark Publications for gene: KCNQ1OT1 were set to 22205991; 15372379; 23511928; 30794780; 29377879; 10220444; 32447323; 33177595; 29047350
Imprinting disorders v0.26 KCNQ1OT1 Zornitza Stark Marked gene: KCNQ1OT1 as ready
Imprinting disorders v0.26 KCNQ1OT1 Zornitza Stark Gene: kcnq1ot1 has been classified as Amber List (Moderate Evidence).
Imprinting disorders v0.26 KCNQ1OT1 Zornitza Stark Phenotypes for gene: KCNQ1OT1 were changed from Beckwith-Wiedemann syndrome OMIM:130650 to Beckwith-Wiedemann syndrome OMIM:130650; Russell-Silver Syndrome
Imprinting disorders v0.25 KCNQ1OT1 Zornitza Stark Publications for gene: KCNQ1OT1 were set to 22205991; 15372379; 10220444; http://igc.otago.ac.nz/home.html; 23511928; 30794780
Imprinting disorders v0.24 KCNQ1OT1 Zornitza Stark Classified gene: KCNQ1OT1 as Amber List (moderate evidence)
Imprinting disorders v0.24 KCNQ1OT1 Zornitza Stark Gene: kcnq1ot1 has been classified as Amber List (Moderate Evidence).
Mendeliome v0.9382 H19 Zornitza Stark Marked gene: H19 as ready
Mendeliome v0.9382 H19 Zornitza Stark Gene: h19 has been classified as Red List (Low Evidence).
Mendeliome v0.9382 H19 Zornitza Stark gene: H19 was added
gene: H19 was added to Mendeliome. Sources: Expert Review
Mode of inheritance for gene: H19 was set to MONOALLELIC, autosomal or pseudoautosomal, paternally imprinted (maternal allele expressed)
Publications for gene: H19 were set to 20007505; 15743916; 23118352; 21863054; 21571108; 18245780; 24916376; 25943194
Phenotypes for gene: H19 were set to Phenotypes resulting from gene over expression: Silver-Russell Syndrome (proven effects of dosage alteration rather than gene muation); Affected tissue: all; Phenotype resulting from under expression: Beckwith-Wiedemann Syndrome
Review for gene: H19 was set to RED
Added comment: Methylation changes rather than sequence variation are associated with BWS/RSS.
Sources: Expert Review
Additional findings_Paediatric v0.258 H19 Zornitza Stark Marked gene: H19 as ready
Additional findings_Paediatric v0.258 H19 Zornitza Stark Gene: h19 has been classified as Red List (Low Evidence).
Additional findings_Paediatric v0.258 H19 Zornitza Stark Classified gene: H19 as Red List (low evidence)
Additional findings_Paediatric v0.258 H19 Zornitza Stark Gene: h19 has been classified as Red List (Low Evidence).
Additional findings_Paediatric v0.257 H19 Zornitza Stark reviewed gene: H19: Rating: RED; Mode of pathogenicity: None; Publications: ; Phenotypes: ; Mode of inheritance: None
Imprinting disorders v0.23 H19 Zornitza Stark Marked gene: H19 as ready
Imprinting disorders v0.23 H19 Zornitza Stark Gene: h19 has been classified as Red List (Low Evidence).
Imprinting disorders v0.23 H19 Zornitza Stark Classified gene: H19 as Red List (low evidence)
Imprinting disorders v0.23 H19 Zornitza Stark Gene: h19 has been classified as Red List (Low Evidence).
Imprinting disorders v0.22 H19 Zornitza Stark reviewed gene: H19: Rating: RED; Mode of pathogenicity: None; Publications: 20007505, 15743916, 23118352, 21863054, 21571108, 18245780, 24916376, 25943194; Phenotypes: Phenotypes resulting from gene over expression: Silver-Russell Syndrome (proven effects of dosage alteration rather than gene muation), Affected tissue: all, Phenotype resulting from under expression: Beckwith-Wiedemann Syndrome; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, paternally imprinted (maternal allele expressed)
Imprinting disorders v0.22 GNAS Zornitza Stark Marked gene: GNAS as ready
Imprinting disorders v0.22 GNAS Zornitza Stark Gene: gnas has been classified as Green List (High Evidence).
Imprinting disorders v0.22 GNAS Zornitza Stark Phenotypes for gene: GNAS were changed from Affected tissue: kidney, bone, brain; pseudopseudohypoparathyroidism; Phenotype resulting from under expression: Pseudohypoparathyroidism Type 1a to Affected tissue: kidney, bone, brain; pseudopseudohypoparathyroidism; Phenotype resulting from under expression: Pseudohypoparathyroidism Type 1a, MIM# 103580; Albright hereditary osteodystrophy
Imprinting disorders v0.21 GNAS Zornitza Stark Publications for gene: GNAS were set to 10980525; 11406605; 12024005; 15800843; 15181091; 9506752; 12024004; 15592469; 15592469; 11788646; 1944469; 2109828; 30794780
Imprinting disorders v0.20 GNAS Zornitza Stark Publications for gene: GNAS were set to 10980525; [11406605; 12024005; 15800843]; 15181091; 9506752; 12024004; http://igc.otago.ac.nz/home.html; 15592469; [15592469; 11788646; 1944469; PMID: 2109828; 30794780
Imprinting disorders v0.19 GNAS Zornitza Stark edited their review of gene: GNAS: Changed mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, paternally imprinted (maternal allele expressed)
Imprinting disorders v0.19 GNAS Zornitza Stark reviewed gene: GNAS: Rating: GREEN; Mode of pathogenicity: None; Publications: 15331575; Phenotypes: Pseudohypoparathyroidism Ia, MIM# 103580, Albright hereditary osteodystrophy, Pseudohypoparathyroidism Ib, MIM# 603233; Mode of inheritance: None
Hereditary Neuropathy_CMT - isolated v1.10 GBF1 Zornitza Stark Phenotypes for gene: GBF1 were changed from Axonal Neuropathy to Charcot-Marie-Tooth disease, dominant intermediate A, MIM# 606483; Axonal Neuropathy
Hereditary Neuropathy_CMT - isolated v1.9 GBF1 Zornitza Stark reviewed gene: GBF1: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Charcot-Marie-Tooth disease, dominant intermediate A, MIM# 606483; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9381 GBF1 Zornitza Stark Phenotypes for gene: GBF1 were changed from Axonal Neuropathy to Charcot-Marie-Tooth disease, dominant intermediate A, MIM# 606483; Axonal Neuropathy
Mendeliome v0.9380 GBF1 Zornitza Stark reviewed gene: GBF1: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Charcot-Marie-Tooth disease, dominant intermediate A, MIM# 606483; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Syndromic Retinopathy v0.179 TMEM218 Zornitza Stark Phenotypes for gene: TMEM218 were changed from Joubert syndrome; retinal dystrophy; polycystic kidneys; occipital encephalocele to Joubert syndrome 39, MIM#619562; retinal dystrophy; polycystic kidneys; occipital encephalocele
Syndromic Retinopathy v0.178 TMEM218 Zornitza Stark reviewed gene: TMEM218: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Joubert syndrome 39, MIM#619562; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9380 TMEM218 Zornitza Stark Phenotypes for gene: TMEM218 were changed from Joubert syndrome; retinal dystrophy; polycystic kidneys; occipital encephalocele to Joubert syndrome 39, MIM#619562; retinal dystrophy; polycystic kidneys; occipital encephalocele
Mendeliome v0.9379 TMEM218 Zornitza Stark reviewed gene: TMEM218: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Joubert syndrome 39, MIM#619562; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Joubert syndrome and other neurological ciliopathies v1.15 TMEM218 Zornitza Stark Phenotypes for gene: TMEM218 were changed from Joubert syndrome; retinal dystrophy; polycystic kidneys; occipital encephalocele to Joubert syndrome 39, MIM#619562; retinal dystrophy; polycystic kidneys; occipital encephalocele
Joubert syndrome and other neurological ciliopathies v1.14 TMEM218 Zornitza Stark reviewed gene: TMEM218: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Joubert syndrome 39, MIM#619562; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Imprinting disorders v0.19 MAGEL2 Anna Le Fevre changed review comment from: MAGEL2 is a single-exon gene.
Frameshift mutations may not cause nonsense-mediated decay, but instead a variety of truncated or elongated protein products.
The pathogenicity of haploinsufficiency of the paternal allele is uncertain (ClinGen review 2018). A dominant-negative effect has been suggested. Haploinsufficiency may play a role.
Sources: Literature; to: Multiple reports.

MAGEL2 is a single-exon gene.
Frameshift mutations may not cause nonsense-mediated decay, but instead a variety of truncated or elongated protein products.
The pathogenicity of haploinsufficiency of the paternal allele is uncertain (ClinGen review 2018). A dominant-negative effect has been suggested. Haploinsufficiency may play a role.
Sources: Literature
Mendeliome v0.9379 OOEP Zornitza Stark Marked gene: OOEP as ready
Mendeliome v0.9379 OOEP Zornitza Stark Gene: ooep has been classified as Red List (Low Evidence).
Mendeliome v0.9379 OOEP Zornitza Stark gene: OOEP was added
gene: OOEP was added to Mendeliome. Sources: Literature
Mode of inheritance for gene: OOEP was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: OOEP were set to 29574422
Phenotypes for gene: OOEP were set to Multi locus imprinting disturbance in offspring
Review for gene: OOEP was set to RED
Added comment: Single report of biallelic variants in this gene in a mother of a child with Multi locus imprinting disturbance (MLID) and a transient neonatal diabetes mellitus phenotype.

This gene encodes part of the subcortical maternal complex (SCMC). Other genes in this group act as 'maternal effect' genes and are associated with early embryonic arrest, recurrent hydatiform mole and MLID in offspring.

As is the case for other genes encoding components of the SCMC, the pathogenicity of variants can be difficult to establish as reproductive outcomes are not recorded in genomic databases and variants may be listed in population databases as they are not classed as pathogenic in males or women with no reproductive history.

Functional studies of genes encoding components of the SCMC are limited as their expression is restricted to the oocyte and early embryo.
Sources: Literature
Imprinting disorders v0.19 OOEP Zornitza Stark Marked gene: OOEP as ready
Imprinting disorders v0.19 OOEP Zornitza Stark Gene: ooep has been classified as Red List (Low Evidence).
Imprinting disorders v0.19 OOEP Zornitza Stark Classified gene: OOEP as Red List (low evidence)
Imprinting disorders v0.19 OOEP Zornitza Stark Gene: ooep has been classified as Red List (Low Evidence).
Imprinting disorders v0.18 OOEP Zornitza Stark reviewed gene: OOEP: Rating: RED; Mode of pathogenicity: None; Publications: ; Phenotypes: ; Mode of inheritance: None
Mendeliome v0.9378 ZNF445 Zornitza Stark Marked gene: ZNF445 as ready
Mendeliome v0.9378 ZNF445 Zornitza Stark Gene: znf445 has been classified as Red List (Low Evidence).
Mendeliome v0.9378 ZNF445 Zornitza Stark gene: ZNF445 was added
gene: ZNF445 was added to Mendeliome. Sources: Literature
Mode of inheritance for gene: ZNF445 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ZNF445 were set to 34039421; 30602440; 30846001
Phenotypes for gene: ZNF445 were set to Temple syndrome; Multi locus imprinting disturbance (MLID)
Review for gene: ZNF445 was set to RED
Added comment: Single report (Kagami 2021) of a child with Temple syndrome and MLID found to have a novel homozygous truncating variant in ZNF445.

ZNF445 has been shown to play a critical role in the maintenance of postfertilisation methylation imprints (Takahashi 2019). Mechanism and parent of origin effects remain uncertain.
Sources: Literature
Imprinting disorders v0.18 ZNF445 Zornitza Stark Marked gene: ZNF445 as ready
Imprinting disorders v0.18 ZNF445 Zornitza Stark Gene: znf445 has been classified as Red List (Low Evidence).
Imprinting disorders v0.18 ZNF445 Zornitza Stark Classified gene: ZNF445 as Red List (low evidence)
Imprinting disorders v0.18 ZNF445 Zornitza Stark Gene: znf445 has been classified as Red List (Low Evidence).
Imprinting disorders v0.17 ZNF445 Zornitza Stark reviewed gene: ZNF445: Rating: RED; Mode of pathogenicity: None; Publications: ; Phenotypes: ; Mode of inheritance: None
Imprinting disorders v0.17 TLE6 Zornitza Stark Marked gene: TLE6 as ready
Imprinting disorders v0.17 TLE6 Zornitza Stark Gene: tle6 has been classified as Amber List (Moderate Evidence).
Imprinting disorders v0.17 TLE6 Zornitza Stark Classified gene: TLE6 as Amber List (moderate evidence)
Imprinting disorders v0.17 TLE6 Zornitza Stark Gene: tle6 has been classified as Amber List (Moderate Evidence).
Imprinting disorders v0.16 NLRP7 Zornitza Stark Publications for gene: NLRP7 were set to 19246479; 28916717; 31201414; 16462743; 29574422
Imprinting disorders v0.15 KHDC3L Zornitza Stark Marked gene: KHDC3L as ready
Imprinting disorders v0.15 KHDC3L Zornitza Stark Gene: khdc3l has been classified as Green List (High Evidence).
Imprinting disorders v0.15 KHDC3L Zornitza Stark Phenotypes for gene: KHDC3L were changed from Hydatiform mold recurrent 2 MIM#614293 to Hydatiform mole recurrent 2 MIM#614293
Imprinting disorders v0.14 KHDC3L Zornitza Stark Classified gene: KHDC3L as Green List (high evidence)
Imprinting disorders v0.14 KHDC3L Zornitza Stark Gene: khdc3l has been classified as Green List (High Evidence).
Imprinting disorders v0.13 KCNQ1 Anna Le Fevre changed review comment from: Proposed classification: Amber, pending further evidence.

The KCNQ1OT1:TSS DMR (imprinting control region 2; IC2) at 11p15.5 is located within KCNQ1 intron 10.

IC2 corresponds to the promoter of the long noncoding RNA KCNQ1OT1 and is methylated and inactive on the maternal chromosome. On the paternal chromosome, KCNQ1OT1 is transcribed and represses in cis the flanking imprinted genes, including the growth inhibitor CDKN1C, which is normally transcribed from the maternal allele. In 50% of the Beckwith-Wiedemann Syndrome (BWS) patients, loss of methylation (LOM) of IC2 leads to biallelic expression of KCNQ1OT1 and biallelic silencing of CDKN1C (PMID 30635621).

Pathogenic variants in KCNQ1 are associated with long-QT syndrome (LQTS) and can be inherited on the paternal or maternal allele.

Loss of methylation (LOM) of IC2 has been reported in a small number of individuals with KCNQ1 germline variants which additionally cause LQTS. Valente et al (PMID 30635621) reported three individuals with LQTS, features of BWS and LOM at IC2 and maternally inherited KCNQ1 variants, two of which were demonstrated to affect KCNQ1 transcription upstream of IC2. Essinger et al (PMID 32393365) analysed KCNQ1 in 52 individuals with LOM at IC2 and identified one individual with a splice site variant causing premature transcription termination.

Microdeletions of IC2 variably involving KCNQ1, CDKN1C and KCNQ1OT1 on the maternal allele have been identified in a small number of patients with BWS. LoF in CDKN1C is a known cause of BWS.

Beygo et al (PMID 30778172) demonstrated that disruption of KCNQ1 prevents methylation of IC2 supporting the hypothesis that transcription of KCNQ1 is required for establishing the maternal methylation imprint at IC2.
Sources: Literature; to: Proposed classification: Amber, pending further evidence.

The KCNQ1OT1:TSS DMR (imprinting control region 2; IC2) at 11p15.5 is located within KCNQ1 intron 10.

IC2 corresponds to the promoter of the long noncoding RNA KCNQ1OT1 and is methylated and inactive on the maternal chromosome. On the paternal chromosome, KCNQ1OT1 is transcribed and represses in cis the flanking imprinted genes, including the growth inhibitor CDKN1C, which is normally transcribed from the maternal allele. In 50% of the Beckwith-Wiedemann Syndrome (BWS) patients, loss of methylation (LOM) of IC2 leads to biallelic expression of KCNQ1OT1 and biallelic silencing of CDKN1C (PMID 30635621).

Pathogenic variants in KCNQ1 are associated with long-QT syndrome (LQTS) and can be inherited on the paternal or maternal allele.

Loss of methylation (LOM) of IC2 has been reported in a small number of individuals with KCNQ1 germline variants which additionally cause LQTS. Valente et al (PMID 30635621) reported three individuals with LQTS, features of BWS and LOM at IC2 and maternally inherited KCNQ1 variants, two of which were demonstrated to affect KCNQ1 transcription upstream of IC2. Essinger et al (PMID 32393365) analysed KCNQ1 in 52 individuals with LOM at IC2 and identified one individual with a splice site variant causing premature transcription termination.

Microdeletions of IC2 variably involving KCNQ1, CDKN1C and KCNQ1OT1 on the maternal allele have been identified in a small number of patients with BWS. Maternally inherited LoF variants in CDKN1C are a known cause of BWS.

Beygo et al (PMID 30778172) demonstrated that disruption of KCNQ1 prevents methylation of IC2 supporting the hypothesis that transcription of KCNQ1 is required for establishing the maternal methylation imprint at IC2.
Sources: Literature
Imprinting disorders v0.13 KCNQ1OT1 Anna Le Fevre changed review comment from: Proposed classification: Amber, pending further evidence that isolated intragenic variation in KCNQ1OT1 is definitively associated with a phenotype.

KCNQ1OT1 encodes the regulatory antisense non-coding RNA KCNQ1OT1 (KCNQ1 overlapping) and is located within the KCNQ1OT1:TSS DMR (imprinting control region 2; IC2) at 11p15.5. IC2 is located within KCNQ1 intron 10. KCNQ1OT1 is maternally imprinted and paternally expressed. On the paternal chromosome, KCNQ1OT1 is transcribed and represses in cis the flanking imprinted genes, including the growth inhibitor CDKN1C, which is normally transcribed from the maternal allele. In 50% of the BWS patients, loss of methylation (LOM) of IC2 leads to biallelic expression of KCNQ1OT1 and biallelic silencing of CDKN1C (PMID 30635621).

Single nucleotide variants within KCNQ1OT1 have not been definitively associated with human disease. A heterozygous maternally inherited non-coding variant was identified in an individual with isolated omphalocele. This variant was shown to alter the methylation pattern of the imprinted allele (PMID 29047350).

Eggerman et al (PMID 32447323) described a 132 base pair deletion within KCNQ1OT1 associated with growth retardation in the case of paternal but not maternal transmission. This intragenic deletion did not affect IC2 methylation.

Microdeletions of IC2 involving KCNQ1OT1 on the paternal allele have been identified in a small number of patients with Russell-Silver syndrome. Similarly, microdeletions of IC2 involving KCNQ1OT1 on the maternal allele have been identified in a small number of patients with BWS. These deletions also variably involve KCNQ1 or CDKN1C. LoF in CDKN1C is a known cause of BWS. There is some evidence to suggest that disruption of KCNQ1 prevents maternal methylation at IC2 (PMID 30778172). ; to: Proposed classification: Amber, pending further evidence that isolated intragenic variation in KCNQ1OT1 is definitively associated with a phenotype.

KCNQ1OT1 encodes the regulatory antisense non-coding RNA KCNQ1OT1 (KCNQ1 overlapping) and is located within the KCNQ1OT1:TSS DMR (imprinting control region 2; IC2) at 11p15.5. IC2 is located within KCNQ1 intron 10. KCNQ1OT1 is maternally imprinted and paternally expressed. On the paternal chromosome, KCNQ1OT1 is transcribed and represses in cis the flanking imprinted genes, including the growth inhibitor CDKN1C, which is normally transcribed from the maternal allele. In 50% of the BWS patients, loss of methylation (LOM) of IC2 leads to biallelic expression of KCNQ1OT1 and biallelic silencing of CDKN1C (PMID 30635621). Expression is increased in BWS due to IC2 epimutations or paternal UPD.

Single nucleotide variants within KCNQ1OT1 have not been definitively associated with human disease. A heterozygous maternally inherited non-coding variant was identified in an individual with isolated omphalocele. This variant was shown to alter the methylation pattern of the imprinted allele (PMID 29047350).

Eggerman et al (PMID 32447323) described a 132 base pair deletion within KCNQ1OT1 associated with growth retardation in the case of paternal but not maternal transmission. This intragenic deletion did not affect IC2 methylation.

Microdeletions of IC2 involving KCNQ1OT1 on the paternal allele have been identified in a small number of patients with Russell-Silver syndrome. Similarly, microdeletions of IC2 involving KCNQ1OT1 on the maternal allele have been identified in a small number of patients with BWS. These deletions also variably involve KCNQ1 or CDKN1C. LoF in CDKN1C is a known cause of BWS. There is some evidence to suggest that disruption of KCNQ1 prevents maternal methylation at IC2 (PMID 30778172).
Imprinting disorders v0.13 KCNQ1OT1 Anna Le Fevre changed review comment from: Proposed classification: Amber, pending further evidence that isolated intragenic variation in KCNQ1OT1 is definitively associated with a phenotype.

KCNQ1OT1 encodes the regulatory antisense non-coding RNA KCNQ1OT1 (KCNQ1 overlapping) and is located within the KCNQ1OT1:TSS DMR (imprinting control region 2; IC2) at 11p15.5. IC2 is located within KCNQ1 intron 10. KCNQ1OT1 is maternally imprinted and paternally expressed. On the paternal chromosome, KCNQ1OT1 is transcribed and represses in cis the flanking imprinted genes, including the growth inhibitor CDKN1C, which is normally transcribed from the maternal allele. In 50% of the BWS patients, loss of methylation (LOM) of IC2 leads to biallelic expression of KCNQ1OT1 and biallelic silencing of CDKN1C.

Single nucleotide variants within KCNQ1OT1 have not been definitively associated with human disease. A heterozygous maternally inherited non-coding variant was identified in an individual with isolated omphalocele. This variant was shown to alter the methylation pattern of the imprinted allele (PMID 29047350).

Eggerman et al (PMID 32447323) described a 132 base pair deletion within KCNQ1OT1 associated with growth retardation in the case of paternal but not maternal transmission. This intragenic deletion did not affect IC2 methylation.

Microdeletions of IC2 involving KCNQ1OT1 on the paternal allele have been identified in a small number of patients with Russell-Silver syndrome. Similarly, microdeletions of IC2 involving KCNQ1OT1 on the maternal allele have been identified in a small number of patients with BWS. These deletions also variably involve KCNQ1 or CDKN1C. LoF in CDKN1C is a known cause of BWS. There is some evidence to suggest that disruption of KCNQ1 prevents maternal methylation at IC2 (PMID 30778172). ; to: Proposed classification: Amber, pending further evidence that isolated intragenic variation in KCNQ1OT1 is definitively associated with a phenotype.

KCNQ1OT1 encodes the regulatory antisense non-coding RNA KCNQ1OT1 (KCNQ1 overlapping) and is located within the KCNQ1OT1:TSS DMR (imprinting control region 2; IC2) at 11p15.5. IC2 is located within KCNQ1 intron 10. KCNQ1OT1 is maternally imprinted and paternally expressed. On the paternal chromosome, KCNQ1OT1 is transcribed and represses in cis the flanking imprinted genes, including the growth inhibitor CDKN1C, which is normally transcribed from the maternal allele. In 50% of the BWS patients, loss of methylation (LOM) of IC2 leads to biallelic expression of KCNQ1OT1 and biallelic silencing of CDKN1C (PMID 30635621).

Single nucleotide variants within KCNQ1OT1 have not been definitively associated with human disease. A heterozygous maternally inherited non-coding variant was identified in an individual with isolated omphalocele. This variant was shown to alter the methylation pattern of the imprinted allele (PMID 29047350).

Eggerman et al (PMID 32447323) described a 132 base pair deletion within KCNQ1OT1 associated with growth retardation in the case of paternal but not maternal transmission. This intragenic deletion did not affect IC2 methylation.

Microdeletions of IC2 involving KCNQ1OT1 on the paternal allele have been identified in a small number of patients with Russell-Silver syndrome. Similarly, microdeletions of IC2 involving KCNQ1OT1 on the maternal allele have been identified in a small number of patients with BWS. These deletions also variably involve KCNQ1 or CDKN1C. LoF in CDKN1C is a known cause of BWS. There is some evidence to suggest that disruption of KCNQ1 prevents maternal methylation at IC2 (PMID 30778172).
Imprinting disorders v0.13 KCNQ1OT1 Anna Le Fevre changed review comment from: Proposed classification: Amber, pending further evidence that isolated intragenic variation in KCNQ1OT1 is definitively associated with a phenotype.

KCNQ1OT1 encodes the regulatory antisense non-coding RNA KCNQ1OT1 (KCNQ1 overlapping) and is located within the KCNQ1OT1:TSS DMR (imprinting control region 2; IC2) at 11p15.5. IC2 is located within KCNQ1 intron 10. KCNQ1OT1 is maternally imprinted and paternally expressed. On the paternal chromosome, KCNQ1OT1 is transcribed and represses in cis the flanking imprinted genes, including the growth inhibitor CDKN1C, which is normally transcribed from the maternal allele. In 50% of the BWS patients, loss of methylation (LOM) of IC2 leads to biallelic expression of KCNQ1OT1 and biallelic silencing of CDKN1C.

Single nucleotide variants within KCNQ1OT1 have not been definitively association with human disease. A heterozygous maternally inherited non-coding variant was identified in an individual with isolated omphalocele. This variant was shown to alter the methylation pattern of the imprinted allele (PMID 29047350).

Eggerman et al (PMID 32447323) described a 132 base pair deletion within KCNQ1OT1 associated with growth retardation in the case of paternal but not maternal transmission. This intragenic deletion did not affect IC2 methylation.

Microdeletions of IC2 involving KCNQ1OT1 on the paternal allele have been identified in a small number of patients with Russell-Silver syndrome. Similarly, microdeletions of IC2 involving KCNQ1OT1 on the maternal allele have been identified in a small number of patients with BWS. These deletions also variably involve KCNQ1 or CDKN1C. LoF in CDKN1C is a known cause of BWS. There is some evidence to suggest that disruption of KCNQ1 prevents maternal methylation at IC2 (PMID 30778172). ; to: Proposed classification: Amber, pending further evidence that isolated intragenic variation in KCNQ1OT1 is definitively associated with a phenotype.

KCNQ1OT1 encodes the regulatory antisense non-coding RNA KCNQ1OT1 (KCNQ1 overlapping) and is located within the KCNQ1OT1:TSS DMR (imprinting control region 2; IC2) at 11p15.5. IC2 is located within KCNQ1 intron 10. KCNQ1OT1 is maternally imprinted and paternally expressed. On the paternal chromosome, KCNQ1OT1 is transcribed and represses in cis the flanking imprinted genes, including the growth inhibitor CDKN1C, which is normally transcribed from the maternal allele. In 50% of the BWS patients, loss of methylation (LOM) of IC2 leads to biallelic expression of KCNQ1OT1 and biallelic silencing of CDKN1C.

Single nucleotide variants within KCNQ1OT1 have not been definitively associated with human disease. A heterozygous maternally inherited non-coding variant was identified in an individual with isolated omphalocele. This variant was shown to alter the methylation pattern of the imprinted allele (PMID 29047350).

Eggerman et al (PMID 32447323) described a 132 base pair deletion within KCNQ1OT1 associated with growth retardation in the case of paternal but not maternal transmission. This intragenic deletion did not affect IC2 methylation.

Microdeletions of IC2 involving KCNQ1OT1 on the paternal allele have been identified in a small number of patients with Russell-Silver syndrome. Similarly, microdeletions of IC2 involving KCNQ1OT1 on the maternal allele have been identified in a small number of patients with BWS. These deletions also variably involve KCNQ1 or CDKN1C. LoF in CDKN1C is a known cause of BWS. There is some evidence to suggest that disruption of KCNQ1 prevents maternal methylation at IC2 (PMID 30778172).
Imprinting disorders v0.13 KCNQ1OT1 Anna Le Fevre changed review comment from: Proposed classification: Amber, pending further evidence that isolated intragenic variation in KCNQ1OT1 is definitively associated with a phenotype.

KCNQ1OT1 encodes the regulatory antisense non-coding RNA KCNQ1OT1 (KCNQ1 overlapping) and is located within the KCNQ1OT1:TSS DMR (imprinting control region 2; IC2) at 11p15.5. KCNQ1OT1 is maternally imprinted and paternally expressed.

Single nucleotide variants within KCNQ1OT1 have not been definitively association with human disease. A heterozygous maternally inherited non-coding variant was identified in an individual with isolated omphalocele. This variant was shown to alter the methylation pattern of the imprinted allele (PMID 29047350).

Eggerman et al (PMID 32447323) described a 132 base pair deletion within KCNQ1OT1 associated with growth retardation in the case of paternal but not maternal transmission. This intragenic deletion did not affect IC2 methylation.

Microdeletions of IC2 involving KCNQ1OT1 on the paternal allele have been identified in a small number of patients with Russell-Silver syndrome. Similarly, microdeletions of IC2 involving KCNQ1OT1 on the maternal allele have been identified in a small number of patients with BWS. These deletions also variably involve KCNQ1 or CDKN1C. LoF in CDKN1C is a known cause of BWS. There is some evidence to suggest that disruption of KCNQ1 prevents maternal methylation at IC2 (PMID 30778172).

Genomic analysis of KCNQ1OT1 was not recommended as part of the diagnostic algorithm for suspected BWS in a 2018 international consensus review (PMID 29377879).; to: Proposed classification: Amber, pending further evidence that isolated intragenic variation in KCNQ1OT1 is definitively associated with a phenotype.

KCNQ1OT1 encodes the regulatory antisense non-coding RNA KCNQ1OT1 (KCNQ1 overlapping) and is located within the KCNQ1OT1:TSS DMR (imprinting control region 2; IC2) at 11p15.5. IC2 is located within KCNQ1 intron 10. KCNQ1OT1 is maternally imprinted and paternally expressed. On the paternal chromosome, KCNQ1OT1 is transcribed and represses in cis the flanking imprinted genes, including the growth inhibitor CDKN1C, which is normally transcribed from the maternal allele. In 50% of the BWS patients, loss of methylation (LOM) of IC2 leads to biallelic expression of KCNQ1OT1 and biallelic silencing of CDKN1C.

Single nucleotide variants within KCNQ1OT1 have not been definitively association with human disease. A heterozygous maternally inherited non-coding variant was identified in an individual with isolated omphalocele. This variant was shown to alter the methylation pattern of the imprinted allele (PMID 29047350).

Eggerman et al (PMID 32447323) described a 132 base pair deletion within KCNQ1OT1 associated with growth retardation in the case of paternal but not maternal transmission. This intragenic deletion did not affect IC2 methylation.

Microdeletions of IC2 involving KCNQ1OT1 on the paternal allele have been identified in a small number of patients with Russell-Silver syndrome. Similarly, microdeletions of IC2 involving KCNQ1OT1 on the maternal allele have been identified in a small number of patients with BWS. These deletions also variably involve KCNQ1 or CDKN1C. LoF in CDKN1C is a known cause of BWS. There is some evidence to suggest that disruption of KCNQ1 prevents maternal methylation at IC2 (PMID 30778172).
Imprinting disorders v0.13 KCNQ1 Anna Le Fevre gene: KCNQ1 was added
gene: KCNQ1 was added to Imprinting disorders. Sources: Literature
Mode of inheritance for gene: KCNQ1 was set to MONOALLELIC, autosomal or pseudoautosomal, paternally imprinted (maternal allele expressed)
Publications for gene: KCNQ1 were set to PMID 30635621; 32393365; 30778172
Phenotypes for gene: KCNQ1 were set to Beckwith-Wiedemann Syndrome
Penetrance for gene: KCNQ1 were set to unknown
Review for gene: KCNQ1 was set to AMBER
Added comment: Proposed classification: Amber, pending further evidence.

The KCNQ1OT1:TSS DMR (imprinting control region 2; IC2) at 11p15.5 is located within KCNQ1 intron 10.

IC2 corresponds to the promoter of the long noncoding RNA KCNQ1OT1 and is methylated and inactive on the maternal chromosome. On the paternal chromosome, KCNQ1OT1 is transcribed and represses in cis the flanking imprinted genes, including the growth inhibitor CDKN1C, which is normally transcribed from the maternal allele. In 50% of the Beckwith-Wiedemann Syndrome (BWS) patients, loss of methylation (LOM) of IC2 leads to biallelic expression of KCNQ1OT1 and biallelic silencing of CDKN1C (PMID 30635621).

Pathogenic variants in KCNQ1 are associated with long-QT syndrome (LQTS) and can be inherited on the paternal or maternal allele.

Loss of methylation (LOM) of IC2 has been reported in a small number of individuals with KCNQ1 germline variants which additionally cause LQTS. Valente et al (PMID 30635621) reported three individuals with LQTS, features of BWS and LOM at IC2 and maternally inherited KCNQ1 variants, two of which were demonstrated to affect KCNQ1 transcription upstream of IC2. Essinger et al (PMID 32393365) analysed KCNQ1 in 52 individuals with LOM at IC2 and identified one individual with a splice site variant causing premature transcription termination.

Microdeletions of IC2 variably involving KCNQ1, CDKN1C and KCNQ1OT1 on the maternal allele have been identified in a small number of patients with BWS. LoF in CDKN1C is a known cause of BWS.

Beygo et al (PMID 30778172) demonstrated that disruption of KCNQ1 prevents methylation of IC2 supporting the hypothesis that transcription of KCNQ1 is required for establishing the maternal methylation imprint at IC2.
Sources: Literature
Imprinting disorders v0.13 KCNQ1OT1 Anna Le Fevre changed review comment from: Proposed classification: Amber, pending further evidence that isolated intragenic variation in KCNQ1OT1 is definitively associated with a phenotype.

KCNQ1OT1 encodes the regulatory antisense non-coding RNA KCNQ1OT1 (KCNQ1 overlapping) and is located within the KCNQ1OT1:TSS DMR (imprinting control region 2; IC2) at 11p15.5. KCNQ1OT1 is maternally imprinted and paternally expressed.

Single nucleotide variants within KCNQ1OT1 have not been definitively association with human disease. A heterozygous maternally inherited non-coding variant was identified in an individual with isolated omphalocele. This variant was shown to alter the methylation pattern of the imprinted allele (PMID 29047350).

Eggerman et al (PMID 32447323) described a 132 base pair deletion within KCNQ1OT1 associated with growth retardation in the case of paternal but not maternal transmission. This intragenic deletion did not affect IC2 methylation.

Microdeletions of IC2 involving KCNQ1OT1 on the paternal allele have been identified in a small number of patients with Russell-Silver syndrome. Similarly, microdeletions of IC2 involving KCNQ1OT1 on the maternal allele have been identified in a small number of patients with BWS. These deletions also variably involve KCNQ1 or CDKN1C. LOF in CDKN1C is a known cause of BWS. There is some evidence to suggest that disruption of KCNQ1 prevents maternal methylation at IC2 (PMID 30778172).

Genomic analysis of KCNQ1OT1 was not recommended as part of the diagnostic algorithm for suspected BWS in a 2018 international consensus review (PMID 29377879).; to: Proposed classification: Amber, pending further evidence that isolated intragenic variation in KCNQ1OT1 is definitively associated with a phenotype.

KCNQ1OT1 encodes the regulatory antisense non-coding RNA KCNQ1OT1 (KCNQ1 overlapping) and is located within the KCNQ1OT1:TSS DMR (imprinting control region 2; IC2) at 11p15.5. KCNQ1OT1 is maternally imprinted and paternally expressed.

Single nucleotide variants within KCNQ1OT1 have not been definitively association with human disease. A heterozygous maternally inherited non-coding variant was identified in an individual with isolated omphalocele. This variant was shown to alter the methylation pattern of the imprinted allele (PMID 29047350).

Eggerman et al (PMID 32447323) described a 132 base pair deletion within KCNQ1OT1 associated with growth retardation in the case of paternal but not maternal transmission. This intragenic deletion did not affect IC2 methylation.

Microdeletions of IC2 involving KCNQ1OT1 on the paternal allele have been identified in a small number of patients with Russell-Silver syndrome. Similarly, microdeletions of IC2 involving KCNQ1OT1 on the maternal allele have been identified in a small number of patients with BWS. These deletions also variably involve KCNQ1 or CDKN1C. LoF in CDKN1C is a known cause of BWS. There is some evidence to suggest that disruption of KCNQ1 prevents maternal methylation at IC2 (PMID 30778172).

Genomic analysis of KCNQ1OT1 was not recommended as part of the diagnostic algorithm for suspected BWS in a 2018 international consensus review (PMID 29377879).
Imprinting disorders v0.13 KCNQ1OT1 Anna Le Fevre changed review comment from: Proposed classification: Amber, pending further evidence that isolated intragenic variation in KCNQ1OT1 is definitively associated with a phenotype.

KCNQ1OT1 encodes the regulatory non-coding RNA KCNQ1OT1 and is located within the KCNQ1OT1:TSS DMR (imprinting control region 2; IC2) at 11p15.5. KCNQ1OT1 is maternally imprinted and paternally expressed.

Single nucleotide variants within KCNQ1OT1 have not been definitively association with human disease. A heterozygous maternally inherited non-coding variant was identified in an individual with isolated omphalocele. This variant was shown to alter the methylation pattern of the imprinted allele (PMID 29047350).

Eggerman et al (PMID 32447323) described a 132 base pair deletion within KCNQ1OT1 associated with growth retardation in the case of paternal but not maternal transmission. This intragenic deletion did not affect IC2 methylation.

Microdeletions of IC2 involving KCNQ1OT1 on the paternal allele have been identified in a small number of patients with Russell-Silver syndrome. Similarly, microdeletions of IC2 involving KCNQ1OT1 on the maternal allele have been identified in a small number of patients with BWS. These deletions also variably involved neighboring genes KCNQ1 or CDKN1C. LOF in CDKN1C is a known cause of BWS. There is some evidence to suggest that disruption of KCNQ1 prevents maternal methylation at IC2 (PMID 30778172).

Genomic analysis of KCNQ1OT1 was not recommended as part of the diagnostic algorithm for suspected BWS in a 2018 international consensus review (PMID 29377879).; to: Proposed classification: Amber, pending further evidence that isolated intragenic variation in KCNQ1OT1 is definitively associated with a phenotype.

KCNQ1OT1 encodes the regulatory antisense non-coding RNA KCNQ1OT1 (KCNQ1 overlapping) and is located within the KCNQ1OT1:TSS DMR (imprinting control region 2; IC2) at 11p15.5. KCNQ1OT1 is maternally imprinted and paternally expressed.

Single nucleotide variants within KCNQ1OT1 have not been definitively association with human disease. A heterozygous maternally inherited non-coding variant was identified in an individual with isolated omphalocele. This variant was shown to alter the methylation pattern of the imprinted allele (PMID 29047350).

Eggerman et al (PMID 32447323) described a 132 base pair deletion within KCNQ1OT1 associated with growth retardation in the case of paternal but not maternal transmission. This intragenic deletion did not affect IC2 methylation.

Microdeletions of IC2 involving KCNQ1OT1 on the paternal allele have been identified in a small number of patients with Russell-Silver syndrome. Similarly, microdeletions of IC2 involving KCNQ1OT1 on the maternal allele have been identified in a small number of patients with BWS. These deletions also variably involve KCNQ1 or CDKN1C. LOF in CDKN1C is a known cause of BWS. There is some evidence to suggest that disruption of KCNQ1 prevents maternal methylation at IC2 (PMID 30778172).

Genomic analysis of KCNQ1OT1 was not recommended as part of the diagnostic algorithm for suspected BWS in a 2018 international consensus review (PMID 29377879).
Imprinting disorders v0.13 KCNQ1OT1 Anna Le Fevre reviewed gene: KCNQ1OT1: Rating: AMBER; Mode of pathogenicity: None; Publications: PMID: 29377879, 10220444, 32447323, 33177595, 29047350; Phenotypes: Growth restriction, Beckwith-Wiedemann Syndrome, Russell-Silver Syndrome; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, maternally imprinted (paternal allele expressed)
Imprinting disorders v0.13 L3MBTL1 Anna Le Fevre reviewed gene: L3MBTL1: Rating: RED; Mode of pathogenicity: None; Publications: 23543057; Phenotypes: ; Mode of inheritance: None
Imprinting disorders v0.13 ZAR1 Anna Le Fevre gene: ZAR1 was added
gene: ZAR1 was added to Imprinting disorders. Sources: Literature
Mode of inheritance for gene: ZAR1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ZAR1 were set to 29574422; 31598710; 12539046
Phenotypes for gene: ZAR1 were set to Multi locus imprinting disturbance in offspring
Penetrance for gene: ZAR1 were set to unknown
Review for gene: ZAR1 was set to AMBER
Added comment: Proposed classification: Amber, pending further evidence.

Single report of biallelic variants in this gene in a mother of a child with Multi locus imprinting disturbance (MLID) with some features of Beckwith Wiedemann Syndrome.

Shown to be a maternal effect gene that functions at the oocyte to embryo transition.
Sources: Literature
Imprinting disorders v0.13 UHRF1 Anna Le Fevre gene: UHRF1 was added
gene: UHRF1 was added to Imprinting disorders. Sources: Literature
Mode of inheritance for gene: UHRF1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: UHRF1 were set to 29574422; 28976982
Phenotypes for gene: UHRF1 were set to Multi locus imprinting disturbance in offspring
Penetrance for gene: UHRF1 were set to unknown
Review for gene: UHRF1 was set to AMBER
Added comment: Proposed classification: Amber, pending further evidence.

Single report of biallelic variants in this gene in a mother of a child with Multi locus imprinting disturbance (MLID) and Silver Russell Syndrome phenotype.

Maenohara et al demonstrate functions of UHRF1 during the global epigenetic reprogramming of oocytes and early embryos.
Sources: Literature
Imprinting disorders v0.13 OOEP Anna Le Fevre gene: OOEP was added
gene: OOEP was added to Imprinting disorders. Sources: Literature
Mode of inheritance for gene: OOEP was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: OOEP were set to 29574422
Phenotypes for gene: OOEP were set to Multi locus imprinting disturbance in offspring
Penetrance for gene: OOEP were set to unknown
Review for gene: OOEP was set to AMBER
Added comment: Proposed classification: Amber, pending further evidence.

Single report of biallelic variants in this gene in a mother of a child with Multi locus imprinting disturbance (MLID) and a transient neonatal diabetes mellitus phenotype.

This gene encodes part of the subcortical maternal complex (SCMC). Other genes in this group act as 'maternal effect' genes and are associated with early embryonic arrest, recurrent hydatiform mole and MLID in offspring.

As is the case for other genes encoding components of the SCMC, the pathogenicity of variants can be difficult to establish as reproductive outcomes are not recorded in genomic databases and variants may be listed in population databases as they are not classed as pathogenic in males or women with no reproductive history.

Functional studies of genes encoding components of the SCMC are limited as their expression is restricted to the oocyte and early embryo.
Sources: Literature
Imprinting disorders v0.13 TLE6 Anna Le Fevre gene: TLE6 was added
gene: TLE6 was added to Imprinting disorders. Sources: Literature
Mode of inheritance for gene: TLE6 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: TLE6 were set to 26537248; 25542835
Phenotypes for gene: TLE6 were set to Pre-implantation embryonic lethality MIM#616814
Penetrance for gene: TLE6 were set to unknown
Review for gene: TLE6 was set to AMBER
Added comment: The first report of a single homozygous missense variant in three women from two families with primary infertility was published in 2015. In 2021, Zheng et al reported six biallelic variants in TLE6 in five patients with embryonic arrest, accompanied by direct cleavage and severe fragmentation at the cleavage stage. A mechanism is proposed.

I am uncertain regarding classification of this gene (amber vs green) due to the low specificity of this phenotype. I am uncertain if the changes seen in the early embryo, such as fragmentation, make this phenotype more specific.

As is the case for other genes encoding components of the subcortical maternal complex (SCMC), the pathogenicity of variants can be difficult to establish as reproductive outcomes are not recorded in genomic databases and variants may be listed in population databases as they are not classed as pathogenic in males or women with no reproductive history.

Functional studies of genes encoding components of the SCMC are limited as their expression is restricted to the oocyte and early embryo.
Sources: Literature
Imprinting disorders v0.13 NLRP7 Anna Le Fevre edited their review of gene: NLRP7: Added comment: There is one report of an individual with recurrent hydatiform mole and biallelic variants in this gene who experienced a single digynic triploid pregnancy presenting as a CHM, whereas other pregnancies were BiCHM (23125094).; Changed publications: 16462743, 28561018, 29574422, 19246479, 22315435, 19066229, 23722513, 23125094
Imprinting disorders v0.13 KHDC3L Anna Le Fevre gene: KHDC3L was added
gene: KHDC3L was added to Imprinting disorders. Sources: Literature
Mode of inheritance for gene: KHDC3L was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Publications for gene: KHDC3L were set to 23232697; 31847873; 23125094; 21885028
Phenotypes for gene: KHDC3L were set to Hydatiform mold recurrent 2 MIM#614293
Penetrance for gene: KHDC3L were set to unknown
Review for gene: KHDC3L was set to GREEN
Added comment: Biallelic pathogenic variants in the gene have been associated with Biparental complete hydatifom mole (BiCHM) in multiple individuals. There is one report of an individual with recurrent hydatiform mole and biallelic variants in this gene who experienced a single digynic triploid pregnancy presenting as a CHM, whereas other pregnancies were BiCHM (23125094).

Most reported individuals have been found to carry biallelic pathogenic variants in this gene. A minority have been found to carry a heterozygous variant only. A relationship between zygosity and severity of the condition has not been definitively established.

As is the case for other genes encoding components of the subcortical maternal complex (SCMC), the pathogenicity of variants can be difficult to establish as reproductive outcomes are not recorded in genomic databases and variants may be listed in population databases as they are not classed as pathogenic in males or women with no reproductive history.

Functional studies of genes encoding components of the SCMC are limited as their expression is restricted to the oocyte and early embryo.
Sources: Literature
Mendeliome v0.9377 NSRP1 Zornitza Stark Marked gene: NSRP1 as ready
Mendeliome v0.9377 NSRP1 Zornitza Stark Gene: nsrp1 has been classified as Green List (High Evidence).
Mendeliome v0.9377 NSRP1 Zornitza Stark Classified gene: NSRP1 as Green List (high evidence)
Mendeliome v0.9377 NSRP1 Zornitza Stark Gene: nsrp1 has been classified as Green List (High Evidence).
Mendeliome v0.9376 NSRP1 Zornitza Stark gene: NSRP1 was added
gene: NSRP1 was added to Mendeliome. Sources: Literature
Mode of inheritance for gene: NSRP1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: NSRP1 were set to 34385670
Phenotypes for gene: NSRP1 were set to Epilepsy; Cerebral palsy; microcephaly; Intellectual disability
Review for gene: NSRP1 was set to GREEN
Added comment: Novel gene regulating splicing. Biallelic LoF pathogenic variants reported in 6 individuals from 3 unrelated families associated with a phenotype characterized by developmental delay, epilepsy, microcephaly, and spastic cerebral palsy.
Sources: Literature
Intellectual disability syndromic and non-syndromic v0.4204 NSRP1 Zornitza Stark Marked gene: NSRP1 as ready
Intellectual disability syndromic and non-syndromic v0.4204 NSRP1 Zornitza Stark Gene: nsrp1 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4204 NSRP1 Zornitza Stark Classified gene: NSRP1 as Green List (high evidence)
Intellectual disability syndromic and non-syndromic v0.4204 NSRP1 Zornitza Stark Gene: nsrp1 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4203 NSRP1 Zornitza Stark reviewed gene: NSRP1: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: ; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Microcephaly v1.62 NSRP1 Zornitza Stark Marked gene: NSRP1 as ready
Microcephaly v1.62 NSRP1 Zornitza Stark Gene: nsrp1 has been classified as Green List (High Evidence).
Microcephaly v1.62 NSRP1 Zornitza Stark Classified gene: NSRP1 as Green List (high evidence)
Microcephaly v1.62 NSRP1 Zornitza Stark Gene: nsrp1 has been classified as Green List (High Evidence).
Microcephaly v1.61 NSRP1 Zornitza Stark reviewed gene: NSRP1: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: ; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Cerebral Palsy v1.17 NSRP1 Zornitza Stark Marked gene: NSRP1 as ready
Cerebral Palsy v1.17 NSRP1 Zornitza Stark Gene: nsrp1 has been classified as Green List (High Evidence).
Cerebral Palsy v1.17 NSRP1 Zornitza Stark Classified gene: NSRP1 as Green List (high evidence)
Cerebral Palsy v1.17 NSRP1 Zornitza Stark Gene: nsrp1 has been classified as Green List (High Evidence).
Cerebral Palsy v1.16 NSRP1 Zornitza Stark reviewed gene: NSRP1: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: ; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Genetic Epilepsy v0.1317 NSRP1 Zornitza Stark Marked gene: NSRP1 as ready
Genetic Epilepsy v0.1317 NSRP1 Zornitza Stark Gene: nsrp1 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1317 NSRP1 Zornitza Stark Classified gene: NSRP1 as Green List (high evidence)
Genetic Epilepsy v0.1317 NSRP1 Zornitza Stark Gene: nsrp1 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1316 NSRP1 Zornitza Stark reviewed gene: NSRP1: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: ; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Imprinting disorders v0.13 NLRP2 Zornitza Stark Marked gene: NLRP2 as ready
Imprinting disorders v0.13 NLRP2 Zornitza Stark Gene: nlrp2 has been classified as Green List (High Evidence).
Imprinting disorders v0.13 NLRP2 Zornitza Stark Phenotypes for gene: NLRP2 were changed from Beckwith-Wiedemann syndrome due to imprinting defect of 11p15 MONDO:0016475 to Beckwith-Wiedemann syndrome due to imprinting defect of 11p15 MONDO:0016475; Early embryonic arrest; Multi locus imprinting disturbance in offspring
Imprinting disorders v0.12 NLRP2 Zornitza Stark reviewed gene: NLRP2: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: ; Mode of inheritance: None
Imprinting disorders v0.12 PADI6 Zornitza Stark Marked gene: PADI6 as ready
Imprinting disorders v0.12 PADI6 Zornitza Stark Gene: padi6 has been classified as Green List (High Evidence).
Imprinting disorders v0.12 PADI6 Zornitza Stark Mode of inheritance for gene: PADI6 was changed from BOTH monoallelic and biallelic (but BIALLELIC mutations cause a more SEVERE disease form), autosomal or pseudoautosomal to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Imprinting disorders v0.11 NLRP7 Zornitza Stark Marked gene: NLRP7 as ready
Imprinting disorders v0.11 NLRP7 Zornitza Stark Gene: nlrp7 has been classified as Green List (High Evidence).
Imprinting disorders v0.11 NLRP7 Zornitza Stark Mode of inheritance for gene: NLRP7 was changed from BOTH monoallelic and biallelic (but BIALLELIC mutations cause a more SEVERE disease form), autosomal or pseudoautosomal to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Mendeliome v0.9375 ERGIC1 Zornitza Stark Publications for gene: ERGIC1 were set to 28317099; 34037256
Mendeliome v0.9374 ERGIC1 Zornitza Stark Classified gene: ERGIC1 as Green List (high evidence)
Mendeliome v0.9374 ERGIC1 Zornitza Stark Gene: ergic1 has been classified as Green List (High Evidence).
Mendeliome v0.9373 ERGIC1 Zornitza Stark edited their review of gene: ERGIC1: Added comment: Pehlivan et al. 2019 (PMID:31230720) identified the third case of arthrogryposis in a child who harboured a previously unreported homozygous variant (c.782G>A; p.Gly261Asp) in this gene. Parents were heterozygous carriers. Functional studies were not performed.; Changed rating: GREEN; Changed publications: 28317099, 34037256, 31230720
Arthrogryposis v0.303 ERGIC1 Zornitza Stark Publications for gene: ERGIC1 were set to 28317099, 34037256; 31230720
Arthrogryposis v0.302 ERGIC1 Zornitza Stark Publications for gene: ERGIC1 were set to PMID: 28317099, 34037256
Arthrogryposis v0.301 ERGIC1 Zornitza Stark Classified gene: ERGIC1 as Green List (high evidence)
Arthrogryposis v0.301 ERGIC1 Zornitza Stark Gene: ergic1 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4203 NSRP1 Krithika Murali gene: NSRP1 was added
gene: NSRP1 was added to Intellectual disability syndromic and non-syndromic. Sources: Literature
Mode of inheritance for gene: NSRP1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: NSRP1 were set to 34385670
Phenotypes for gene: NSRP1 were set to Epilepsy; Cerebral palsy; microcephaly; Intellectual disability
Review for gene: NSRP1 was set to AMBER
Added comment: Novel gene regulating splicing. Biallelic LoF pathogenic variants reported in 6 individuals from 3 unrelated families associated with a phenotype characterized by developmental delay, epilepsy, microcephaly, and spastic cerebral palsy.
Sources: Literature
Microcephaly v1.61 NSRP1 Krithika Murali gene: NSRP1 was added
gene: NSRP1 was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: NSRP1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: NSRP1 were set to 34385670
Phenotypes for gene: NSRP1 were set to Epilepsy; Cerebral palsy; microcephaly; Intellectual disability
Review for gene: NSRP1 was set to AMBER
Added comment: Novel gene regulating splicing. Biallelic LoF pathogenic variants reported in 6 individuals from 3 unrelated families associated with a phenotype characterized by developmental delay, epilepsy, microcephaly, and spastic cerebral palsy.
Sources: Literature
Cerebral Palsy v1.16 NSRP1 Krithika Murali gene: NSRP1 was added
gene: NSRP1 was added to Cerebral Palsy. Sources: Literature
Mode of inheritance for gene: NSRP1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: NSRP1 were set to 34385670
Phenotypes for gene: NSRP1 were set to Epilepsy; Cerebral palsy; microcephaly; Intellectual disability
Review for gene: NSRP1 was set to AMBER
Added comment: Novel gene regulating splicing. Biallelic LoF pathogenic variants reported in 6 individuals from 3 unrelated families associated with a phenotype characterized by developmental delay, epilepsy, microcephaly, and spastic cerebral palsy.
Sources: Literature
Genetic Epilepsy v0.1316 NSRP1 Krithika Murali gene: NSRP1 was added
gene: NSRP1 was added to Genetic Epilepsy. Sources: Expert list,Literature
Mode of inheritance for gene: NSRP1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: NSRP1 were set to 34385670
Phenotypes for gene: NSRP1 were set to Epilepsy; Cerebral palsy; microcephaly; Intellectual disability
Review for gene: NSRP1 was set to AMBER
Added comment: Novel gene regulating splicing. Biallelic LoF pathogenic variants reported in 6 individuals from 3 unrelated families associated with a phenotype characterized by developmental delay, epilepsy, microcephaly, and spastic cerebral palsy.
Sources: Expert list, Literature
Imprinting disorders v0.10 NLRP2 Anna Le Fevre reviewed gene: NLRP2: Rating: ; Mode of pathogenicity: None; Publications: PMID: 30877238, 28317850, 29574422; Phenotypes: Early embryonic arrest, Multi locus imprinting disturbance in offspring; Mode of inheritance: None
Imprinting disorders v0.10 PADI6 Anna Le Fevre reviewed gene: PADI6: Rating: GREEN; Mode of pathogenicity: None; Publications: PMID: 29693651, 33583041, 329228291, 33221824, 27545678; Phenotypes: Pre-implantation embryonic lethality 2 MIM#617234, Multi locus imprinting disturbance in offspring, Recurrent hydatiform mole; Mode of inheritance: BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Intellectual disability syndromic and non-syndromic v0.4203 GABRD Zornitza Stark Marked gene: GABRD as ready
Intellectual disability syndromic and non-syndromic v0.4203 GABRD Zornitza Stark Gene: gabrd has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4203 GABRD Zornitza Stark Classified gene: GABRD as Green List (high evidence)
Intellectual disability syndromic and non-syndromic v0.4203 GABRD Zornitza Stark Gene: gabrd has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4202 GABRD Zornitza Stark gene: GABRD was added
gene: GABRD was added to Intellectual disability syndromic and non-syndromic. Sources: Literature
Mode of inheritance for gene: GABRD was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: GABRD were set to 15115768; 34633442
Phenotypes for gene: GABRD were set to Intellectual disability; Epilepsy; Susceptibility to epilepsy, MIM#613060
Review for gene: GABRD was set to GREEN
Added comment: Susceptibility to epilepsy, MIM#613060: Limited reports. The variant originally reported in PMID 15115768 in association with epilepsy is present in >4,000 hets in gnomad and 55 homs which is not consistent with a Mendelian disorder.

PMID 34633442: 10 individuals with 7 unique variants reported in individuals with neurodevelopmental disorders and epilepsy. Six of the variants were demonstrated to be GoF, and those individuals with neurodevelopmental disorders with behavioural issues, various degrees of intellectual disability, generalized epilepsy with atypical absences and generalized myoclonic and/or bilateral tonic-clonic seizures. In contrast, the one individual carrying a loss-of-function variant had normal intelligence, no seizure history but has a diagnosis of autism spectrum disorder and suffering from elevated internalizing psychiatric symptoms.
Sources: Literature
Genetic Epilepsy v0.1316 GABRD Zornitza Stark Marked gene: GABRD as ready
Genetic Epilepsy v0.1316 GABRD Zornitza Stark Gene: gabrd has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1316 GABRD Zornitza Stark Classified gene: GABRD as Green List (high evidence)
Genetic Epilepsy v0.1316 GABRD Zornitza Stark Gene: gabrd has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1315 GABRD Zornitza Stark gene: GABRD was added
gene: GABRD was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: GABRD was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: GABRD were set to 15115768; 34633442
Phenotypes for gene: GABRD were set to Intellectual disability; Epilepsy; Susceptibility to epilepsy, MIM#613060
Review for gene: GABRD was set to GREEN
Added comment: Susceptibility to epilepsy, MIM#613060: Limited reports. The variant originally reported in PMID 15115768 in association with epilepsy is present in >4,000 hets in gnomad and 55 homs which is not consistent with a Mendelian disorder.

PMID 34633442: 10 individuals with 7 unique variants reported in individuals with neurodevelopmental disorders and epilepsy. Six of the variants were demonstrated to be GoF, and those individuals with neurodevelopmental disorders with behavioural issues, various degrees of intellectual disability, generalized epilepsy with atypical absences and generalized myoclonic and/or bilateral tonic-clonic seizures. In contrast, the one individual carrying a loss-of-function variant had normal intelligence, no seizure history but has a diagnosis of autism spectrum disorder and suffering from elevated internalizing psychiatric symptoms.
Sources: Literature
Neurotransmitter Defects v1.5 GABRD Zornitza Stark Phenotypes for gene: GABRD were changed from Intellectual disability; Epilepsy; Susceptibility to epilepsy, MIM#613060 to Intellectual disability; Epilepsy; Susceptibility to epilepsy, MIM#613060
Neurotransmitter Defects v1.5 GABRD Zornitza Stark Phenotypes for gene: GABRD were changed from Intellectual disability; Epilepsy; Susceptibility to epilepsy, MIM#613060 to Intellectual disability; Epilepsy; Susceptibility to epilepsy, MIM#613060
Neurotransmitter Defects v1.4 GABRD Zornitza Stark Phenotypes for gene: GABRD were changed from Susceptibility to epilepsy, MIM#613060 to Intellectual disability; Epilepsy; Susceptibility to epilepsy, MIM#613060
Neurotransmitter Defects v1.3 GABRD Zornitza Stark Publications for gene: GABRD were set to 15115768
Neurotransmitter Defects v1.2 GABRD Zornitza Stark Classified gene: GABRD as Green List (high evidence)
Neurotransmitter Defects v1.2 GABRD Zornitza Stark Gene: gabrd has been classified as Green List (High Evidence).
Neurotransmitter Defects v1.1 GABRD Zornitza Stark changed review comment from: Limited reports. The variant originally reported in PMID 15115768 in association with epilepsy is present in >4,000 hets in gnomad and 55 homs which is not consistent with a Mendelian disorder.; to: Susceptibility to epilepsy, MIM#613060: Limited reports. The variant originally reported in PMID 15115768 in association with epilepsy is present in >4,000 hets in gnomad and 55 homs which is not consistent with a Mendelian disorder.
Neurotransmitter Defects v1.1 GABRD Zornitza Stark edited their review of gene: GABRD: Added comment: 10 individuals with 7 unique variants reported in individuals with neurodevelopmental disorders and epilepsy. Six of the variants were demonstrated to be GoF, and those individuals with neurodevelopmental disorders with behavioural issues, various degrees of intellectual disability, generalized epilepsy with atypical absences and generalized myoclonic and/or bilateral tonic-clonic seizures. In contrast, the one individual carrying a loss-of-function variant had normal intelligence, no seizure history but has a diagnosis of autism spectrum disorder and suffering from elevated internalizing psychiatric symptoms.; Changed rating: GREEN; Changed publications: 15115768, 34633442; Changed phenotypes: Intellectual disability, Epilepsy, Susceptibility to epilepsy, MIM#613060
Mendeliome v0.9373 GABRD Zornitza Stark Phenotypes for gene: GABRD were changed from Susceptibility to epilepsy, MIM#613060 to Susceptibility to epilepsy, MIM#613060
Mendeliome v0.9372 GABRD Zornitza Stark Publications for gene: GABRD were set to 15115768
Mendeliome v0.9371 GABRD Zornitza Stark Classified gene: GABRD as Green List (high evidence)
Mendeliome v0.9371 GABRD Zornitza Stark Gene: gabrd has been classified as Green List (High Evidence).
Mendeliome v0.9370 GABRD Zornitza Stark changed review comment from: Limited reports. The variant originally reported in PMID 15115768 in association with epilepsy is present in >4,000 hets in gnomad and 55 homs which is not consistent with a Mendelian disorder.; to: Susceptibility to epilepsy, MIM#613060: Limited reports. The variant originally reported in PMID 15115768 in association with epilepsy is present in >4,000 hets in gnomad and 55 homs which is not consistent with a Mendelian disorder.
Mendeliome v0.9370 GABRD Zornitza Stark edited their review of gene: GABRD: Added comment: 10 individuals with 7 unique variants reported in individuals with neurodevelopmental disorders and epilepsy. Six of the variants were demonstrated to be GoF, and those individuals with neurodevelopmental disorders with behavioural issues, various degrees of intellectual disability, generalized epilepsy with atypical absences and generalized myoclonic and/or bilateral tonic-clonic seizures. In contrast, the one individual carrying a loss-of-function variant had normal intelligence, no seizure history but has a diagnosis of autism spectrum disorder and suffering from elevated internalizing psychiatric symptoms.; Changed rating: GREEN; Changed publications: 15115768, 34633442; Changed phenotypes: Intellectual disability, Epilepsy, Susceptibility to epilepsy, MIM#613060
Imprinting disorders v0.10 NLRP7 Anna Le Fevre reviewed gene: NLRP7: Rating: GREEN; Mode of pathogenicity: None; Publications: 16462743, 28561018, 29574422, 19246479, 22315435, 19066229, 23722513; Phenotypes: Biparental complete hydatiform mole, Hydatiform mole, recurrent 1 MIM#231090, Multi locus imprinting disturbance in offspring, reproductive loss; Mode of inheritance: BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Arthrogryposis v0.300 ERGIC1 Arina Puzriakova reviewed gene: ERGIC1: Rating: GREEN; Mode of pathogenicity: None; Publications: 31230720; Phenotypes: Arthrogryposis multiplex congenita 2, neurogenic type, OMIM:208100; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Genetic Epilepsy v0.1314 CXorf56 Zornitza Stark Marked gene: CXorf56 as ready
Genetic Epilepsy v0.1314 CXorf56 Zornitza Stark Gene: cxorf56 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1314 CXorf56 Zornitza Stark Classified gene: CXorf56 as Green List (high evidence)
Genetic Epilepsy v0.1314 CXorf56 Zornitza Stark Gene: cxorf56 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1313 CXorf56 Zornitza Stark gene: CXorf56 was added
gene: CXorf56 was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: CXorf56 was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Publications for gene: CXorf56 were set to 29374277; 31822863
Phenotypes for gene: CXorf56 were set to Mental retardation, X-linked 107, MIM# 301013
Review for gene: CXorf56 was set to GREEN
Added comment: Four families reported, seizures in males, who tend to be more severe.
Sources: Literature
Genetic Epilepsy v0.1312 CWF19L1 Zornitza Stark Marked gene: CWF19L1 as ready
Genetic Epilepsy v0.1312 CWF19L1 Zornitza Stark Gene: cwf19l1 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1312 CWF19L1 Zornitza Stark gene: CWF19L1 was added
gene: CWF19L1 was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: CWF19L1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: CWF19L1 were set to 33012273
Phenotypes for gene: CWF19L1 were set to Spinocerebellar ataxia, autosomal recessive 17, MIM# 616127
Review for gene: CWF19L1 was set to RED
Added comment: Well established gene-disease association, but only single report of epilepsy.
Sources: Literature
Mendeliome v0.9370 NLRP5 Zornitza Stark Phenotypes for gene: NLRP5 were changed from Early embryonic arrest to Early embryonic arrest; Multi locus imprinting disturbance in offspring
Mendeliome v0.9369 NLRP5 Zornitza Stark Publications for gene: NLRP5 were set to 32222962; 31829238; 30877238
Mendeliome v0.9368 NLRP5 Zornitza Stark Mode of inheritance for gene: NLRP5 was changed from BIALLELIC, autosomal or pseudoautosomal to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Mendeliome v0.9367 NLRP5 Zornitza Stark Classified gene: NLRP5 as Green List (high evidence)
Mendeliome v0.9367 NLRP5 Zornitza Stark Gene: nlrp5 has been classified as Green List (High Evidence).
Mendeliome v0.9366 NLRP5 Zornitza Stark edited their review of gene: NLRP5: Added comment: 'Maternal effect gene'
Part of the subcortical maternal complex

Report of five mothers carrying either monoallelic or biallelic variants in NLRP5, who had both unaffected offspring and offspring with BWS-MLID (Doherty 2015). Report of one family where the mother carried biallelic variants in NLRP5, had one offspring with BWS, one unaffected offspring and multiple miscarriages (Sparago 2019).

Reports of at least three unrelated individuals with recurrent early embryonic arrest carrying biallelic variants in NLRP5. Functional work suggesting protein degradation in affected human cell lines (Mu 2019, Xu 2020).; Changed rating: GREEN; Changed publications: 32222962, 31829238, 30877238, 26323243, 34440388; Changed phenotypes: Early embryonic arrest, Multi locus imprinting disturbance in offspring; Changed mode of inheritance: BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Imprinting disorders v0.10 NLRP5 Zornitza Stark Marked gene: NLRP5 as ready
Imprinting disorders v0.10 NLRP5 Zornitza Stark Gene: nlrp5 has been classified as Green List (High Evidence).
Imprinting disorders v0.10 NLRP5 Zornitza Stark Publications for gene: NLRP5 were set to 26323243; 31201414; 31829238
Imprinting disorders v0.9 NLRP5 Zornitza Stark Mode of inheritance for gene: NLRP5 was changed from BOTH monoallelic and biallelic (but BIALLELIC mutations cause a more SEVERE disease form), autosomal or pseudoautosomal to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Intellectual disability syndromic and non-syndromic v0.4201 TNPO2 Zornitza Stark Phenotypes for gene: TNPO2 were changed from Intellectual disability, neurologic deficits and dysmorphic features to Intellectual developmental disorder with hypotonia, impaired speech, and dysmorphic facies, MIM# 619556
Intellectual disability syndromic and non-syndromic v0.4200 TNPO2 Zornitza Stark reviewed gene: TNPO2: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Intellectual developmental disorder with hypotonia, impaired speech, and dysmorphic facies, MIM# 619556; Mode of inheritance: None
Genetic Epilepsy v0.1311 TNPO2 Zornitza Stark Phenotypes for gene: TNPO2 were changed from Intellectual disability, neurologic deficits and dysmorphic features to Intellectual developmental disorder with hypotonia, impaired speech, and dysmorphic facies, MIM# 619556
Genetic Epilepsy v0.1310 TNPO2 Zornitza Stark edited their review of gene: TNPO2: Changed phenotypes: Intellectual developmental disorder with hypotonia, impaired speech, and dysmorphic facies, MIM# 619556
Microcephaly v1.61 TNPO2 Zornitza Stark Phenotypes for gene: TNPO2 were changed from Intellectual disability, neurologic deficits and dysmorphic features to Intellectual developmental disorder with hypotonia, impaired speech, and dysmorphic facies, MIM# 619556
Microcephaly v1.60 TNPO2 Zornitza Stark edited their review of gene: TNPO2: Changed phenotypes: Intellectual developmental disorder with hypotonia, impaired speech, and dysmorphic facies, MIM# 619556
Mendeliome v0.9366 TNPO2 Zornitza Stark Phenotypes for gene: TNPO2 were changed from Intellectual disability, neurologic deficits and dysmorphic features to Intellectual developmental disorder with hypotonia, impaired speech, and dysmorphic facies, MIM# 619556
Mendeliome v0.9365 TNPO2 Zornitza Stark reviewed gene: TNPO2: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Intellectual developmental disorder with hypotonia, impaired speech, and dysmorphic facies, MIM# 619556; Mode of inheritance: None
Imprinting disorders v0.8 NLRP5 Anna Le Fevre edited their review of gene: NLRP5: Added comment: Most reported individuals with recurrent early embryonic arrest or mothers of children with MLID have been found to carry biallelic pathogenic variants in this gene. A minority have only been found to carry a heterozygous variant only. A relationship between zygosity and severity of the condition has not been definitively established.

As is the case for other genes encoding components of the subcortical maternal complex (SCMC), the pathogenicity of variants can be difficult to establish as reproductive outcomes are not recorded in genomic databases and variants may be listed in population databases as they are not classed as pathogenic in males or women with no reproductive history.

Functional studies of genes encoding components of the SCMC are limited as their expression is restricted to the oocyte and early embryo.; Changed phenotypes: Early embryonic arrest, Multi locus imprinting disturbance in offspring
Growth failure v1.10 STAT5B Zornitza Stark Mode of inheritance for gene: STAT5B was changed from BIALLELIC, autosomal or pseudoautosomal to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Mendeliome v0.9365 DSTYK Zornitza Stark changed review comment from: Mono-allelic variants and CAKUT: Multiple families reported, zebrafish model has multiple congenital anomalies including of the GU tract. Established gene-disease association.

Bi-allelic variants and HSP: Three families reported, but all had same intragenic deletion/insertion, suggestive of founder effect.; to: Mono-allelic variants and CAKUT: Multiple families reported, zebrafish model has multiple congenital anomalies including of the GU tract. Disputed gene-disease association as original variants present at relatively high pop frequency as per review by Ain Roesley.

Bi-allelic variants and HSP: Three families reported, but all had same intragenic deletion/insertion, suggestive of founder effect.
Mendeliome v0.9365 DSTYK Zornitza Stark Mode of inheritance for gene: DSTYK was changed from BIALLELIC, autosomal or pseudoautosomal to BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9365 DSTYK Zornitza Stark Mode of inheritance for gene: DSTYK was changed from BOTH monoallelic and biallelic, autosomal or pseudoautosomal to BIALLELIC, autosomal or pseudoautosomal
Congenital anomalies of the kidney and urinary tract (CAKUT) Nonsyndromic v0.90 DSTYK Zornitza Stark Tag disputed tag was added to gene: DSTYK.
Congenital anomalies of the kidney and urinary tract (CAKUT) Nonsyndromic v0.90 DSTYK Zornitza Stark Classified gene: DSTYK as Red List (low evidence)
Congenital anomalies of the kidney and urinary tract (CAKUT) Nonsyndromic v0.90 DSTYK Zornitza Stark Gene: dstyk has been classified as Red List (Low Evidence).
Congenital anomalies of the kidney and urinary tract (CAKUT) Nonsyndromic v0.89 DSTYK Ain Roesley reviewed gene: DSTYK: Rating: RED; Mode of pathogenicity: None; Publications: 23862974; Phenotypes: Congenital anomalies of kidney and urinary tract 1, MIM# 610805; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9364 DSTYK Ain Roesley reviewed gene: DSTYK: Rating: RED; Mode of pathogenicity: None; Publications: 23862974; Phenotypes: Congenital anomalies of kidney and urinary tract 1, MIM# 610805, Spastic paraplegia 23, MIM# 270750; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Genetic Epilepsy v0.1310 CPT1A Zornitza Stark Marked gene: CPT1A as ready
Genetic Epilepsy v0.1310 CPT1A Zornitza Stark Gene: cpt1a has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1310 CPT1A Zornitza Stark Classified gene: CPT1A as Amber List (moderate evidence)
Genetic Epilepsy v0.1310 CPT1A Zornitza Stark Gene: cpt1a has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1309 CPT1A Zornitza Stark gene: CPT1A was added
gene: CPT1A was added to Genetic Epilepsy. Sources: Expert Review
Mode of inheritance for gene: CPT1A was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: CPT1A were set to 12189492; 33565078
Phenotypes for gene: CPT1A were set to CPT deficiency, hepatic, type IA, MIM# 255120
Review for gene: CPT1A was set to AMBER
Added comment: Well established gene-disease association.

CPT I deficiency is an autosomal recessive metabolic disorder of long-chain fatty acid oxidation characterized by severe episodes of hypoketotic hypoglycaemia usually occurring after fasting or illness. Onset is in infancy or early childhood.

Case report of presentation with seizures.
Sources: Expert Review
Intellectual disability syndromic and non-syndromic v0.4200 KCTD3 Zornitza Stark Marked gene: KCTD3 as ready
Intellectual disability syndromic and non-syndromic v0.4200 KCTD3 Zornitza Stark Gene: kctd3 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4200 KCTD3 Zornitza Stark Phenotypes for gene: KCTD3 were changed from to Epilepsy; Intellectual disability; Posterior fossa abnormalities
Intellectual disability syndromic and non-syndromic v0.4199 KCTD3 Zornitza Stark Publications for gene: KCTD3 were set to
Intellectual disability syndromic and non-syndromic v0.4198 KCTD3 Zornitza Stark Mode of inheritance for gene: KCTD3 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Intellectual disability syndromic and non-syndromic v0.4197 KCTD3 Zornitza Stark reviewed gene: KCTD3: Rating: GREEN; Mode of pathogenicity: None; Publications: 29406573; Phenotypes: Epilepsy, Intellectual disability, Posterior fossa abnormalities; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9364 KCTD3 Zornitza Stark Marked gene: KCTD3 as ready
Mendeliome v0.9364 KCTD3 Zornitza Stark Gene: kctd3 has been classified as Green List (High Evidence).
Mendeliome v0.9364 KCTD3 Zornitza Stark Phenotypes for gene: KCTD3 were changed from to Epilepsy; Intellectual disability; Posterior fossa abnormalities
Mendeliome v0.9363 KCTD3 Zornitza Stark Publications for gene: KCTD3 were set to
Genetic Epilepsy v0.1308 KCTD3 Zornitza Stark Marked gene: KCTD3 as ready
Genetic Epilepsy v0.1308 KCTD3 Zornitza Stark Gene: kctd3 has been classified as Green List (High Evidence).
Mendeliome v0.9362 KCTD3 Zornitza Stark Mode of inheritance for gene: KCTD3 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Genetic Epilepsy v0.1308 KCTD3 Zornitza Stark Phenotypes for gene: KCTD3 were changed from to Epilepsy; Intellectual disability; Posterior fossa abnormalities
Mendeliome v0.9361 KCTD3 Zornitza Stark reviewed gene: KCTD3: Rating: GREEN; Mode of pathogenicity: None; Publications: 29406573; Phenotypes: Epilepsy, Intellectual disability, Posterior fossa abnormalities; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Genetic Epilepsy v0.1307 KCTD3 Zornitza Stark Publications for gene: KCTD3 were set to
Genetic Epilepsy v0.1306 KCTD3 Zornitza Stark Mode of inheritance for gene: KCTD3 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Genetic Epilepsy v0.1305 KCTD3 Zornitza Stark reviewed gene: KCTD3: Rating: GREEN; Mode of pathogenicity: None; Publications: 29406573; Phenotypes: Epilepsy, Intellectual disability, Posterior fossa abnormalities; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Genetic Epilepsy v0.1305 POLR3B Zornitza Stark Marked gene: POLR3B as ready
Genetic Epilepsy v0.1305 POLR3B Zornitza Stark Gene: polr3b has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1305 POLR3B Zornitza Stark Classified gene: POLR3B as Green List (high evidence)
Genetic Epilepsy v0.1305 POLR3B Zornitza Stark Gene: polr3b has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1304 PPP1CB Zornitza Stark Marked gene: PPP1CB as ready
Genetic Epilepsy v0.1304 PPP1CB Zornitza Stark Gene: ppp1cb has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1304 PPP1CB Zornitza Stark Classified gene: PPP1CB as Amber List (moderate evidence)
Genetic Epilepsy v0.1304 PPP1CB Zornitza Stark Gene: ppp1cb has been classified as Amber List (Moderate Evidence).
Mendeliome v0.9361 GYPC Zornitza Stark Marked gene: GYPC as ready
Mendeliome v0.9361 GYPC Zornitza Stark Gene: gypc has been classified as Red List (Low Evidence).
Mendeliome v0.9361 GYPC Zornitza Stark Phenotypes for gene: GYPC were changed from to [Blood group, Gerbich] MIM#616089
Mendeliome v0.9360 GYPC Zornitza Stark Publications for gene: GYPC were set to
Mendeliome v0.9359 GYPC Zornitza Stark Mode of inheritance for gene: GYPC was changed from Unknown to Other
Mendeliome v0.9358 GYPC Zornitza Stark Classified gene: GYPC as Red List (low evidence)
Mendeliome v0.9358 GYPC Zornitza Stark Gene: gypc has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1303 SMARCB1 Zornitza Stark Phenotypes for gene: SMARCB1 were changed from Coffin-Siris syndrome and epilepsy to Coffin-Siris syndrome 3, MIM# 614608; Epilepsy
Genetic Epilepsy v0.1302 SMARCB1 Zornitza Stark Classified gene: SMARCB1 as Green List (high evidence)
Genetic Epilepsy v0.1302 SMARCB1 Zornitza Stark Gene: smarcb1 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1301 SMARCB1 Zornitza Stark Marked gene: SMARCB1 as ready
Genetic Epilepsy v0.1301 SMARCB1 Zornitza Stark Gene: smarcb1 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1301 SMARCB1 Zornitza Stark Publications for gene: SMARCB1 were set to PMID:33006724
Genetic Epilepsy v0.1300 SMARCB1 Zornitza Stark Classified gene: SMARCB1 as Green List (high evidence)
Genetic Epilepsy v0.1300 SMARCB1 Zornitza Stark Gene: smarcb1 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1299 SMARCB1 Zornitza Stark reviewed gene: SMARCB1: Rating: GREEN; Mode of pathogenicity: None; Publications: 22426308, 23906836, 23929686; Phenotypes: Coffin-Siris syndrome 3, MIM# 614608; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Genetic Epilepsy v0.1299 SMARCB1 Zornitza Stark Classified gene: SMARCB1 as Red List (low evidence)
Genetic Epilepsy v0.1299 SMARCB1 Zornitza Stark Gene: smarcb1 has been classified as Red List (Low Evidence).
Intellectual disability syndromic and non-syndromic v0.4197 TARS2 Zornitza Stark Marked gene: TARS2 as ready
Intellectual disability syndromic and non-syndromic v0.4197 TARS2 Zornitza Stark Gene: tars2 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4197 TARS2 Zornitza Stark Phenotypes for gene: TARS2 were changed from Combined oxidative phosphorylation deficiency 21 - 615918; Epilepsy; Developmental Delay to Combined oxidative phosphorylation deficiency 21, MIM# 615918; Epilepsy; Developmental Delay
Intellectual disability syndromic and non-syndromic v0.4196 TARS2 Zornitza Stark Classified gene: TARS2 as Green List (high evidence)
Intellectual disability syndromic and non-syndromic v0.4196 TARS2 Zornitza Stark Gene: tars2 has been classified as Green List (High Evidence).
Mitochondrial disease v0.653 TARS2 Zornitza Stark Publications for gene: TARS2 were set to 24827421; 26811336; 33153448
Mitochondrial disease v0.652 TARS2 Zornitza Stark Classified gene: TARS2 as Green List (high evidence)
Mitochondrial disease v0.652 TARS2 Zornitza Stark Gene: tars2 has been classified as Green List (High Evidence).
Mendeliome v0.9357 TARS2 Zornitza Stark Publications for gene: TARS2 were set to 24827421; 26811336; 33153448
Mendeliome v0.9356 TARS2 Zornitza Stark Classified gene: TARS2 as Green List (high evidence)
Mendeliome v0.9356 TARS2 Zornitza Stark Gene: tars2 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1298 SMARCA4 Zornitza Stark Marked gene: SMARCA4 as ready
Genetic Epilepsy v0.1298 SMARCA4 Zornitza Stark Gene: smarca4 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1298 SMARCA4 Zornitza Stark Classified gene: SMARCA4 as Red List (low evidence)
Genetic Epilepsy v0.1298 SMARCA4 Zornitza Stark Gene: smarca4 has been classified as Red List (Low Evidence).
Arthrogryposis v0.300 SLC29A3 Zornitza Stark Marked gene: SLC29A3 as ready
Arthrogryposis v0.300 SLC29A3 Zornitza Stark Gene: slc29a3 has been classified as Green List (High Evidence).
Arthrogryposis v0.300 SLC29A3 Zornitza Stark Classified gene: SLC29A3 as Green List (high evidence)
Arthrogryposis v0.300 SLC29A3 Zornitza Stark Gene: slc29a3 has been classified as Green List (High Evidence).
Arthrogryposis v0.299 SLC29A3 Zornitza Stark gene: SLC29A3 was added
gene: SLC29A3 was added to Arthrogryposis. Sources: Expert Review
Mode of inheritance for gene: SLC29A3 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: SLC29A3 were set to 18940313; 19336477; 22238637
Phenotypes for gene: SLC29A3 were set to Histiocytosis-lymphadenopathy plus syndrome, MIM# 602782
Review for gene: SLC29A3 was set to GREEN
Added comment: Joint contractures are a feature.
Sources: Expert Review
Intellectual disability syndromic and non-syndromic v0.4195 ABHD16A Zornitza Stark reviewed gene: ABHD16A: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: ; Mode of inheritance: None
Mendeliome v0.9355 GYPC Paul De Fazio reviewed gene: GYPC: Rating: RED; Mode of pathogenicity: None; Publications: 29469208; Phenotypes: [Blood group, Gerbich] MIM#616089; Mode of inheritance: Other; Current diagnostic: yes
Genetic Epilepsy v0.1297 SMARCB1 Belinda Chong gene: SMARCB1 was added
gene: SMARCB1 was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: SMARCB1 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: SMARCB1 were set to PMID:33006724
Phenotypes for gene: SMARCB1 were set to Coffin-Siris syndrome and epilepsy
Review for gene: SMARCB1 was set to RED
Added comment: A single 8-year-old male with a p.Arg366Cys mutation of the SMARCB1 gene. Speech impairment and intellectual disability were reported. At the age of 6.3 years, he experienced his first generalized seizure during sleep. CBZ (16 mg/kg/day) was started and later switched to VPA (22 mg/kg/day) that could exert an additional role as a mood stabilizer, from which the hyperactive patient could benefit. Since then, he has been seizure-free. Brain MRI was normal.
Sources: Literature
Intellectual disability syndromic and non-syndromic v0.4195 TARS2 Krithika Murali gene: TARS2 was added
gene: TARS2 was added to Intellectual disability syndromic and non-syndromic. Sources: Literature
Mode of inheritance for gene: TARS2 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: TARS2 were set to 33153448; 24827421; 34508595
Phenotypes for gene: TARS2 were set to Combined oxidative phosphorylation deficiency 21 - 615918; Epilepsy; Developmental Delay
Review for gene: TARS2 was set to GREEN
Added comment: 8 cases from 7 unrelated families are reported in the literature with a heterogenous phenotype characterised by either early-onset illness within the first months, of severe hypotonia, failure to thrive, epilepsy and early death, or onset after six months with a milder course and longer survival. Other phenotypic features include developmental delay (at least 3 out of 8 cases), MRI-B abnormalities and more rarely dystonia, regression, hyperhidrosis and hearing impairment.
Sources: Literature
Mitochondrial disease v0.651 TARS2 Krithika Murali reviewed gene: TARS2: Rating: GREEN; Mode of pathogenicity: None; Publications: 33153448, 24827421, 34508595; Phenotypes: Combined oxidative phosphorylation deficiency 21 - 615918, Epilepsy, Developmental Delay; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9355 TARS2 Krithika Murali reviewed gene: TARS2: Rating: GREEN; Mode of pathogenicity: None; Publications: 33153448, 24827421, 34508595; Phenotypes: Combined oxidative phosphorylation deficiency 21 - 615918, Epilepsy; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Genetic Epilepsy v0.1297 SMARCA4 Belinda Chong gene: SMARCA4 was added
gene: SMARCA4 was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: SMARCA4 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: SMARCA4 were set to 33333793
Phenotypes for gene: SMARCA4 were set to Refractory seizures
Review for gene: SMARCA4 was set to RED
Added comment: A Wide Spectrum of Genetic Disorders Causing Severe Childhood Epilepsy in Taiwan: Single patient with seizure onset at 3months old (de novo variant c.3595G>A, p.Val199Met).
Sources: Literature
Short QT syndrome v1.3 KCNH2 Zornitza Stark Marked gene: KCNH2 as ready
Short QT syndrome v1.3 KCNH2 Zornitza Stark Gene: kcnh2 has been classified as Green List (High Evidence).
Short QT syndrome v1.3 KCNH2 Zornitza Stark Phenotypes for gene: KCNH2 were changed from to Short QT syndrome
Short QT syndrome v1.2 KCNH2 Zornitza Stark Publications for gene: KCNH2 were set to 34557911
Short QT syndrome v1.1 KCNQ1 Zornitza Stark Marked gene: KCNQ1 as ready
Short QT syndrome v1.1 KCNQ1 Zornitza Stark Gene: kcnq1 has been classified as Green List (High Evidence).
Short QT syndrome v1.1 KCNQ1 Zornitza Stark Phenotypes for gene: KCNQ1 were changed from to Short QT syndrome 1; bradycardia; atrial fibrillation
Genetic Epilepsy v0.1297 PPP1CB Ain Roesley gene: PPP1CB was added
gene: PPP1CB was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: PPP1CB was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: PPP1CB were set to 33333793; 30236064
Phenotypes for gene: PPP1CB were set to Noonan syndrome-like disorder with loose anagen hair 2 MIM#617506
Penetrance for gene: PPP1CB were set to Complete
Review for gene: PPP1CB was set to AMBER
Added comment: PMID:33333793
1x de novo missense. Apnea, eye gazed deviation, myoclonic seizures

PMID:30236064
1x de novo missense. infant presented with severe intractable epileptic spasms

>20 individuals reported with this syndrome
Sources: Literature
Catecholaminergic Polymorphic Ventricular Tachycardia v0.30 TRDN Zornitza Stark Marked gene: TRDN as ready
Catecholaminergic Polymorphic Ventricular Tachycardia v0.30 TRDN Zornitza Stark Gene: trdn has been classified as Green List (High Evidence).
Catecholaminergic Polymorphic Ventricular Tachycardia v0.30 TRDN Zornitza Stark Phenotypes for gene: TRDN were changed from to Triadin knockout syndrome; CPVT; atypical LQTS phenotype
Catecholaminergic Polymorphic Ventricular Tachycardia v0.29 TRDN Zornitza Stark Publications for gene: TRDN were set to
Genetic Epilepsy v0.1297 POLR3B Ain Roesley gene: POLR3B was added
gene: POLR3B was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: POLR3B was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: POLR3B were set to 33417887
Phenotypes for gene: POLR3B were set to ataxia, spasticity, and demyelinating neuropathy
Penetrance for gene: POLR3B were set to unknown
Review for gene: POLR3B was set to GREEN
Added comment: 3/6 individuals with de novo missense presented with seizures
Sources: Literature
Short QT syndrome v1.0 Zornitza Stark promoted panel to version 1.0
Short QT syndrome v0.13 KCNJ2 Zornitza Stark Marked gene: KCNJ2 as ready
Short QT syndrome v0.13 KCNJ2 Zornitza Stark Gene: kcnj2 has been classified as Green List (High Evidence).
Short QT syndrome v0.13 KCNJ2 Zornitza Stark Phenotypes for gene: KCNJ2 were changed from to Short QT syndrome
Genetic Epilepsy v0.1297 POU3F3 Ain Roesley gene: POU3F3 was added
gene: POU3F3 was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: POU3F3 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: POU3F3 were set to 31303265; 33645921
Phenotypes for gene: POU3F3 were set to Snijders Blok-Fisher syndrome MIM#618604
Penetrance for gene: POU3F3 were set to unknown
Review for gene: POU3F3 was set to AMBER
Added comment: Seizures a rare feature. Only 3 out of 20 individuals presented with seizures.
Sources: Literature
Incidentalome v0.81 CACNA2D1 Zornitza Stark Marked gene: CACNA2D1 as ready
Incidentalome v0.81 CACNA2D1 Zornitza Stark Gene: cacna2d1 has been classified as Red List (Low Evidence).
Incidentalome v0.81 CACNA2D1 Zornitza Stark Tag disputed tag was added to gene: CACNA2D1.
Incidentalome v0.81 CACNA2D1 Zornitza Stark Mode of inheritance for gene: CACNA2D1 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Intellectual disability syndromic and non-syndromic v0.4195 THG1L Zornitza Stark Marked gene: THG1L as ready
Intellectual disability syndromic and non-syndromic v0.4195 THG1L Zornitza Stark Gene: thg1l has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1297 U2AF2 Zornitza Stark Marked gene: U2AF2 as ready
Genetic Epilepsy v0.1297 U2AF2 Zornitza Stark Added comment: Comment when marking as ready: Note de novo variants in this gene were found to be enriched in the DDD study, however phenotypic information on the patients not presented.
Genetic Epilepsy v0.1297 U2AF2 Zornitza Stark Gene: u2af2 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1297 U2AF2 Zornitza Stark Marked gene: U2AF2 as ready
Genetic Epilepsy v0.1297 U2AF2 Zornitza Stark Gene: u2af2 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1297 U2AF2 Zornitza Stark Classified gene: U2AF2 as Red List (low evidence)
Genetic Epilepsy v0.1297 U2AF2 Zornitza Stark Gene: u2af2 has been classified as Red List (Low Evidence).
Mendeliome v0.9355 SLC4A3 Daniel Flanagan gene: SLC4A3 was added
gene: SLC4A3 was added to Mendeliome. Sources: Expert Review
Mode of inheritance for gene: SLC4A3 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: SLC4A3 were set to PMID: 29167417; 34557911
Phenotypes for gene: SLC4A3 were set to Short QT syndrome
Review for gene: SLC4A3 was set to AMBER
Added comment: Moderate evidence for autosomal dominant short QT syndrome 1 by ClinGen /gene curation expert panel (PMID: 34557911). A single missense variant (absent gnomAD) identified in two SQTS families. In family 1, it segregated with SQTS (QTc<370ms) in 23 carriers, and 19 non-carriers had a QTc>370ms. In family 2, it segregated in 4 individuals. Experimental evidence from in vitro and zebrafish models suggests reduced membrane localization of the mutated protein leads to intracellular alkalinization and shortening of the cardiomyocyte action potential duration.
ClinGen expert panel was divided between strong (4 votes) and moderate (5 votes).
Sources: Expert Review
Incidentalome v0.80 CACNA2D1 Zornitza Stark Classified gene: CACNA2D1 as Red List (low evidence)
Incidentalome v0.80 CACNA2D1 Zornitza Stark Gene: cacna2d1 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1296 RARS2 Zornitza Stark Marked gene: RARS2 as ready
Genetic Epilepsy v0.1296 RARS2 Zornitza Stark Gene: rars2 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4195 THG1L Zornitza Stark Classified gene: THG1L as Amber List (moderate evidence)
Intellectual disability syndromic and non-syndromic v0.4195 THG1L Zornitza Stark Gene: thg1l has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1296 SLC22A5 Zornitza Stark Marked gene: SLC22A5 as ready
Genetic Epilepsy v0.1296 SLC22A5 Zornitza Stark Gene: slc22a5 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1296 RARS2 Zornitza Stark Phenotypes for gene: RARS2 were changed from to Pontocerebellar hypoplasia, type 6 MIM#611523
Catecholaminergic Polymorphic Ventricular Tachycardia v0.28 CASQ2 Zornitza Stark Mode of inheritance for gene: CASQ2 was changed from BIALLELIC, autosomal or pseudoautosomal to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Genetic Epilepsy v0.1295 RARS2 Zornitza Stark Publications for gene: RARS2 were set to
Catecholaminergic Polymorphic Ventricular Tachycardia v0.27 TRDN Zornitza Stark Mode of inheritance for gene: TRDN was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Genetic Epilepsy v0.1294 RARS2 Zornitza Stark Mode of inheritance for gene: RARS2 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Incidentalome v0.79 CACNA2D1 Daniel Flanagan reviewed gene: CACNA2D1: Rating: RED; Mode of pathogenicity: None; Publications: ; Phenotypes: ; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Short QT syndrome v0.12 CACNA1C Zornitza Stark Marked gene: CACNA1C as ready
Short QT syndrome v0.12 CACNA1C Zornitza Stark Gene: cacna1c has been classified as Red List (Low Evidence).
Short QT syndrome v0.12 SCN5A Zornitza Stark Marked gene: SCN5A as ready
Short QT syndrome v0.12 SCN5A Zornitza Stark Gene: scn5a has been classified as Red List (Low Evidence).
Short QT syndrome v0.12 KCNJ2 Zornitza Stark Publications for gene: KCNJ2 were set to
Short QT syndrome v0.12 CACNA1C Zornitza Stark Classified gene: CACNA1C as Red List (low evidence)
Short QT syndrome v0.12 CACNA1C Zornitza Stark Gene: cacna1c has been classified as Red List (Low Evidence).
Short QT syndrome v0.11 CACNA1C Zornitza Stark Tag disputed tag was added to gene: CACNA1C.
Short QT syndrome v0.11 CACNA2D1 Zornitza Stark Marked gene: CACNA2D1 as ready
Short QT syndrome v0.11 CACNA2D1 Zornitza Stark Gene: cacna2d1 has been classified as Red List (Low Evidence).
Short QT syndrome v0.11 CACNA2D1 Zornitza Stark Tag disputed tag was added to gene: CACNA2D1.
Short QT syndrome v0.11 SCN5A Zornitza Stark Classified gene: SCN5A as Red List (low evidence)
Short QT syndrome v0.11 SCN5A Zornitza Stark Gene: scn5a has been classified as Red List (Low Evidence).
Short QT syndrome v0.10 SCN5A Zornitza Stark Tag disputed tag was added to gene: SCN5A.
Short QT syndrome v0.10 CACNA2D1 Zornitza Stark Classified gene: CACNA2D1 as Red List (low evidence)
Short QT syndrome v0.10 CACNA2D1 Zornitza Stark Gene: cacna2d1 has been classified as Red List (Low Evidence).
Short QT syndrome v0.9 CACNB2 Zornitza Stark Marked gene: CACNB2 as ready
Short QT syndrome v0.9 CACNB2 Zornitza Stark Gene: cacnb2 has been classified as Red List (Low Evidence).
Short QT syndrome v0.9 CACNB2 Zornitza Stark Classified gene: CACNB2 as Red List (low evidence)
Short QT syndrome v0.9 CACNB2 Zornitza Stark Gene: cacnb2 has been classified as Red List (Low Evidence).
Short QT syndrome v0.8 CACNB2 Zornitza Stark Tag disputed tag was added to gene: CACNB2.
Genetic Epilepsy v0.1293 SLC22A5 Zornitza Stark Classified gene: SLC22A5 as Red List (low evidence)
Genetic Epilepsy v0.1293 SLC22A5 Zornitza Stark Gene: slc22a5 has been classified as Red List (Low Evidence).
Short QT syndrome v0.8 SLC22A5 Zornitza Stark Marked gene: SLC22A5 as ready
Short QT syndrome v0.8 SLC22A5 Zornitza Stark Gene: slc22a5 has been classified as Red List (Low Evidence).
Short QT syndrome v0.8 SLC22A5 Zornitza Stark Classified gene: SLC22A5 as Red List (low evidence)
Short QT syndrome v0.8 SLC22A5 Zornitza Stark Gene: slc22a5 has been classified as Red List (Low Evidence).
Short QT syndrome v0.7 SLC22A5 Zornitza Stark Tag disputed tag was added to gene: SLC22A5.
Genetic Epilepsy v0.1292 PNPT1 Zornitza Stark Marked gene: PNPT1 as ready
Genetic Epilepsy v0.1292 PNPT1 Zornitza Stark Gene: pnpt1 has been classified as Green List (High Evidence).
Short QT syndrome v0.7 SLC4A3 Zornitza Stark Marked gene: SLC4A3 as ready
Short QT syndrome v0.7 SLC4A3 Zornitza Stark Gene: slc4a3 has been classified as Amber List (Moderate Evidence).
Short QT syndrome v0.7 SLC4A3 Zornitza Stark Classified gene: SLC4A3 as Amber List (moderate evidence)
Short QT syndrome v0.7 SLC4A3 Zornitza Stark Gene: slc4a3 has been classified as Amber List (Moderate Evidence).
Short QT syndrome v0.6 SLC4A3 Zornitza Stark reviewed gene: SLC4A3: Rating: AMBER; Mode of pathogenicity: None; Publications: ; Phenotypes: Short QT syndrome; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Short QT syndrome v0.6 KCNH2 Zornitza Stark Publications for gene: KCNH2 were set to 34557911
Short QT syndrome v0.6 KCNQ1 Zornitza Stark Publications for gene: KCNQ1 were set to 34557911
Genetic Epilepsy v0.1292 PNPT1 Zornitza Stark Phenotypes for gene: PNPT1 were changed from to Combined oxidative phosphorylation deficiency 13, MIM# 614932
Short QT syndrome v0.6 KCNJ2 Zornitza Stark Mode of pathogenicity for gene: KCNJ2 was changed from to Other
Short QT syndrome v0.5 KCNJ2 Zornitza Stark Mode of inheritance for gene: KCNJ2 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Intellectual disability syndromic and non-syndromic v0.4194 THG1L Krithika Murali gene: THG1L was added
gene: THG1L was added to Intellectual disability syndromic and non-syndromic. Sources: Literature
Mode of inheritance for gene: THG1L was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: THG1L were set to 33682303
Phenotypes for gene: THG1L were set to Spinocerebellar ataxia, autosomal recessive 28 - 618800; Epilepsy; Intellectual Disability
Review for gene: THG1L was set to AMBER
Added comment: 3 individuals from 2 unrelated families of Ashkenazi Jewish descent with compound heterozygous variants ( p.Cys51Trp and p.Val55Ala) presented with profound developmental delays, microcephaly, intractable epilepsy, and cerebellar hypoplasia.

Homozygous variants associated with ataxia phenotype.
Sources: Literature
Short QT syndrome v0.4 KCNH2 Zornitza Stark Publications for gene: KCNH2 were set to
Short QT syndrome v0.4 KCNQ1 Zornitza Stark Publications for gene: KCNQ1 were set to
Genetic Epilepsy v0.1291 PNPT1 Zornitza Stark Classified gene: PNPT1 as Green List (high evidence)
Genetic Epilepsy v0.1291 PNPT1 Zornitza Stark Gene: pnpt1 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1290 SLC22A5 Belinda Chong gene: SLC22A5 was added
gene: SLC22A5 was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: SLC22A5 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: SLC22A5 were set to PMID: 33005244
Phenotypes for gene: SLC22A5 were set to Intractable epilepsy
Review for gene: SLC22A5 was set to RED
Added comment: Two sisters with intractable epilepsy and reversible metabolic cardiomyopathy. Potential mutations in the SLC22A5 gene were investigated within the family, and a nonsense mutation [c.760C>T (p.R254X)] was identified in four family members. The two sisters harboured homozygous mutations, whereas their parents presented heterozygous mutations.

Metabolic disease screening revealed low plasma free carnitine levels (<5 µmol/l) in the two sisters. The plasma free carnitine levels of their parents were normal, and they were asymptomatic. PCD in the two patients was managed using oral levocarnitine.
Sources: Literature
Genetic Epilepsy v0.1290 PNPT1 Zornitza Stark reviewed gene: PNPT1: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Combined oxidative phosphorylation deficiency 13, MIM# 614932; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Short QT syndrome v0.3 KCNH2 Zornitza Stark Mode of pathogenicity for gene: KCNH2 was changed from to Other
Short QT syndrome v0.3 KCNQ1 Zornitza Stark Mode of inheritance for gene: KCNQ1 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Short QT syndrome v0.2 KCNH2 Zornitza Stark Mode of inheritance for gene: KCNH2 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Genetic Epilepsy v0.1290 PHF6 Zornitza Stark Marked gene: PHF6 as ready
Genetic Epilepsy v0.1290 PHF6 Zornitza Stark Gene: phf6 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1290 PHF6 Zornitza Stark Classified gene: PHF6 as Green List (high evidence)
Genetic Epilepsy v0.1290 PHF6 Zornitza Stark Gene: phf6 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1289 PGM3 Zornitza Stark Marked gene: PGM3 as ready
Genetic Epilepsy v0.1289 PGM3 Zornitza Stark Gene: pgm3 has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1289 PGM3 Zornitza Stark Classified gene: PGM3 as Amber List (moderate evidence)
Genetic Epilepsy v0.1289 PGM3 Zornitza Stark Gene: pgm3 has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1288 PGM3 Zornitza Stark reviewed gene: PGM3: Rating: AMBER; Mode of pathogenicity: None; Publications: ; Phenotypes: Epilepsy; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Genetic Epilepsy v0.1288 TARS2 Zornitza Stark Marked gene: TARS2 as ready
Genetic Epilepsy v0.1288 TARS2 Zornitza Stark Gene: tars2 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1288 TARS2 Zornitza Stark Classified gene: TARS2 as Green List (high evidence)
Genetic Epilepsy v0.1288 TARS2 Zornitza Stark Gene: tars2 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1287 TBX19 Zornitza Stark Marked gene: TBX19 as ready
Genetic Epilepsy v0.1287 TBX19 Zornitza Stark Gene: tbx19 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1287 TBX19 Zornitza Stark Classified gene: TBX19 as Green List (high evidence)
Genetic Epilepsy v0.1287 TBX19 Zornitza Stark Gene: tbx19 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1286 THG1L Zornitza Stark Marked gene: THG1L as ready
Genetic Epilepsy v0.1286 THG1L Zornitza Stark Gene: thg1l has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1286 TRAPPC12 Zornitza Stark Marked gene: TRAPPC12 as ready
Genetic Epilepsy v0.1286 TRAPPC12 Zornitza Stark Added comment: Comment when marking as ready: Three unrelated families with consistent phenotype including microcephaly and seizures.
Genetic Epilepsy v0.1286 TRAPPC12 Zornitza Stark Gene: trappc12 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1286 THG1L Zornitza Stark Phenotypes for gene: THG1L were changed from Spinocerebellar ataxia, autosomal recessive 28 - 618800; Epilepsy to Spinocerebellar ataxia, autosomal recessive 28 - 618800; Epilepsy; Intellectual disability
Genetic Epilepsy v0.1285 THG1L Zornitza Stark Classified gene: THG1L as Amber List (moderate evidence)
Genetic Epilepsy v0.1285 THG1L Zornitza Stark Gene: thg1l has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1284 TRAPPC12 Zornitza Stark Classified gene: TRAPPC12 as Green List (high evidence)
Genetic Epilepsy v0.1284 TRAPPC12 Zornitza Stark Gene: trappc12 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1283 TRPC3 Zornitza Stark Marked gene: TRPC3 as ready
Genetic Epilepsy v0.1283 TRPC3 Zornitza Stark Gene: trpc3 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1283 TRPC3 Zornitza Stark Classified gene: TRPC3 as Red List (low evidence)
Genetic Epilepsy v0.1283 TRPC3 Zornitza Stark Gene: trpc3 has been classified as Red List (Low Evidence).
Catecholaminergic Polymorphic Ventricular Tachycardia v0.26 CASQ2 Daniel Flanagan reviewed gene: CASQ2: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: CPVT; Mode of inheritance: BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Catecholaminergic Polymorphic Ventricular Tachycardia v0.26 TRDN Daniel Flanagan reviewed gene: TRDN: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Triadin knockout syndrome, CPVT, atypical LQTS phenotype; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal; Current diagnostic: yes
Genetic Epilepsy v0.1282 RARS2 Ain Roesley reviewed gene: RARS2: Rating: GREEN; Mode of pathogenicity: None; Publications: 31536827; Phenotypes: Pontocerebellar hypoplasia, type 6 MIM#611523; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Genetic Epilepsy v0.1282 COLGALT1 Zornitza Stark Marked gene: COLGALT1 as ready
Genetic Epilepsy v0.1282 COLGALT1 Zornitza Stark Gene: colgalt1 has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1282 COLGALT1 Zornitza Stark Classified gene: COLGALT1 as Amber List (moderate evidence)
Genetic Epilepsy v0.1282 COLGALT1 Zornitza Stark Gene: colgalt1 has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1281 COLGALT1 Zornitza Stark gene: COLGALT1 was added
gene: COLGALT1 was added to Genetic Epilepsy. Sources: Expert Review
Mode of inheritance for gene: COLGALT1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: COLGALT1 were set to 30412317; 33709034; 31759980
Phenotypes for gene: COLGALT1 were set to Brain small vessel disease 3 MIM#618360
Review for gene: COLGALT1 was set to AMBER
Added comment: 3 unrelated families with biallelic variants, and supporting functional assays. The main features of the cases were porencephalic cysts, leukoencephalopathy, lacunar infarcts, cerebral microbleeds/haemorrhages and calcifications. A null mouse model was embryonic lethal, but had defects in the vascular networks of the embryos.

Refractory seizures part of the presenting phenotype in one family.
Sources: Expert Review
Short QT syndrome v0.1 SCN5A Daniel Flanagan gene: SCN5A was added
gene: SCN5A was added to Short QT syndrome. Sources: Expert Review
Mode of inheritance for gene: SCN5A was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: SCN5A were set to PMID: 34557911
Phenotypes for gene: SCN5A were set to Short QT syndrome
Review for gene: SCN5A was set to RED
Added comment: Disputed association with Short QT syndrome 1 by ClinGen expert panel / PMID: 34557911. Single case with a rare SCN5A variant, however, the expert panel regarded this phenotype as being concordant with Brugada syndrome and not SQTS.
Sources: Expert Review
Short QT syndrome v0.1 CACNA1C Daniel Flanagan gene: CACNA1C was added
gene: CACNA1C was added to Short QT syndrome. Sources: Expert Review
Mode of inheritance for gene: CACNA1C was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: CACNA1C were set to PMID: 34557911
Phenotypes for gene: CACNA1C were set to Short QT syndrome
Review for gene: CACNA1C was set to RED
Added comment: Disputed association with Short QT syndrome 1 by ClinGen expert panel / PMID: 34557911. 5 probands with suggested SQTS phenotype, 3 had Brugada syndrome with a relatively short QT interval, 1 had HCM without a convincing SQTS phenotype, and the 5th had a reported de novo variant that was too frequent in gnomAD to be associated with SQTS.
Sources: Expert Review
Short QT syndrome v0.1 CACNA2D1 Daniel Flanagan gene: CACNA2D1 was added
gene: CACNA2D1 was added to Short QT syndrome. Sources: Expert Review
Mode of inheritance for gene: CACNA2D1 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: CACNA2D1 were set to PMID: 34557911
Phenotypes for gene: CACNA2D1 were set to Short QT syndrome
Review for gene: CACNA2D1 was set to RED
Added comment: Disputed association with Short QT syndrome 1 by ClinGen expert panel / PMID: 34557911. Single case with cardiac arrest and a short QT interval, variant did not segregate with SQTS and it was present at >1% in the Ashkenazi Jewish population.
Sources: Expert Review
Short QT syndrome v0.1 CACNB2 Daniel Flanagan gene: CACNB2 was added
gene: CACNB2 was added to Short QT syndrome. Sources: Expert Review
Mode of inheritance for gene: CACNB2 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: CACNB2 were set to PMID: 34557911
Phenotypes for gene: CACNB2 were set to Short QT syndrome 1
Review for gene: CACNB2 was set to RED
Added comment: Disputed association with Short QT syndrome 1 by ClinGen expert panel / PMID: 34557911. Single case in which the expert panel concluded the phenotype was Brugada syndrome and not SQTS.
Sources: Expert Review
Short QT syndrome v0.1 SLC22A5 Daniel Flanagan gene: SLC22A5 was added
gene: SLC22A5 was added to Short QT syndrome. Sources: Expert Review
Mode of inheritance for gene: SLC22A5 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: SLC22A5 were set to PMID: 34557911
Phenotypes for gene: SLC22A5 were set to Short QT syndrome
Review for gene: SLC22A5 was set to RED
Added comment: SLC22A5 association with short QT syndrome is disputed by the ClinGen expert panel / PMID: 34557911. Variants in SLC22A5 cause AR primary systemic carnitine deficiency (PSCD). Short QC has been demonstrated in a carnitine-deficient mouse model as well as in patients with PSCD. However, the QT interval in these patients returns to normal with carnitine supplementation treatment, so true SQTS and SLC22A5 is disputed.
Sources: Expert Review
Genetic Epilepsy v0.1280 CLPB Zornitza Stark Marked gene: CLPB as ready
Genetic Epilepsy v0.1280 CLPB Zornitza Stark Gene: clpb has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1280 CLPB Zornitza Stark Classified gene: CLPB as Green List (high evidence)
Genetic Epilepsy v0.1280 CLPB Zornitza Stark Gene: clpb has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1279 CLPB Zornitza Stark gene: CLPB was added
gene: CLPB was added to Genetic Epilepsy. Sources: Expert Review
Mode of inheritance for gene: CLPB was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Publications for gene: CLPB were set to 25597510; 34140661
Phenotypes for gene: CLPB were set to 3-methylglutaconic aciduria, type VII, with cataracts, neurologic involvement and neutropaenia, MIM# 616271
Review for gene: CLPB was set to GREEN
Added comment: Bi-allelic variants: 3-Methylglutaconic aciduria (MGCA7) is an autosomal recessive inborn error of metabolism characterized primarily by increased levels of 3-methylglutaconic acid (3-MGA) associated with neurologic deterioration and neutropenia. The phenotype is highly variable: most patients have infantile onset of a progressive encephalopathy with various movement abnormalities and delayed psychomotor development, although rare patients with normal neurologic development have been reported. Other common, but variable, features include cataracts, seizures, and recurrent infections. More than 10 unrelated families reported.

Mono-allelic variants: six unrelated individuals reported with de novo variants and neutropaenia, epilepsy, developmental issues, and 3-methylglutaconic aciduria.
Sources: Expert Review
Short QT syndrome v0.1 SLC4A3 Daniel Flanagan gene: SLC4A3 was added
gene: SLC4A3 was added to Short QT syndrome. Sources: Expert Review
Mode of inheritance for gene: SLC4A3 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: SLC4A3 were set to PMID: 29167417; 34557911
Phenotypes for gene: SLC4A3 were set to Short QT syndrome
Review for gene: SLC4A3 was set to GREEN
Added comment: Moderate evidence for autosomal dominant short QT syndrome 1 by ClinGen /gene curation expert panel (PMID: 34557911). A single missense variant (absent gnomAD) identified in two SQTS families. In family 1, it segregated with SQTS (QTc<370ms) in 23 carriers, and 19 non-carriers had a QTc>370ms. In family 2, it segregated in 4 individuals. Experimental evidence from in vitro and zebrafish models suggests reduced membrane localization of the mutated protein leads to intracellular alkalinization and shortening of the cardiomyocyte action potential duration.
ClinGen expert panel was divided between strong (4 votes) and moderate (5 votes).
Sources: Expert Review
Genetic Epilepsy v0.1278 CLN6 Zornitza Stark Marked gene: CLN6 as ready
Genetic Epilepsy v0.1278 CLN6 Zornitza Stark Gene: cln6 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1278 CLN6 Zornitza Stark Classified gene: CLN6 as Green List (high evidence)
Genetic Epilepsy v0.1278 CLN6 Zornitza Stark Gene: cln6 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1277 CLN6 Zornitza Stark gene: CLN6 was added
gene: CLN6 was added to Genetic Epilepsy. Sources: Expert Review
Mode of inheritance for gene: CLN6 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: CLN6 were set to 11791207; 11727201; 21549341; 33798445; 33024953
Phenotypes for gene: CLN6 were set to Ceroid lipofuscinosis, neuronal, 6, MIM# 601780; Ceroid lipofuscinosis, neuronal, Kufs type, adult onset, MIM# 204300
Review for gene: CLN6 was set to GREEN
Added comment: Well established gene-disease association, seizures are part of the phenotype.
Sources: Expert Review
Short QT syndrome v0.1 KCNJ2 Daniel Flanagan reviewed gene: KCNJ2: Rating: GREEN; Mode of pathogenicity: Other; Publications: PMID: 34557911; Phenotypes: Short QT syndrome 1; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted; Current diagnostic: yes
Genetic Epilepsy v0.1276 PNPT1 Ain Roesley gene: PNPT1 was added
gene: PNPT1 was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: PNPT1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: PNPT1 were set to 33158637; 31752325
Penetrance for gene: PNPT1 were set to unknown
Review for gene: PNPT1 was set to GREEN
Added comment: PMID:33158637
1x homozygous (c.1399C > T, p.Pro467Ser) in an individual who presented with a phenotype similar to Aicardi-Goutieres Syndrome. She presented with feeding difficulties and vomiting, muscle weakness, and hyperexcitability, accompanied by a sterile febrile episode. Later developed refractory focal impaired awareness and pharmaco-refractory generalized seizures.

PMID: 31752325
7 presented with seizures (out of 21 for whom clinical info was available)
Sources: Literature
Short QT syndrome v0.1 KCNQ1 Daniel Flanagan changed review comment from: Strong evidence for autosomal dominant short QT syndrome by ClinGen and gene curation expert panel (PMID: 34557911). 9 SQTS probands reported, eight of which had the p.(Val141Met) variant. All 9 probands presented with severe bradycardia in-utero or at birth and in 6 atrial fibrillation. Reviewed as strong because most of the evidence is related to a single variant.; to: Strong evidence for autosomal dominant short QT syndrome by ClinGen and gene curation expert panel (PMID: 34557911). 9 SQTS probands reported, eight of which had the p.(Val141Met) variant. All 9 probands presented with severe bradycardia in-utero or at birth and in 6 atrial fibrillation. Reviewed as strong because most of the evidence is related to a single variant.
Gain of function mechanism reported.
Short QT syndrome v0.1 KCNQ1 Daniel Flanagan reviewed gene: KCNQ1: Rating: GREEN; Mode of pathogenicity: None; Publications: PMID: 34557911; Phenotypes: Short QT syndrome 1, bradycardia, atrial fibrillation; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted; Current diagnostic: yes
Short QT syndrome v0.1 KCNH2 Daniel Flanagan reviewed gene: KCNH2: Rating: GREEN; Mode of pathogenicity: Other; Publications: PMID: 34557911; Phenotypes: Short QT syndrome 1; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted; Current diagnostic: yes
Genetic Epilepsy v0.1276 PHF6 Ain Roesley gene: PHF6 was added
gene: PHF6 was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: PHF6 was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Publications for gene: PHF6 were set to 32399860
Phenotypes for gene: PHF6 were set to Borjeson-Forssman-Lehmann syndrome MIM#301900
Penetrance for gene: PHF6 were set to unknown
Review for gene: PHF6 was set to GREEN
Added comment: Epilepsy is part of the phenotypic spectrum for Borjeson-Forssman-Lehmann syndrome (OMIM). At least 18 mutations known to date.
Sources: Literature
Genetic Epilepsy v0.1276 PGM3 Ain Roesley gene: PGM3 was added
gene: PGM3 was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: PGM3 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: PGM3 were set to 33193641
Phenotypes for gene: PGM3 were set to Idiopathic focal epilepsy
Penetrance for gene: PGM3 were set to Incomplete
Review for gene: PGM3 was set to AMBER
Added comment: 4x unrelated families including 2x de novo +2x inherited from unaffected parents. Hence reduced penetrance suggested
3x missense, 1x protein truncating
both missense variants inherited from unaffected parents classified as VUS by ACMG guidelines

no functional studies done
Sources: Literature
Genetic Epilepsy v0.1276 TARS2 Krithika Murali gene: TARS2 was added
gene: TARS2 was added to Genetic Epilepsy. Sources: Expert list,Literature
Mode of inheritance for gene: TARS2 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: TARS2 were set to 33153448; 24827421; 34508595
Phenotypes for gene: TARS2 were set to Combined oxidative phosphorylation deficiency 21 - 615918; Epilepsy
Review for gene: TARS2 was set to GREEN
Added comment: 8 cases from 7 unrelated families are reported in the literature with early-onset mitochondrial encephalomyopathy and a broad phenotypic spectrum that includes epilepsy.
Sources: Expert list, Literature
Genetic Epilepsy v0.1276 TBX19 Krithika Murali gene: TBX19 was added
gene: TBX19 was added to Genetic Epilepsy. Sources: Expert list,Literature
Mode of inheritance for gene: TBX19 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: TBX19 were set to 31998673
Phenotypes for gene: TBX19 were set to Adrenocorticotropic hormone deficiency - 201400
Review for gene: TBX19 was set to GREEN
Added comment: Well-established gene-disease association with congenital isolated ACTH deficiency. Affected individuals can present with seizures in conjunction with hypoglycaemia and cholestasis.

Although this gene is not associated with primary epilepsy and is a primary pituitary disorder, early detection and prompt institution of glucocorticoid treatment is vital to lower the risk of recurrent hypoglycemia and uncontrolled epilepsy. As patients can present with seizures, inclusion in this panel may aid timely diagnosis of this rare but treatable disorder.
Sources: Expert list, Literature
Genetic Epilepsy v0.1276 THG1L Krithika Murali gene: THG1L was added
gene: THG1L was added to Genetic Epilepsy. Sources: Expert list,Literature
Mode of inheritance for gene: THG1L was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: THG1L were set to 33682303
Phenotypes for gene: THG1L were set to Spinocerebellar ataxia, autosomal recessive 28 - 618800; Epilepsy
Review for gene: THG1L was set to AMBER
Added comment: 3 individuals from 2 unrelated families of Ashkenazi Jewish descent with compound heterozygous variants ( p.Cys51Trp and p.Val55Ala) presented with profound developmental delays, microcephaly, intractable epilepsy, and cerebellar hypoplasia.
Sources: Expert list, Literature
Genetic Epilepsy v0.1276 TRAPPC12 Krithika Murali reviewed gene: TRAPPC12: Rating: AMBER; Mode of pathogenicity: None; Publications: 28777934, 32369837; Phenotypes: Encephalopathy, progressive, early-onset, with brain atrophy and spasticity - 617669; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Genetic Epilepsy v0.1276 TRPC3 Krithika Murali gene: TRPC3 was added
gene: TRPC3 was added to Genetic Epilepsy. Sources: Expert list,Literature
Mode of inheritance for gene: TRPC3 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: TRPC3 were set to 32135163; 25477146
Phenotypes for gene: TRPC3 were set to ?Spinocerebellar ataxia 41 - 616410
Review for gene: TRPC3 was set to RED
Added comment: Postulated association with adult-onset cerebellar ataxia based on one case with potentially pathogenic variant (Fogel et al Mov Disorder 2015)

Liang et al 2020 Neurosci Letter observed elevated TRPC3 protein expression in focal cortical dysplasia tissue specimens compared with controls.

No formal gene-disease association with epilepsy has been reported.
Sources: Expert list, Literature
Genetic Epilepsy v0.1276 MAPK8IP3 Zornitza Stark Marked gene: MAPK8IP3 as ready
Genetic Epilepsy v0.1276 MAPK8IP3 Zornitza Stark Gene: mapk8ip3 has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1276 MAPK8IP3 Zornitza Stark Classified gene: MAPK8IP3 as Amber List (moderate evidence)
Genetic Epilepsy v0.1276 MAPK8IP3 Zornitza Stark Gene: mapk8ip3 has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1275 MAPK8IP3 Elena Savva gene: MAPK8IP3 was added
gene: MAPK8IP3 was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: MAPK8IP3 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: MAPK8IP3 were set to PMID: 30612693
Phenotypes for gene: MAPK8IP3 were set to Neurodevelopmental disorder with or without variable brain abnormalities MIM#618443
Review for gene: MAPK8IP3 was set to AMBER
Added comment: 5/13 patients had generalized seizures, but for 3/13 it was a single event, 1/13 it was recurrent. All individuals had missense variants.
Sources: Literature
Genetic Epilepsy v0.1275 TSPYL1 Zornitza Stark Marked gene: TSPYL1 as ready
Genetic Epilepsy v0.1275 TSPYL1 Zornitza Stark Gene: tspyl1 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1275 TSPYL1 Zornitza Stark Classified gene: TSPYL1 as Green List (high evidence)
Genetic Epilepsy v0.1275 TSPYL1 Zornitza Stark Gene: tspyl1 has been classified as Green List (High Evidence).
Deafness_IsolatedAndComplex v1.95 USP48 Zornitza Stark Marked gene: USP48 as ready
Deafness_IsolatedAndComplex v1.95 USP48 Zornitza Stark Gene: usp48 has been classified as Green List (High Evidence).
Deafness_IsolatedAndComplex v1.95 USP48 Zornitza Stark Classified gene: USP48 as Green List (high evidence)
Deafness_IsolatedAndComplex v1.95 USP48 Zornitza Stark Gene: usp48 has been classified as Green List (High Evidence).
Deafness_IsolatedAndComplex v1.94 USP48 Zornitza Stark gene: USP48 was added
gene: USP48 was added to Deafness_IsolatedAndComplex. Sources: Literature
Mode of inheritance for gene: USP48 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: USP48 were set to 34059922
Phenotypes for gene: USP48 were set to Nonsyndromic genetic deafness, MONDO:0019497
Review for gene: USP48 was set to GREEN
Added comment: PMID: 34059922 - Bassani et al 2021 - 3 cases reported with variants in USP48 and non syndromic hearing loss. They first analysed 4-generation Italian family with 6 individuals with hearing loss. The only rare variant segregating with the disease was a missense variant in USP48 (NM_032234.7:c.1216G > A, NP_115612.4:p.(Gly406Arg)). The variant is present in GnomAD v2.1.1 with a minor allele frequency (MAF) of 6.7 × 10−5 (17 allele out of 251 304 with no homozygotes). They also observed one hearing individual in the family who was heterozygous for the variant, suggesting incomplete penetrance.
In a Dutch family the found by exome sequencing a missense variant in USP48 (NM_032236.7:c.2215_2216delinsTT, NP_115612.4:p.(Thr739Leu)). The probands mother and uncle were also affected by no sequence data was available for analysis.
In a French family a proband is reported with right profound sensorineural hearing impairment (at 12 months), but normal left hearing (at 6 years old). The patient is heterozygote for a de novo splice variant in USP48 (NM_032236.7:c.3058 + 2 T > C, NP_115612.4:p.?;) which is not found in GnomAD and is predicted to result in a frameshift resulting in either NMD or a truncated protein.
In functional experiments they showed that the two missense variants found in the Italian and Dutch families, and a shortened protein as predicted for the variant found in the French variant, showed an impaired ability to cleave tetra-ubiquitin into tri-, di- and mono-ubiquitin. Using immunohistology, they show that the human USP48 protein is present in fetal inner ear specimens.
In addition zebrafish lacking usp48 showed a significant decrease of auditory response in acoustic startle response assays at 600 and 800 Hz wavelengths.

Overall, borderline Green: one of the variants is present at a high frequency in the normal population. However, even if just two families are considered, supportive functional data including zebrafish model.
Sources: Literature
Deafness_Isolated v1.15 USP48 Zornitza Stark Marked gene: USP48 as ready
Deafness_Isolated v1.15 USP48 Zornitza Stark Gene: usp48 has been classified as Green List (High Evidence).
Deafness_Isolated v1.15 USP48 Zornitza Stark Classified gene: USP48 as Green List (high evidence)
Deafness_Isolated v1.15 USP48 Zornitza Stark Gene: usp48 has been classified as Green List (High Evidence).
Deafness_Isolated v1.14 USP48 Zornitza Stark gene: USP48 was added
gene: USP48 was added to Deafness_Isolated. Sources: Literature
Mode of inheritance for gene: USP48 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: USP48 were set to 34059922
Phenotypes for gene: USP48 were set to Nonsyndromic genetic deafness, MONDO:0019497
Review for gene: USP48 was set to GREEN
Added comment: PMID: 34059922 - Bassani et al 2021 - 3 cases reported with variants in USP48 and non syndromic hearing loss. They first analysed 4-generation Italian family with 6 individuals with hearing loss. The only rare variant segregating with the disease was a missense variant in USP48 (NM_032234.7:c.1216G > A, NP_115612.4:p.(Gly406Arg)). The variant is present in GnomAD v2.1.1 with a minor allele frequency (MAF) of 6.7 × 10−5 (17 allele out of 251 304 with no homozygotes). They also observed one hearing individual in the family who was heterozygous for the variant, suggesting incomplete penetrance.
In a Dutch family the found by exome sequencing a missense variant in USP48 (NM_032236.7:c.2215_2216delinsTT, NP_115612.4:p.(Thr739Leu)). The probands mother and uncle were also affected by no sequence data was available for analysis.
In a French family a proband is reported with right profound sensorineural hearing impairment (at 12 months), but normal left hearing (at 6 years old). The patient is heterozygote for a de novo splice variant in USP48 (NM_032236.7:c.3058 + 2 T > C, NP_115612.4:p.?;) which is not found in GnomAD and is predicted to result in a frameshift resulting in either NMD or a truncated protein.
In functional experiments they showed that the two missense variants found in the Italian and Dutch families, and a shortened protein as predicted for the variant found in the French variant, showed an impaired ability to cleave tetra-ubiquitin into tri-, di- and mono-ubiquitin. Using immunohistology, they show that the human USP48 protein is present in fetal inner ear specimens.
In addition zebrafish lacking usp48 showed a significant decrease of auditory response in acoustic startle response assays at 600 and 800 Hz wavelengths.

Overall, borderline Green: one of the variants is present at a high frequency in the normal population. However, even if just two families are considered, supportive functional data including zebrafish model.
Sources: Literature
Mendeliome v0.9355 USP48 Zornitza Stark Marked gene: USP48 as ready
Mendeliome v0.9355 USP48 Zornitza Stark Added comment: Comment when marking as ready: Borderline Green: one of the variants is present at a high frequency in the normal population. However, even if just two families are considered, supportive functional data including zebrafish model.
Mendeliome v0.9355 USP48 Zornitza Stark Gene: usp48 has been classified as Green List (High Evidence).
Mendeliome v0.9355 USP48 Zornitza Stark Classified gene: USP48 as Green List (high evidence)
Mendeliome v0.9355 USP48 Zornitza Stark Gene: usp48 has been classified as Green List (High Evidence).
Pulmonary Fibrosis_Interstitial Lung Disease v0.33 MARS Zornitza Stark Marked gene: MARS as ready
Pulmonary Fibrosis_Interstitial Lung Disease v0.33 MARS Zornitza Stark Added comment: Comment when marking as ready: New HGNC approved name is MARS1.
Pulmonary Fibrosis_Interstitial Lung Disease v0.33 MARS Zornitza Stark Gene: mars has been classified as Green List (High Evidence).
Pulmonary Fibrosis_Interstitial Lung Disease v0.33 MARS Zornitza Stark Tag new gene name tag was added to gene: MARS.
Mendeliome v0.9354 MARS Zornitza Stark Marked gene: MARS as ready
Mendeliome v0.9354 MARS Zornitza Stark Added comment: Comment when marking as ready: New HGNC approved gene name is MARS1.
Mendeliome v0.9354 MARS Zornitza Stark Gene: mars has been classified as Green List (High Evidence).
Mendeliome v0.9354 MARS Zornitza Stark Tag new gene name tag was added to gene: MARS.
Chromosome Breakage Disorders v1.8 MARS Zornitza Stark Marked gene: MARS as ready
Chromosome Breakage Disorders v1.8 MARS Zornitza Stark Added comment: Comment when marking as ready: New HGNC approved name is MARS1.
Chromosome Breakage Disorders v1.8 MARS Zornitza Stark Gene: mars has been classified as Red List (Low Evidence).
Chromosome Breakage Disorders v1.8 MARS Zornitza Stark Tag new gene name tag was added to gene: MARS.
Chromosome Breakage Disorders v1.8 MARS Zornitza Stark Marked gene: MARS as ready
Chromosome Breakage Disorders v1.8 MARS Zornitza Stark Gene: mars has been classified as Red List (Low Evidence).
Chromosome Breakage Disorders v1.8 MARS Zornitza Stark gene: MARS was added
gene: MARS was added to Chromosome Breakage Disorders. Sources: Literature
Mode of inheritance for gene: MARS was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: MARS were set to 33909043
Phenotypes for gene: MARS were set to Trichothiodystrophy, MONDO:0018053
Review for gene: MARS was set to RED
Added comment: Bi-allelic ariants in this gene are associated with interstitial and liver disease.

PMID: 33909043 - Botta et al 2021 - using WES/WGS analysis of 34 unsolved cases with multi-system phenotypes, but with hair alterations that are typical of trichothiodystrophy but no reported photosensitivity, they identified a homozygous variant in one Italian patient (c.1201G > A (p.Val401Me) that is very rare (gnomAD frequency 0.00001414). Functional studies suggest that the variant affects gene product stability.

Although chromosome breakage is unlikely to be the underlying mechanism, included in this panel for completeness with a Red rating (one individual reported).
Sources: Literature
Mendeliome v0.9354 MARS Zornitza Stark Marked gene: MARS as ready
Mendeliome v0.9354 MARS Zornitza Stark Gene: mars has been classified as Green List (High Evidence).
Mendeliome v0.9354 MARS Zornitza Stark Phenotypes for gene: MARS were changed from to Interstitial lung and liver disease, MIM#615486; Charcot-Marie-Tooth disease, axonal, type 2U, MIM# 616280; Trichothiodystrophy, MONDO:0018053
Mendeliome v0.9353 MARS Zornitza Stark Publications for gene: MARS were set to
Mendeliome v0.9352 MARS Zornitza Stark Mode of inheritance for gene: MARS was changed from Unknown to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Mendeliome v0.9351 MARS Zornitza Stark changed review comment from: Association with CMT: Two families reported. One mutation positive family member was asymptomatic. Second case is proband only testing with no segregation or functional data. Note one of the variants identified in dominant MARS1-associated neuropathy, p.Arg618Cys, has also been reported in AR MARS1-related pulmonary interstiatial/liver disease.; to: Association with CMT and mono-allelic variants: Two families reported. One mutation positive family member was asymptomatic. Second case is proband only testing with no segregation or functional data. Note one of the variants identified in dominant MARS1-associated neuropathy, p.Arg618Cys, has also been reported in AR MARS1-related pulmonary interstiatial/liver disease.
Mendeliome v0.9351 MARS Zornitza Stark changed review comment from: Association with interstitial lung and liver disease: More than 5 unrelated families reported. Founder variants in Reunion Island, p.Ser567Leu and p.Ala393Thr, in cis.

Pathologic examination of lung lavage is consistent with pulmonary alveolar proteinosis.; to: Association with interstitial lung and liver disease and bi-allelic variants: More than 5 unrelated families reported. Founder variants in Reunion Island, p.Ser567Leu and p.Ala393Thr, in cis.

Pathologic examination of lung lavage is consistent with pulmonary alveolar proteinosis.
Mendeliome v0.9351 MARS Zornitza Stark changed review comment from: Two families reported. One mutation positive family member was asymptomatic. Second case is proband only testing with no segregation or functional data. Note one of the variants identified in dominant MARS1-associated neuropathy, p.Arg618Cys, has also been reported in AR MARS1-related pulmonary interstiatial/liver disease.; to: Association with CMT: Two families reported. One mutation positive family member was asymptomatic. Second case is proband only testing with no segregation or functional data. Note one of the variants identified in dominant MARS1-associated neuropathy, p.Arg618Cys, has also been reported in AR MARS1-related pulmonary interstiatial/liver disease.
Mendeliome v0.9351 MARS Zornitza Stark edited their review of gene: MARS: Added comment: Association with interstitial lung and liver disease: More than 5 unrelated families reported. Founder variants in Reunion Island, p.Ser567Leu and p.Ala393Thr, in cis.

Pathologic examination of lung lavage is consistent with pulmonary alveolar proteinosis.; Changed rating: GREEN; Changed publications: 23729695, 24354524, 29655802, 24103465, 25913036; Changed phenotypes: Interstitial lung and liver disease, MIM#615486, Charcot-Marie-Tooth disease, axonal, type 2U, MIM# 616280; Changed mode of inheritance: BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Genetic Epilepsy v0.1274 TSPYL1 Krithika Murali gene: TSPYL1 was added
gene: TSPYL1 was added to Genetic Epilepsy. Sources: Expert list,Literature
Mode of inheritance for gene: TSPYL1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: TSPYL1 were set to 32885560; 15273283; 33075815
Phenotypes for gene: TSPYL1 were set to Sudden infant death with dysgenesis of the testes syndrome - 608800; sudden infant death-dysgenesis of the testes syndrome MONDO:0012124
Review for gene: TSPYL1 was set to GREEN
Added comment: First identified in a large Amish family - lethal disease characterized by sudden infant death from cardiorespiratory arrest with dysgenesis of the testes (Puffenberger et al 2004). Cases in non-Amish families reported with additional phenotypic features noted including epilepsy (Slater et al 2020 and Buyse et al 2020)
Sources: Expert list, Literature
Chromosome Breakage Disorders v1.7 AARS Zornitza Stark Marked gene: AARS as ready
Chromosome Breakage Disorders v1.7 AARS Zornitza Stark Gene: aars has been classified as Amber List (Moderate Evidence).
Chromosome Breakage Disorders v1.7 AARS Zornitza Stark Classified gene: AARS as Amber List (moderate evidence)
Chromosome Breakage Disorders v1.7 AARS Zornitza Stark Gene: aars has been classified as Amber List (Moderate Evidence).
Chromosome Breakage Disorders v1.6 AARS Zornitza Stark gene: AARS was added
gene: AARS was added to Chromosome Breakage Disorders. Sources: Literature
Mode of inheritance for gene: AARS was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: AARS were set to 33909043
Phenotypes for gene: AARS were set to Trichothiodystrophy, MONDO:0018053
Review for gene: AARS was set to AMBER
Added comment: PMID: 33909043 - Botta et al 2021 - using WES or WGS analysis of 34 unsolved cases with multi-system phenotypes, but with hair alterations that are typical of trichothiodystrophy but no reported photosensitivity, they identified 2 unrelated cases carrying 4 potentially pathogenic variants in the AARS1 gene (previously known as AARSB). Both patients had very rare compound heterozygous missense variants. In one family there was an older affected sibling but segregation data was not available for either family. Functional studies suggest that the variants affects gene product stability.

Amber rating as 2 families only, and uncertain of underlying mechanism (unlikely chromosome breakage, gene is associated with other disease entities) but included due to phenotypic overlap.
Sources: Literature
Mendeliome v0.9351 AARS Zornitza Stark Phenotypes for gene: AARS were changed from Epileptic encephalopathy, early infantile, 29, MIM# 616339; Charcot-Marie-Tooth disease, axonal, type 2N, MIM# 613287 to Epileptic encephalopathy, early infantile, 29, MIM# 616339; Charcot-Marie-Tooth disease, axonal, type 2N, MIM# 613287; trichothiodystrophy, MONDO:0018053
Mendeliome v0.9350 AARS Zornitza Stark Publications for gene: AARS were set to 28493438; 25817015; 20045102; 22009580; 22206013; 30373780; 26032230
Intellectual disability syndromic and non-syndromic v0.4194 CELF2 Zornitza Stark Phenotypes for gene: CELF2 were changed from Developmental and epileptic encephalopathy to Developmental and epileptic encephalopathy 97, MIM#619561
Genetic Epilepsy v0.1274 CELF2 Zornitza Stark Phenotypes for gene: CELF2 were changed from Developmental and epileptic encephalopathy 97, MIM#619561 to Developmental and epileptic encephalopathy 97, MIM#619561
Intellectual disability syndromic and non-syndromic v0.4193 CELF2 Zornitza Stark edited their review of gene: CELF2: Changed phenotypes: Developmental and epileptic encephalopathy 97, MIM#619561
Genetic Epilepsy v0.1274 CELF2 Zornitza Stark Phenotypes for gene: CELF2 were changed from Developmental and epileptic encephalopathy to Developmental and epileptic encephalopathy 97, MIM#619561
Genetic Epilepsy v0.1273 CELF2 Zornitza Stark edited their review of gene: CELF2: Changed phenotypes: Developmental and epileptic encephalopathy 97, MIM#619561
Mendeliome v0.9349 CELF2 Zornitza Stark Phenotypes for gene: CELF2 were changed from Developmental and epileptic encephalopathy to Developmental and epileptic encephalopathy 97, MIM#619561
Mendeliome v0.9348 CELF2 Zornitza Stark edited their review of gene: CELF2: Changed phenotypes: Developmental and epileptic encephalopathy 97, MIM#619561
Defects of intrinsic and innate immunity v0.81 SPPL2A Zornitza Stark Phenotypes for gene: SPPL2A were changed from Susceptibility to mycobacteria and Salmonella to Immunodeficiency 86, MIM#619549; Susceptibility to mycobacteria and Salmonella
Defects of intrinsic and innate immunity v0.80 SPPL2A Zornitza Stark edited their review of gene: SPPL2A: Changed phenotypes: Immunodeficiency 86, MIM#619549, Susceptibility to mycobacteria and Salmonella
Mendeliome v0.9348 SPPL2A Zornitza Stark Phenotypes for gene: SPPL2A were changed from Susceptibility to mycobacteria and Salmonella to Immunodeficiency 86, MIM#619549; Susceptibility to mycobacteria and Salmonella
Mendeliome v0.9347 SPPL2A Zornitza Stark edited their review of gene: SPPL2A: Changed phenotypes: Immunodeficiency 86, MIM#619549, Susceptibility to mycobacteria and Salmonella
Mendeliome v0.9347 USP48 Eleanor Williams gene: USP48 was added
gene: USP48 was added to Mendeliome. Sources: Literature
Mode of inheritance for gene: USP48 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: USP48 were set to 34059922
Phenotypes for gene: USP48 were set to non-syndromic hearing loss; nonsyndromic genetic deafness, MONDO:0019497
Penetrance for gene: USP48 were set to Incomplete
Review for gene: USP48 was set to GREEN
Added comment: PMID: 34059922 - Bassani et al 2021 - 3 cases reported with variants in USP48 and non syndromic hearing loss. They first analysed 4-generation Italian family with 6 individuals with hearing loss. The only rare variant segregating with the disease was a missense variant in USP48 (NM_032234.7:c.1216G > A, NP_115612.4:p.(Gly406Arg)). The variant is present in GnomAD v2.1.1 with a minor allele frequency (MAF) of 6.7 × 10−5 (17 allele out of 251 304 with no homozygotes). They also observed one hearing individual in the family who was heterozygous for the variant, suggesting incomplete penetrance.
In a Dutch family the found by exome sequencing a missense variant in USP48 (NM_032236.7:c.2215_2216delinsTT, NP_115612.4:p.(Thr739Leu)). The probands mother and uncle were also affected by no sequence data was available for analysis.
In a French family a proband is reported with right profound sensorineural hearing impairment (at 12 months), but normal left hearing (at 6 years old). The patient is heterozygote for a de novo splice variant in USP48 (NM_032236.7:c.3058 + 2 T > C, NP_115612.4:p.?;) which is not found in GnomAD and is predicted to result in a frameshift resulting in either NMD or a truncated protein.
In functional experiments they showed that the two missense variants found in the Italian and Dutch families, and a shortened protein as predicted for the variant found in the French variant, showed an impaired ability to cleave tetra-ubiquitin into tri-, di- and mono-ubiquitin. Using immunohistology, they show that the human USP48 protein is present in fetal inner ear specimens.
In addition zebrafish lacking usp48 showed a significant decrease of auditory response in acoustic startle response assays at 600 and 800 Hz wavelengths.
Sources: Literature
Mendeliome v0.9347 MARS Eleanor Williams reviewed gene: MARS: Rating: ; Mode of pathogenicity: None; Publications: 33909043; Phenotypes: trichothiodystrophy, MONDO:0018053; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9347 AARS Eleanor Williams changed review comment from: PMID: 33909043 - Botta et al 2021 - using WES or WGS analysis of 34 unsolved cases with multi-system phenotypes, but with hair alterations that are typical of trichothiodystrophy but no reported photosensitivity, they identified 2 unrelated cases carrying 4 potentially pathogenic variants in the AARS1 gene (previously known as AARSB. Both patients had very rare compound heterozygous missense variants. In one family there was an older affected sibling but segregation data was not available for either family.; to: PMID: 33909043 - Botta et al 2021 - using WES or WGS analysis of 34 unsolved cases with multi-system phenotypes, but with hair alterations that are typical of trichothiodystrophy but no reported photosensitivity, they identified 2 unrelated cases carrying 4 potentially pathogenic variants in the AARS1 gene (previously known as AARSB. Both patients had very rare compound heterozygous missense variants. In one family there was an older affected sibling but segregation data was not available for either family. Functional studies suggest that the variants affects gene product stability.
Mendeliome v0.9347 AARS Eleanor Williams reviewed gene: AARS: Rating: ; Mode of pathogenicity: None; Publications: 33909043; Phenotypes: trichothiodystrophy, MONDO:0018053; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Genetic Epilepsy v0.1273 CLN5 Zornitza Stark Marked gene: CLN5 as ready
Genetic Epilepsy v0.1273 CLN5 Zornitza Stark Gene: cln5 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1273 CLN5 Zornitza Stark Classified gene: CLN5 as Green List (high evidence)
Genetic Epilepsy v0.1273 CLN5 Zornitza Stark Gene: cln5 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1272 CLN5 Zornitza Stark gene: CLN5 was added
gene: CLN5 was added to Genetic Epilepsy. Sources: Expert Review
Mode of inheritance for gene: CLN5 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: CLN5 were set to 32983231; 15728307; 20157158
Phenotypes for gene: CLN5 were set to Ceroid lipofuscinosis, neuronal, 5, MIM# 256731
Review for gene: CLN5 was set to GREEN
Added comment: Well established gene-disease association, initial presentation with seizures reported.
Sources: Expert Review
Cerebral Palsy v1.16 WDR45 Zornitza Stark Marked gene: WDR45 as ready
Cerebral Palsy v1.16 WDR45 Zornitza Stark Gene: wdr45 has been classified as Green List (High Evidence).
Cerebral Palsy v1.16 WDR45 Zornitza Stark Publications for gene: WDR45 were set to PMID: 33528536, 34364746
Additional findings_Paediatric v0.257 AIP Zornitza Stark reviewed gene: AIP: Rating: AMBER; Mode of pathogenicity: None; Publications: ; Phenotypes: ; Mode of inheritance: None
Mendeliome v0.9347 AIP Zornitza Stark Marked gene: AIP as ready
Mendeliome v0.9347 AIP Zornitza Stark Gene: aip has been classified as Green List (High Evidence).
Mendeliome v0.9347 AIP Zornitza Stark Phenotypes for gene: AIP were changed from to Pituitary adenoma predisposition MIM#102200
Mendeliome v0.9346 AIP Zornitza Stark Publications for gene: AIP were set to
Mendeliome v0.9345 AIP Zornitza Stark Mode of inheritance for gene: AIP was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9344 TTC26 Zornitza Stark Phenotypes for gene: TTC26 were changed from Ciliopathy Syndrome with Biliary, Renal, Neurological, and Skeletal Manifestations to Biliary, renal, neurologic, and skeletal syndrome, MIM# 619534; Ciliopathy Syndrome with Biliary, Renal, Neurological, and Skeletal Manifestations
Mendeliome v0.9343 TTC26 Zornitza Stark edited their review of gene: TTC26: Changed phenotypes: Biliary, renal, neurologic, and skeletal syndrome, MIM# 619534, Ciliopathy Syndrome with Biliary, Renal, Neurological, and Skeletal Manifestations
Ciliopathies v1.12 TTC26 Zornitza Stark Phenotypes for gene: TTC26 were changed from Ciliopathy Syndrome with Biliary, Renal, Neurological, and Skeletal Manifestations to Biliary, renal, neurologic, and skeletal syndrome, MIM# 619534; Ciliopathy Syndrome with Biliary, Renal, Neurological, and Skeletal Manifestations
Ciliopathies v1.11 TTC26 Zornitza Stark edited their review of gene: TTC26: Changed phenotypes: Biliary, renal, neurologic, and skeletal syndrome, MIM# 619534, Ciliopathy Syndrome with Biliary, Renal, Neurological, and Skeletal Manifestations
Cholestasis v0.205 TTC26 Zornitza Stark Phenotypes for gene: TTC26 were changed from Ciliopathy Syndrome with Biliary, Renal, Neurological, and Skeletal Manifestations to Biliary, renal, neurologic, and skeletal syndrome, MIM# 619534; Ciliopathy Syndrome with Biliary, Renal, Neurological, and Skeletal Manifestations
Cholestasis v0.204 TTC26 Zornitza Stark edited their review of gene: TTC26: Changed phenotypes: Biliary, renal, neurologic, and skeletal syndrome, MIM# 619534, Ciliopathy Syndrome with Biliary, Renal, Neurological, and Skeletal Manifestations
Intellectual disability syndromic and non-syndromic v0.4193 AP1G1 Zornitza Stark Phenotypes for gene: AP1G1 were changed from Neurodevelopmental disorder (NDD); Intellectual Disability; Epilepsy to Usmani-Riazuddin syndrome, autosomal dominant, MIM# 619467; Usmani-Riazuddin syndrome, autosomal recessive, MIM# 619548; Neurodevelopmental disorder (NDD); Intellectual Disability; Epilepsy
Intellectual disability syndromic and non-syndromic v0.4192 AP1G1 Zornitza Stark edited their review of gene: AP1G1: Changed phenotypes: Usmani-Riazuddin syndrome, autosomal dominant, MIM# 619467, Usmani-Riazuddin syndrome, autosomal recessive, MIM# 619548, Neurodevelopmental disorder (NDD), Intellectual Disability, Epilepsy
Genetic Epilepsy v0.1271 AP1G1 Zornitza Stark Phenotypes for gene: AP1G1 were changed from Neurodevelopmental disorder (NDD); Intellectual Disability; Epilepsy to Usmani-Riazuddin syndrome, autosomal dominant, MIM# 619467; Usmani-Riazuddin syndrome, autosomal recessive, MIM# 619548; Neurodevelopmental disorder (NDD); Intellectual Disability; Epilepsy
Genetic Epilepsy v0.1270 AP1G1 Zornitza Stark reviewed gene: AP1G1: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Usmani-Riazuddin syndrome, autosomal dominant, MIM# 619467, Usmani-Riazuddin syndrome, autosomal recessive, MIM# 619548; Mode of inheritance: BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Mendeliome v0.9343 AP1G1 Zornitza Stark Phenotypes for gene: AP1G1 were changed from Neurodevelopmental disorder (NDD); Intellectual Disability; Epilepsy to Usmani-Riazuddin syndrome, autosomal dominant, MIM# 619467; Usmani-Riazuddin syndrome, autosomal recessive, MIM# 619548; Neurodevelopmental disorder (NDD); Intellectual Disability; Epilepsy
Mendeliome v0.9342 AP1G1 Zornitza Stark edited their review of gene: AP1G1: Changed rating: GREEN; Changed phenotypes: Usmani-Riazuddin syndrome, autosomal dominant, MIM# 619467, Usmani-Riazuddin syndrome, autosomal recessive, MIM# 619548; Changed mode of inheritance: BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Mendeliome v0.9342 CERKL Zornitza Stark Publications for gene: CERKL were set to 33322828; 32865075; 32411380
Retinitis pigmentosa_Autosomal Recessive/X-linked v0.103 CERKL Zornitza Stark Marked gene: CERKL as ready
Retinitis pigmentosa_Autosomal Recessive/X-linked v0.103 CERKL Zornitza Stark Gene: cerkl has been classified as Green List (High Evidence).
Retinitis pigmentosa_Autosomal Recessive/X-linked v0.103 CERKL Zornitza Stark Phenotypes for gene: CERKL were changed from Retinitis pigmentosa 26, 608380 to Retinitis pigmentosa 26, MIM# 608380
Mendeliome v0.9341 CERKL Zornitza Stark edited their review of gene: CERKL: Changed publications: 33322828, 32865075, 32411380, 14681825, 24043777, 28838317, 27208204, 28130426
Retinitis pigmentosa_Autosomal Recessive/X-linked v0.102 CERKL Zornitza Stark Publications for gene: CERKL were set to
Retinitis pigmentosa_Autosomal Recessive/X-linked v0.101 CERKL Zornitza Stark reviewed gene: CERKL: Rating: GREEN; Mode of pathogenicity: None; Publications: 33322828, 32865075, 32411380; Phenotypes: Retinitis pigmentosa 26, MIM# 608380; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9341 CERKL Zornitza Stark Marked gene: CERKL as ready
Mendeliome v0.9341 CERKL Zornitza Stark Gene: cerkl has been classified as Green List (High Evidence).
Mendeliome v0.9341 CERKL Zornitza Stark Phenotypes for gene: CERKL were changed from Retinitis pigmentosa 26, MIM# 608380 to Retinitis pigmentosa 26, MIM# 608380
Mendeliome v0.9341 CERKL Zornitza Stark Phenotypes for gene: CERKL were changed from to Retinitis pigmentosa 26, MIM# 608380
Mendeliome v0.9340 CERKL Zornitza Stark Publications for gene: CERKL were set to
Mendeliome v0.9339 CERKL Zornitza Stark Mode of inheritance for gene: CERKL was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9338 CERKL Zornitza Stark reviewed gene: CERKL: Rating: GREEN; Mode of pathogenicity: None; Publications: 33322828, 32865075, 32411380; Phenotypes: Retinitis pigmentosa 26, MIM# 608380; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9338 AIP Paul De Fazio changed review comment from: Germline variants in AIP cause predisposition to pituitary adenomas which may result in acromegaly.

A 2015 cohort study of 143 patients with pituitary gigantism who consented to genetic testing found 29% had variants in AIP. Age at first symptoms was 9-13 years, age at diagnosis 14-20 years.; to: Germline variants in AIP cause predisposition to pituitary adenomas which may result in acromegaly.

A 2015 cohort study of 143 patients with pituitary gigantism who consented to genetic testing found 29% had variants in AIP. Age at first symptoms was 9-13 years, age at diagnosis 14-20 years.

Many patients have no family history, suggesting low penetrance.
Additional findings_Paediatric v0.257 AIP Paul De Fazio reviewed gene: AIP: Rating: GREEN; Mode of pathogenicity: None; Publications: 16728643, 17360484, 26187128; Phenotypes: Pituitary adenoma predisposition MIM#102200; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown; Current diagnostic: yes
Mendeliome v0.9338 AIP Paul De Fazio reviewed gene: AIP: Rating: GREEN; Mode of pathogenicity: None; Publications: 16728643, 17360484, 26187128; Phenotypes: Pituitary adenoma predisposition MIM#102200; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown; Current diagnostic: yes
Cerebral vascular malformations v0.27 PIK3CA Zornitza Stark Marked gene: PIK3CA as ready
Cerebral vascular malformations v0.27 PIK3CA Zornitza Stark Gene: pik3ca has been classified as Green List (High Evidence).
Cerebral vascular malformations v0.27 PIK3CA Zornitza Stark Phenotypes for gene: PIK3CA were changed from Megalencephaly-Capillary Malformation-Polymicrogyria Syndrome; Megalencephaly-capillary malformation-polymicrogyria syndrome, somatic; Megalencephaly-capillary malformation-polymicrogyria syndrome, somatic, 602501; Congenital Lipomatous Overgrowth, Vascular Malformations, and Epidermal Nevi; Cerebral Malformation Disorders to Cerebral cavernous malformations 4, MIM#619538
Cerebral vascular malformations v0.26 PIK3CA Zornitza Stark Publications for gene: PIK3CA were set to
Cerebral vascular malformations v0.25 PIK3CA Zornitza Stark Mode of inheritance for gene: PIK3CA was changed from to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Cerebral Palsy v1.15 WDR45 Chirag Patel Classified gene: WDR45 as Green List (high evidence)
Cerebral Palsy v1.15 WDR45 Chirag Patel Gene: wdr45 has been classified as Green List (High Evidence).
Cerebral Palsy v1.15 WDR45 Chirag Patel Classified gene: WDR45 as Green List (high evidence)
Cerebral Palsy v1.15 WDR45 Chirag Patel Gene: wdr45 has been classified as Green List (High Evidence).
Cerebral vascular malformations v0.24 PIK3CA Zornitza Stark Classified gene: PIK3CA as Green List (high evidence)
Cerebral vascular malformations v0.24 PIK3CA Zornitza Stark Gene: pik3ca has been classified as Green List (High Evidence).
Cerebral Palsy v1.15 WDR45 Chirag Patel Classified gene: WDR45 as Green List (high evidence)
Cerebral Palsy v1.15 WDR45 Chirag Patel Gene: wdr45 has been classified as Green List (High Evidence).
Cerebral vascular malformations v0.23 PIK3CA Zornitza Stark Tag somatic tag was added to gene: PIK3CA.
Cerebral vascular malformations v0.23 PIK3CA Zornitza Stark reviewed gene: PIK3CA: Rating: GREEN; Mode of pathogenicity: None; Publications: 34496175; Phenotypes: Cerebral cavernous malformations 4, MIM#619538; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Cerebral Palsy v1.14 WDR45 Chirag Patel gene: WDR45 was added
gene: WDR45 was added to Cerebral Palsy. Sources: Literature
Mode of inheritance for gene: WDR45 was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Publications for gene: WDR45 were set to PMID: 33528536, 34364746
Phenotypes for gene: WDR45 were set to Neurodegeneration with brain iron accumulation 5, OMIM # 300894
Review for gene: WDR45 was set to GREEN
Added comment: Established gene for neurodevelopmental/degenerative disorder with spasticity and dystonia. Moreno-De-Luca et al. (2021) reported 4 patients with CP with P/LP variants.
Zahrani et al. (2021) reported 2 patients with dystonic/hypotonic CP with variants.
Sources: Literature
Cerebral Palsy v1.13 ZEB2 Zornitza Stark Marked gene: ZEB2 as ready
Cerebral Palsy v1.13 ZEB2 Zornitza Stark Gene: zeb2 has been classified as Green List (High Evidence).
Cerebral Palsy v1.13 ZEB2 Zornitza Stark Publications for gene: ZEB2 were set to PMID: 33528536, 33098801
Cerebral Palsy v1.12 UBE3A Zornitza Stark Marked gene: UBE3A as ready
Cerebral Palsy v1.12 UBE3A Zornitza Stark Gene: ube3a has been classified as Green List (High Evidence).
Cerebral Palsy v1.12 TUBB4A Zornitza Stark Marked gene: TUBB4A as ready
Cerebral Palsy v1.12 TUBB4A Zornitza Stark Gene: tubb4a has been classified as Green List (High Evidence).
Cerebral Palsy v1.12 TUBB4A Zornitza Stark Publications for gene: TUBB4A were set to PMID: 34531397, 33528536
Cerebral Palsy v1.11 TUBB2B Zornitza Stark Marked gene: TUBB2B as ready
Cerebral Palsy v1.11 TUBB2B Zornitza Stark Gene: tubb2b has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1270 CACNA1C Zornitza Stark Marked gene: CACNA1C as ready
Genetic Epilepsy v0.1270 CACNA1C Zornitza Stark Gene: cacna1c has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1270 CACNA1C Zornitza Stark Classified gene: CACNA1C as Green List (high evidence)
Genetic Epilepsy v0.1270 CACNA1C Zornitza Stark Gene: cacna1c has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1269 CACNA1C Zornitza Stark gene: CACNA1C was added
gene: CACNA1C was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: CACNA1C was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: CACNA1C were set to 34163037
Phenotypes for gene: CACNA1C were set to Neurodevelopmental abnormalities and epilepsy, no OMIM#
Review for gene: CACNA1C was set to GREEN
Added comment: Rodan et al. (2021) reported 25 individuals from 22 families with heterozygous truncating and missense variants in CACNA1C. The individuals presented with developmental delays, intellectual disability, autism, hypotonia, ataxia, and epilepsy BUT absence of classic features of Timothy syndrome or long QT syndrome. Functional studies of a subgroup of missense variants demonstrated loss of function, neutral effect, and gain of function on channel function in vitro.
Sources: Literature
Intellectual disability syndromic and non-syndromic v0.4192 CACNA1C Zornitza Stark Publications for gene: CACNA1C were set to
Intellectual disability syndromic and non-syndromic v0.4191 CACNA1C Zornitza Stark Mode of inheritance for gene: CACNA1C was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9338 SHANK1 Zornitza Stark Marked gene: SHANK1 as ready
Mendeliome v0.9338 SHANK1 Zornitza Stark Gene: shank1 has been classified as Green List (High Evidence).
Mendeliome v0.9338 SHANK1 Zornitza Stark Phenotypes for gene: SHANK1 were changed from to Neurodevelopmental disorder, no OMIM#
Mendeliome v0.9337 SHANK1 Zornitza Stark Publications for gene: SHANK1 were set to
Cerebral Palsy v1.11 ZEB2 Chirag Patel Classified gene: ZEB2 as Green List (high evidence)
Cerebral Palsy v1.11 ZEB2 Chirag Patel Gene: zeb2 has been classified as Green List (High Evidence).
Cerebral Palsy v1.11 ZEB2 Chirag Patel Classified gene: ZEB2 as Green List (high evidence)
Cerebral Palsy v1.11 ZEB2 Chirag Patel Gene: zeb2 has been classified as Green List (High Evidence).
Mendeliome v0.9336 SHANK1 Zornitza Stark Mode of inheritance for gene: SHANK1 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9335 SHANK1 Zornitza Stark reviewed gene: SHANK1: Rating: GREEN; Mode of pathogenicity: None; Publications: 34113010, 22503632, 25188300; Phenotypes: Neurodevelopmental disorder, no OMIM#; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Cerebral Palsy v1.11 ZEB2 Chirag Patel Classified gene: ZEB2 as Green List (high evidence)
Cerebral Palsy v1.11 ZEB2 Chirag Patel Gene: zeb2 has been classified as Green List (High Evidence).
Cerebral Palsy v1.11 ZEB2 Chirag Patel Classified gene: ZEB2 as Green List (high evidence)
Cerebral Palsy v1.11 ZEB2 Chirag Patel Gene: zeb2 has been classified as Green List (High Evidence).
Cerebral Palsy v1.10 ZEB2 Chirag Patel Classified gene: ZEB2 as Green List (high evidence)
Cerebral Palsy v1.10 ZEB2 Chirag Patel Gene: zeb2 has been classified as Green List (High Evidence).
Cerebral Palsy v1.10 ZEB2 Chirag Patel Classified gene: ZEB2 as Green List (high evidence)
Cerebral Palsy v1.10 ZEB2 Chirag Patel Gene: zeb2 has been classified as Green List (High Evidence).
Cerebral Palsy v1.10 ZEB2 Chirag Patel Classified gene: ZEB2 as Green List (high evidence)
Cerebral Palsy v1.10 ZEB2 Chirag Patel Gene: zeb2 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4190 SHANK1 Zornitza Stark Phenotypes for gene: SHANK1 were changed from Autism to Neurodevelopmental disorder, no OMIM#
Intellectual disability syndromic and non-syndromic v0.4189 SHANK1 Zornitza Stark Publications for gene: SHANK1 were set to 22503632; 25188300
Intellectual disability syndromic and non-syndromic v0.4188 SHANK1 Zornitza Stark Mode of inheritance for gene: SHANK1 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Cerebral Palsy v1.9 ZEB2 Chirag Patel gene: ZEB2 was added
gene: ZEB2 was added to Cerebral Palsy. Sources: Literature
Mode of inheritance for gene: ZEB2 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: ZEB2 were set to PMID: 33528536, 33098801
Phenotypes for gene: ZEB2 were set to Mowat-Wilson syndrome, OMIM # 235730
Review for gene: ZEB2 was set to GREEN
Added comment: Neurodevelopmental disorder with DD, ID, epilepsy, and dysmorphism.
Moreno-De-Luca et al. (2021) reported 3 patients with CP with P/LP variants.
Zech et al. (2020) reported 1 patient with dystonic CP with de novo variant.
Sources: Literature
Mendeliome v0.9335 GDF11 Zornitza Stark Classified gene: GDF11 as Green List (high evidence)
Mendeliome v0.9335 GDF11 Zornitza Stark Gene: gdf11 has been classified as Green List (High Evidence).
Mendeliome v0.9334 GDF11 Zornitza Stark edited their review of gene: GDF11: Added comment: Ravenscroft et al. (2021) report additional 6 probands who presented with craniofacial (5/6), vertebral (5/6), neurological (6/6), visual (4/6), cardiac (3/6), auditory (3/6), and connective tissue abnormalities (3/6). They found de novo and inherited variants in GDF11. gdf11 mutant zebrafish showed craniofacial abnormalities and body segmentation defects that matched some patient phenotypes. Expression of the patients’ variants in the fly showed that one nonsense variant in GDF11 is a severe loss-of-function (LOF) allele whereas the missense variants are partial LOF variants.; Changed rating: GREEN; Changed publications: 31215115, 34113007
Clefting disorders v0.144 GDF11 Zornitza Stark Publications for gene: GDF11 were set to PubMed: 31215115
Cerebral Palsy v1.8 UBE3A Chirag Patel Classified gene: UBE3A as Green List (high evidence)
Cerebral Palsy v1.8 UBE3A Chirag Patel Gene: ube3a has been classified as Green List (High Evidence).
Cerebral Palsy v1.7 UBE3A Chirag Patel gene: UBE3A was added
gene: UBE3A was added to Cerebral Palsy. Sources: Literature
Mode of inheritance for gene: UBE3A was set to MONOALLELIC, autosomal or pseudoautosomal, paternally imprinted (maternal allele expressed)
Publications for gene: UBE3A were set to PMID: 33528536
Phenotypes for gene: UBE3A were set to Angelman syndrome , OMIM #105830
Review for gene: UBE3A was set to GREEN
Added comment: Neurodevelopmental disorder with DD, ID, epilepsy, and ataxia. Moreno-De-Luca et al. (2021) reported 3 patients with CP with P/LP variants.
Sources: Literature
Genetic Epilepsy v0.1268 PLXNA1 Zornitza Stark Marked gene: PLXNA1 as ready
Genetic Epilepsy v0.1268 PLXNA1 Zornitza Stark Gene: plxna1 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1268 PLXNA1 Zornitza Stark Classified gene: PLXNA1 as Green List (high evidence)
Genetic Epilepsy v0.1268 PLXNA1 Zornitza Stark Gene: plxna1 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1267 PLXNA1 Zornitza Stark gene: PLXNA1 was added
gene: PLXNA1 was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: PLXNA1 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Publications for gene: PLXNA1 were set to 34054129
Phenotypes for gene: PLXNA1 were set to Neurodevelopmental disorder with cerebral and eye anomalies
Review for gene: PLXNA1 was set to GREEN
Added comment: Dworschak et al. (2021) via WES reported 10 patients from 7 families with biallelic (n=7) or de novo (n=3) PLXNA1 variants. Shared phenotypic features include global developmental delay (9/10), brain anomalies (6/10), and eye anomalies (7/10). Seizures were predominantly reported in patients with monoallelic variants. Zebrafish studies showed an embryonic role of plxna1a in the development of the central nervous system and the eye. Biallelic variants in the extracellular Plexin-A1 domains lead to impaired dimerization or lack of receptor molecules, whereas monoallelic variants in the intracellular Plexin-A1 domains might impair downstream signaling through a dominant-negative effect.
Sources: Literature
Mendeliome v0.9334 PLXNA1 Zornitza Stark Marked gene: PLXNA1 as ready
Mendeliome v0.9334 PLXNA1 Zornitza Stark Gene: plxna1 has been classified as Green List (High Evidence).
Mendeliome v0.9334 PLXNA1 Zornitza Stark Classified gene: PLXNA1 as Green List (high evidence)
Mendeliome v0.9334 PLXNA1 Zornitza Stark Gene: plxna1 has been classified as Green List (High Evidence).
Mendeliome v0.9333 PLXNA1 Zornitza Stark gene: PLXNA1 was added
gene: PLXNA1 was added to Mendeliome. Sources: Literature
Mode of inheritance for gene: PLXNA1 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Publications for gene: PLXNA1 were set to 34054129
Phenotypes for gene: PLXNA1 were set to Neurodevelopmental disorder with cerebral and eye anomalies
Review for gene: PLXNA1 was set to GREEN
Added comment: Dworschak et al. (2021) via WES reported 10 patients from 7 families with biallelic (n=7) or de novo (n=3) PLXNA1 variants. Shared phenotypic features include global developmental delay (9/10), brain anomalies (6/10), and eye anomalies (7/10). Seizures were predominantly reported in patients with monoallelic variants. Zebrafish studies showed an embryonic role of plxna1a in the development of the central nervous system and the eye. Biallelic variants in the extracellular Plexin-A1 domains lead to impaired dimerization or lack of receptor molecules, whereas monoallelic variants in the intracellular Plexin-A1 domains might impair downstream signaling through a dominant-negative effect.
Sources: Literature
Intellectual disability syndromic and non-syndromic v0.4187 PLXNA1 Zornitza Stark Marked gene: PLXNA1 as ready
Intellectual disability syndromic and non-syndromic v0.4187 PLXNA1 Zornitza Stark Gene: plxna1 has been classified as Green List (High Evidence).
Cerebral Palsy v1.6 TUBB2B Chirag Patel reviewed gene: TUBB2B: Rating: RED; Mode of pathogenicity: None; Publications: ; Phenotypes: ; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Cerebral Palsy v1.6 TUBB4A Chirag Patel Classified gene: TUBB4A as Green List (high evidence)
Cerebral Palsy v1.6 TUBB4A Chirag Patel Gene: tubb4a has been classified as Green List (High Evidence).
Cerebral Palsy v1.5 TUBB4A Chirag Patel Classified gene: TUBB4A as Green List (high evidence)
Cerebral Palsy v1.5 TUBB4A Chirag Patel Gene: tubb4a has been classified as Green List (High Evidence).
Cerebral Palsy v1.5 TUBB4A Chirag Patel Classified gene: TUBB4A as Green List (high evidence)
Cerebral Palsy v1.5 TUBB4A Chirag Patel Gene: tubb4a has been classified as Green List (High Evidence).
Cerebral Palsy v1.4 TUBB4A Chirag Patel gene: TUBB4A was added
gene: TUBB4A was added to Cerebral Palsy. Sources: Literature
Mode of inheritance for gene: TUBB4A was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: TUBB4A were set to PMID: 34531397, 33528536
Phenotypes for gene: TUBB4A were set to Dystonia 4, torsion, autosomal dominant, OMIM #128101; Leukodystrophy, hypomyelinating, 6, OMIM # 612438
Review for gene: TUBB4A was set to GREEN
Added comment: Van Eyk et al. (2021) reported 1 patient with dystonic CP with de novo variant. Moreno-De-Luca et al. (2021) reported 6 patients with CP with P/LP variants.
Sources: Literature
Cerebral Palsy v1.3 TUBB2B Chirag Patel Deleted their review
Cerebral Palsy v1.3 TUBB2B Chirag Patel gene: TUBB2B was added
gene: TUBB2B was added to Cerebral Palsy. Sources: Literature
Mode of inheritance for gene: TUBB2B was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: TUBB2B were set to PMID: 33528536
Phenotypes for gene: TUBB2B were set to Cortical dysplasia, complex, with other brain malformations 7, OMIM # 610031
Review for gene: TUBB2B was set to RED
Added comment: Moreno-De-Luca et al. (2021) reported 3 patients with cerebral palsy with de novo pathogenic/LP variants BUT primarily presents with cortical malformations
Sources: Literature
Cerebral Palsy v1.2 TCF4 Chirag Patel Classified gene: TCF4 as Green List (high evidence)
Cerebral Palsy v1.2 TCF4 Chirag Patel Gene: tcf4 has been classified as Green List (High Evidence).
Cerebral Palsy v1.1 TCF4 Chirag Patel Classified gene: TCF4 as Green List (high evidence)
Cerebral Palsy v1.1 TCF4 Chirag Patel Gene: tcf4 has been classified as Green List (High Evidence).
Cerebral Palsy v1.1 TCF4 Chirag Patel Classified gene: TCF4 as Green List (high evidence)
Cerebral Palsy v1.1 TCF4 Chirag Patel Gene: tcf4 has been classified as Green List (High Evidence).
Cerebral Palsy v1.0 TCF4 Chirag Patel reviewed gene: TCF4: Rating: GREEN; Mode of pathogenicity: None; Publications: PMID: 33528536; Phenotypes: Pitt-Hopkins syndrome, MIM# 610954; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Intellectual disability syndromic and non-syndromic v0.4187 CACNA1C Chirag Patel reviewed gene: CACNA1C: Rating: GREEN; Mode of pathogenicity: None; Publications: PMID: 34163037; Phenotypes: Neurodevelopmental abnormalities and epilepsy, no OMIM#; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Intellectual disability syndromic and non-syndromic v0.4187 SHANK1 Chirag Patel Classified gene: SHANK1 as Green List (high evidence)
Intellectual disability syndromic and non-syndromic v0.4187 SHANK1 Chirag Patel Gene: shank1 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4186 SHANK1 Chirag Patel Classified gene: SHANK1 as Green List (high evidence)
Intellectual disability syndromic and non-syndromic v0.4186 SHANK1 Chirag Patel Gene: shank1 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4185 SHANK1 Chirag Patel reviewed gene: SHANK1: Rating: GREEN; Mode of pathogenicity: None; Publications: PMID: 34113010; Phenotypes: Neurodevelopmental disorder, no OMIM#; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Clefting disorders v0.143 GDF11 Chirag Patel Classified gene: GDF11 as Green List (high evidence)
Clefting disorders v0.143 GDF11 Chirag Patel Gene: gdf11 has been classified as Green List (High Evidence).
Clefting disorders v0.142 GDF11 Chirag Patel edited their review of gene: GDF11: Added comment: Ravenscroft et al. (2021) report 6 probands who presented with craniofacial (5/6), vertebral (5/6), neurological (6/6), visual (4/6), cardiac (3/6), auditory (3/6), and connective tissue abnormalities (3/6). They found de novo and inherited variants in GDF11. gdf11 mutant zebrafish showed craniofacial abnormalities and body segmentation defects that matched some patient phenotypes. Expression of the patients’ variants in the fly showed that one nonsense variant in GDF11 is a severe loss-of-function (LOF) allele whereas the missense variants are partial LOF variants.; Changed rating: GREEN; Changed publications: PubMed: 31215115, 34113007; Changed phenotypes: Vertebral hypersegmentation and orofacial anomalies (VHO), OMIM #619122
Intellectual disability syndromic and non-syndromic v0.4185 PLXNA1 Chirag Patel Classified gene: PLXNA1 as Green List (high evidence)
Intellectual disability syndromic and non-syndromic v0.4185 PLXNA1 Chirag Patel Gene: plxna1 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4184 PLXNA1 Chirag Patel gene: PLXNA1 was added
gene: PLXNA1 was added to Intellectual disability syndromic and non-syndromic. Sources: Literature
Mode of inheritance for gene: PLXNA1 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Publications for gene: PLXNA1 were set to PMID: 34054129
Phenotypes for gene: PLXNA1 were set to Neurodevelopmental disorder with cerebral and eye anomalies
Review for gene: PLXNA1 was set to GREEN
Added comment: Dworschak et al. (2021) via WES reported 10 patients from 7 families with biallelic (n=7) or de novo (n=3) PLXNA1 variants. Shared phenotypic features include global developmental delay (9/10), brain anomalies (6/10), and eye anomalies (7/10). Seizures were predominantly reported in patients with monoallelic variants. Zebrafish studies showed an embryonic role of plxna1a in the development of the central nervous system and the eye. Biallelic variants in the extracellular Plexin-A1 domains lead to impaired dimerization or lack of receptor molecules, whereas monoallelic variants in the intracellular Plexin-A1 domains might impair downstream signaling through a dominant-negative effect.
Sources: Literature
Cerebral Palsy v1.0 Zornitza Stark promoted panel to version 1.0
Cerebral Palsy v0.190 TCF4 Zornitza Stark Marked gene: TCF4 as ready
Cerebral Palsy v0.190 TCF4 Zornitza Stark Gene: tcf4 has been classified as Amber List (Moderate Evidence).
Cerebral Palsy v0.190 TCF4 Zornitza Stark Classified gene: TCF4 as Amber List (moderate evidence)
Cerebral Palsy v0.190 TCF4 Zornitza Stark Gene: tcf4 has been classified as Amber List (Moderate Evidence).
Cerebral Palsy v0.189 TCF4 Zornitza Stark gene: TCF4 was added
gene: TCF4 was added to Cerebral Palsy. Sources: Expert Review
Mode of inheritance for gene: TCF4 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Phenotypes for gene: TCF4 were set to Pitt-Hopkins syndrome, MIM# 610954
Review for gene: TCF4 was set to AMBER
Added comment: Well established gene-disease association. Severe ID, seizures, dysmorphic features, but can be ataxic. Not specifically identified in CP cohorts.
Sources: Expert Review
Cerebral Palsy v0.188 STXBP1 Zornitza Stark Marked gene: STXBP1 as ready
Cerebral Palsy v0.188 STXBP1 Zornitza Stark Gene: stxbp1 has been classified as Green List (High Evidence).
Cerebral Palsy v0.188 STXBP1 Zornitza Stark Classified gene: STXBP1 as Green List (high evidence)
Cerebral Palsy v0.188 STXBP1 Zornitza Stark Gene: stxbp1 has been classified as Green List (High Evidence).
Cerebral Palsy v0.187 STXBP1 Zornitza Stark gene: STXBP1 was added
gene: STXBP1 was added to Cerebral Palsy. Sources: Expert Review
Mode of inheritance for gene: STXBP1 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: STXBP1 were set to 29761117
Phenotypes for gene: STXBP1 were set to Developmental and epileptic encephalopathy 4, MIM# 612164
Review for gene: STXBP1 was set to GREEN
Added comment: ID and seizures, though spastic quadriplegia reported, and variants identified as part of CP cohorts.
Sources: Expert Review
Congenital nystagmus v0.4 CRX Zornitza Stark gene: CRX was added
gene: CRX was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: CRX was set to
Congenital nystagmus v0.4 GUCY2D Zornitza Stark gene: GUCY2D was added
gene: GUCY2D was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: GUCY2D was set to
Congenital nystagmus v0.4 AIPL1 Zornitza Stark gene: AIPL1 was added
gene: AIPL1 was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: AIPL1 was set to
Congenital nystagmus v0.4 SPATA7 Zornitza Stark gene: SPATA7 was added
gene: SPATA7 was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: SPATA7 was set to
Congenital nystagmus v0.4 RDH12 Zornitza Stark gene: RDH12 was added
gene: RDH12 was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: RDH12 was set to
Congenital nystagmus v0.4 RPGRIP1 Zornitza Stark gene: RPGRIP1 was added
gene: RPGRIP1 was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: RPGRIP1 was set to
Congenital nystagmus v0.4 CEP290 Zornitza Stark gene: CEP290 was added
gene: CEP290 was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: CEP290 was set to
Congenital nystagmus v0.4 ROM1 Zornitza Stark gene: ROM1 was added
gene: ROM1 was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: ROM1 was set to
Congenital nystagmus v0.4 GDF6 Zornitza Stark gene: GDF6 was added
gene: GDF6 was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: GDF6 was set to
Congenital nystagmus v0.4 IMPDH1 Zornitza Stark gene: IMPDH1 was added
gene: IMPDH1 was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: IMPDH1 was set to
Congenital nystagmus v0.4 USP45 Zornitza Stark gene: USP45 was added
gene: USP45 was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: USP45 was set to
Congenital nystagmus v0.4 PRPH2 Zornitza Stark gene: PRPH2 was added
gene: PRPH2 was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: PRPH2 was set to
Congenital nystagmus v0.4 TULP1 Zornitza Stark Source Expert Review Green was added to TULP1.
Source Expert list was added to TULP1.
Rating Changed from Amber List (moderate evidence) to Green List (high evidence)
Congenital nystagmus v0.4 LRAT Zornitza Stark gene: LRAT was added
gene: LRAT was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: LRAT was set to
Congenital nystagmus v0.4 KCNJ13 Zornitza Stark gene: KCNJ13 was added
gene: KCNJ13 was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: KCNJ13 was set to
Congenital nystagmus v0.4 RD3 Zornitza Stark gene: RD3 was added
gene: RD3 was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: RD3 was set to
Congenital nystagmus v0.4 CRB1 Zornitza Stark gene: CRB1 was added
gene: CRB1 was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: CRB1 was set to
Congenital nystagmus v0.4 RPE65 Zornitza Stark Source Expert list was added to RPE65.
Congenital nystagmus v0.4 NMNAT1 Zornitza Stark gene: NMNAT1 was added
gene: NMNAT1 was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: NMNAT1 was set to
Congenital nystagmus v0.4 RGS9BP Zornitza Stark gene: RGS9BP was added
gene: RGS9BP was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: RGS9BP was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: RGS9BP were set to 19818506; 14702087
Phenotypes for gene: RGS9BP were set to Bradyopsia MIM#608415
Congenital nystagmus v0.4 RGS9 Zornitza Stark gene: RGS9 was added
gene: RGS9 was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: RGS9 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: RGS9 were set to 10676965; 29107794; 14702087
Phenotypes for gene: RGS9 were set to Bradyopsia MIM#608415
Congenital nystagmus v0.4 PDE6H Zornitza Stark gene: PDE6H was added
gene: PDE6H was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: PDE6H was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: PDE6H were set to 22901948
Phenotypes for gene: PDE6H were set to Achromatopsia 6 MIM#610024
Congenital nystagmus v0.4 PDE6C Zornitza Stark gene: PDE6C was added
gene: PDE6C was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: PDE6C was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: PDE6C were set to 19615668; 30080950
Phenotypes for gene: PDE6C were set to Cone dystrophy 4, MIM# 613093; Achromatopsia-5
Congenital nystagmus v0.4 GNAT2 Zornitza Stark gene: GNAT2 was added
gene: GNAT2 was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: GNAT2 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: GNAT2 were set to 32203983; 17251445
Phenotypes for gene: GNAT2 were set to Achromatopsia 4 MIM#613856
Congenital nystagmus v0.4 CNGB3 Zornitza Stark gene: CNGB3 was added
gene: CNGB3 was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: CNGB3 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: CNGB3 were set to 17265047
Phenotypes for gene: CNGB3 were set to Achromatopsia 3 MIM#262300
Congenital nystagmus v0.4 CNGA3 Zornitza Stark gene: CNGA3 was added
gene: CNGA3 was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: CNGA3 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: CNGA3 were set to 9662398; 17265047; 11536077
Phenotypes for gene: CNGA3 were set to Achromatopsia 2 MIM#216900
Congenital nystagmus v0.4 ATF6 Zornitza Stark gene: ATF6 was added
gene: ATF6 was added to Congenital nystagmus. Sources: Expert Review Green,Expert list
Mode of inheritance for gene: ATF6 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ATF6 were set to 26029869; 26063662
Phenotypes for gene: ATF6 were set to Achromatopsia 7 MIM#616517
Congenital nystagmus v0.4 ITM2B Zornitza Stark gene: ITM2B was added
gene: ITM2B was added to Congenital nystagmus. Sources: Expert list,Expert Review Red
Mode of inheritance for gene: ITM2B was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Phenotypes for gene: ITM2B were set to ?Retinal dystrophy with inner retinal dysfunction and ganglion cell abnormalities MIM#616079
Congenital nystagmus v0.4 TRPM1 Zornitza Stark gene: TRPM1 was added
gene: TRPM1 was added to Congenital nystagmus. Sources: Expert Review Green,Royal Melbourne Hospital
Mode of inheritance for gene: TRPM1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: TRPM1 were set to Night blindness, congenital stationary (complete), 1C, autosomal recessive, 613216
Congenital nystagmus v0.4 SLC24A1 Zornitza Stark gene: SLC24A1 was added
gene: SLC24A1 was added to Congenital nystagmus. Sources: Expert Review Green,Royal Melbourne Hospital
Mode of inheritance for gene: SLC24A1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: SLC24A1 were set to Night blindness, congenital stationary (complete), 1D, autosomal recessive, 613830
Congenital nystagmus v0.4 SAG Zornitza Stark gene: SAG was added
gene: SAG was added to Congenital nystagmus. Sources: Expert Review Green,Royal Melbourne Hospital
Mode of inheritance for gene: SAG was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: SAG were set to Oguchi disease-1, MIM# 258100
Congenital nystagmus v0.4 RPE65 Zornitza Stark gene: RPE65 was added
gene: RPE65 was added to Congenital nystagmus. Sources: Expert Review Green,Royal Melbourne Hospital
Mode of inheritance for gene: RPE65 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: RPE65 were set to Leber Congenital Amaurosis; Leber congenital amaurosis 2, 204100; Leber congenital amaurosis 2; Retinitis pigmentosa 20
Congenital nystagmus v0.4 RIMS2 Zornitza Stark gene: RIMS2 was added
gene: RIMS2 was added to Congenital nystagmus. Sources: Expert Review Green,Literature
Mode of inheritance for gene: RIMS2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: RIMS2 were set to night blindness; Cone-rod synaptic disorder syndrome, congenital nonprogressive , MIM#618970; retinal dysfunction; nystagmus; autism
Congenital nystagmus v0.4 RHO Zornitza Stark gene: RHO was added
gene: RHO was added to Congenital nystagmus. Sources: Expert Review Green,Royal Melbourne Hospital
Mode of inheritance for gene: RHO was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: RHO were set to Night blindness, congenital stationary autosomal dominant 1; Retinitis punctata albescens; Retinitis pigmentosa
Congenital nystagmus v0.4 RDH5 Zornitza Stark gene: RDH5 was added
gene: RDH5 was added to Congenital nystagmus. Sources: Expert Review Green,Royal Melbourne Hospital
Mode of inheritance for gene: RDH5 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Phenotypes for gene: RDH5 were set to Congenital Stationary Night Blindness; Fundus albipunctatus; Fundus albipunctatus, 136880; Achromatopsia, Cone, and Cone-rod Dystrophy
Congenital nystagmus v0.4 PDE6B Zornitza Stark gene: PDE6B was added
gene: PDE6B was added to Congenital nystagmus. Sources: Expert Review Green,Royal Melbourne Hospital
Mode of inheritance for gene: PDE6B was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: PDE6B were set to Night blindness, congenital stationary, autosomal dominant 2, 163500; Retinitis pigmentosa
Congenital nystagmus v0.4 NYX Zornitza Stark gene: NYX was added
gene: NYX was added to Congenital nystagmus. Sources: Expert Review Green,Royal Melbourne Hospital
Mode of inheritance for gene: NYX was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: NYX were set to Night blindness, congenital stationary (complete), 1A, X-linked, 310500
Congenital nystagmus v0.4 LRIT3 Zornitza Stark gene: LRIT3 was added
gene: LRIT3 was added to Congenital nystagmus. Sources: Expert Review Green,Royal Melbourne Hospital
Mode of inheritance for gene: LRIT3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: LRIT3 were set to Night blindness, congenital stationary (complete), 1F, autosomal recessive, 615058
Congenital nystagmus v0.4 GRM6 Zornitza Stark gene: GRM6 was added
gene: GRM6 was added to Congenital nystagmus. Sources: Expert Review Green,Royal Melbourne Hospital
Mode of inheritance for gene: GRM6 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GRM6 were set to Night blindness, congenital stationary (complete), 1B, autosomal recessive, 257270
Congenital nystagmus v0.4 GRK1 Zornitza Stark gene: GRK1 was added
gene: GRK1 was added to Congenital nystagmus. Sources: Expert Review Green,Royal Melbourne Hospital
Mode of inheritance for gene: GRK1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GRK1 were set to Oguchi disease-2, 613411
Congenital nystagmus v0.4 GPR179 Zornitza Stark gene: GPR179 was added
gene: GPR179 was added to Congenital nystagmus. Sources: Expert Review Green,Royal Melbourne Hospital
Mode of inheritance for gene: GPR179 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GPR179 were set to Night blindness, congenital stationary (complete), 1E, autosomal recessive, 614565
Congenital nystagmus v0.4 GNB3 Zornitza Stark gene: GNB3 was added
gene: GNB3 was added to Congenital nystagmus. Sources: Expert Review Green,Royal Melbourne Hospital
Mode of inheritance for gene: GNB3 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: GNB3 were set to Night blindness, congenital stationary, type 1H, MIM# 617024
Congenital nystagmus v0.4 GNAT1 Zornitza Stark gene: GNAT1 was added
gene: GNAT1 was added to Congenital nystagmus. Sources: Expert Review Green,Royal Melbourne Hospital
Mode of inheritance for gene: GNAT1 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: GNAT1 were set to Night blindness, congenital stationary, autosomal dominant 3, 610444
Congenital nystagmus v0.4 CHM Zornitza Stark gene: CHM was added
gene: CHM was added to Congenital nystagmus. Sources: Expert Review Green,Royal Melbourne Hospital
Mode of inheritance for gene: CHM was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Phenotypes for gene: CHM were set to Choroideremia (degeneration of the choriocapillaris, the retinal pigment epithelium, and the photoreceptor of the eye)
Congenital nystagmus v0.4 CACNA2D4 Zornitza Stark gene: CACNA2D4 was added
gene: CACNA2D4 was added to Congenital nystagmus. Sources: Expert Review Green,Royal Melbourne Hospital
Mode of inheritance for gene: CACNA2D4 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CACNA2D4 were set to Congenital Stationary Night Blindness; Retinal cone dystrophy 4, 610478
Congenital nystagmus v0.4 CACNA1F Zornitza Stark Source Royal Melbourne Hospital was added to CACNA1F.
Mode of inheritance for gene CACNA1F was changed from X-LINKED: hemizygous mutation in males, biallelic mutations in females to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Added phenotypes Aland Island eye disease, 300600; Night blindness, congenital stationary (incomplete), 2A, X-linked, 300071; Cone-rod dystropy, X-linked, 3, 300476 for gene: CACNA1F
Congenital nystagmus v0.4 CABP4 Zornitza Stark gene: CABP4 was added
gene: CABP4 was added to Congenital nystagmus. Sources: Expert Review Green,Royal Melbourne Hospital
Mode of inheritance for gene: CABP4 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: CABP4 were set to Night blindness, congenital stationary (incomplete), 2B, autosomal recessive, 610427
Congenital nystagmus v0.4 MITF Zornitza Stark Added phenotypes Waardenburg Syndrome Type 2 with Ocular Albinism (WS2-OA); Tietz Syndrome (TIETZS), Waardenburg Syndrome Type 2A (WS2A); Waardenburg syndrome/ocular albinism, digenic,103470 for gene: MITF
Congenital nystagmus v0.4 GNAI3 Zornitza Stark Added phenotypes Auriculocondylar syndrome 1 602483; Ocular Albinism for gene: GNAI3
Congenital nystagmus v0.4 DGUOK Zornitza Stark Added phenotypes Mitochondrial DNA depletion syndrome 3 for gene: DGUOK
Congenital nystagmus v0.4 TULP1 Zornitza Stark Added phenotypes Retinitis pigmentosa 14 600132 AR; Leber congenital amaurosis 15 613843 AR for gene: TULP1
Congenital nystagmus v0.4 MYO5A Zornitza Stark Added phenotypes Griscelli syndrome, type 1 214450 AR for gene: MYO5A
Congenital nystagmus v0.4 MLPH Zornitza Stark Added phenotypes Griscelli syndrome, type 3 609227 AR for gene: MLPH
Congenital nystagmus v0.4 MANBA Zornitza Stark Added phenotypes Mannosidosis, beta 248510 AR for gene: MANBA
Congenital nystagmus v0.4 LAMA1 Zornitza Stark Added phenotypes Poretti-Boltshauser syndrome, OMIM:615960 for gene: LAMA1
Congenital nystagmus v0.4 DTNBP1 Zornitza Stark Added phenotypes Hermansky-Pudlak syndrome 7 614076 AR for gene: DTNBP1
Congenital nystagmus v0.4 DCT Zornitza Stark Added phenotypes Ocutaneous albinism for gene: DCT
Congenital nystagmus v0.4 BLOC1S6 Zornitza Stark Added phenotypes ?Hermansky-pudlak syndrome 9 614171 AR for gene: BLOC1S6
Congenital nystagmus v0.4 BLOC1S5 Zornitza Stark Added phenotypes Hermansky-Pudlak syndrome, MONDO:0019312 for gene: BLOC1S5
Congenital nystagmus v0.4 BLOC1S3 Zornitza Stark Added phenotypes Hermansky-Pudlak syndrome 8, OMIM:614077, MONDO:0013560 for gene: BLOC1S3
Congenital nystagmus v0.4 AP3D1 Zornitza Stark Added phenotypes ?Hermansky-Pudlak syndrome 10 617050 AR for gene: AP3D1
Congenital nystagmus v0.4 AHR Zornitza Stark Added phenotypes Foveal hypoplasia without albinism; ?Retinitis pigmentosa 85, 618345; Infantile nystagmus for gene: AHR
Congenital nystagmus v0.4 TYRP1 Zornitza Stark Added phenotypes Oculocutaneous Albinism; Albinism, oculocutaneous, type III for gene: TYRP1
Congenital nystagmus v0.4 TYR Zornitza Stark Added phenotypes Albinism, oculocutaneous, type IA; Waardenburg syndrome/albinism, digenic; Oculocutaneous Albinism; Albinism, oculocutaneous, type IB for gene: TYR
Congenital nystagmus v0.4 SLC45A2 Zornitza Stark Added phenotypes Oculocutaneous Albinism; Oculocutaneous albinism type IV,606574; skin/hair/eye pigmentation 5,227240; Albinism, oculocutaneous, type IV for gene: SLC45A2
Congenital nystagmus v0.4 SLC38A8 Zornitza Stark Added phenotypes foveal hypoplasia - optic nerve decussation defect - anterior segment dysgenesis syndrome MONDO:0012216; Foveal hypoplasia 2, with or without optic nerve misrouting and/or anterior segment dysgenesis OMIM:609218 for gene: SLC38A8
Congenital nystagmus v0.4 SLC24A5 Zornitza Stark Added phenotypes Non-Syndromic Oculocutaneous Albinism; Albinism, oculocutaneous, type VI for gene: SLC24A5
Congenital nystagmus v0.4 SETX Zornitza Stark Added phenotypes Amyotrophic lateral sclerosis 4, juvenile 602433 AD; Spinocerebellar ataxia, autosomal recessive 1 606002 AR for gene: SETX
Congenital nystagmus v0.4 SACS Zornitza Stark Added phenotypes Spastic ataxia, Charlevoix-Saguenay type 270550 AR for gene: SACS
Congenital nystagmus v0.4 RAB27A Zornitza Stark Added phenotypes Griscelli syndrome, type 2 607624 AR for gene: RAB27A
Congenital nystagmus v0.4 PAX6 Zornitza Stark Added phenotypes Aniridia 106210 AD; ?Coloboma of optic nerve 120430 AD; ?Morning glory disc anomaly 120430 AD; ?Coloboma, ocular 120200 AD; Anterior segment dysgenesis 5, multiple subtypes 604229; Keratitis 148190 AD; Optic nerve hypoplasia 165550 AD; Cataract with late-onset corneal dystrophy 106210 AD; Foveal hypoplasia 1 136520 AD for gene: PAX6
Congenital nystagmus v0.4 OCA2 Zornitza Stark Added phenotypes Skin/hair/eye pigmentation 1, blond/brown hair; Albinism, oculocutaneous, type II; Oculocutaneous Albinism; Skin/hair/eye pigmentation 1, blue/nonblue eyes; Albinism, brown oculocutaneous for gene: OCA2
Congenital nystagmus v0.4 LYST Zornitza Stark Added phenotypes optic neuropathy with progressive vision loss; Chediak-Higashi syndrome; oculo-cutaneous albinism for gene: LYST
Congenital nystagmus v0.4 LRMDA Zornitza Stark Added phenotypes Albinism, oculocutaneous, type VII for gene: LRMDA
Congenital nystagmus v0.4 HPS6 Zornitza Stark Added phenotypes Hermansky-Pudlak syndrome 6 614075 AR for gene: HPS6
Congenital nystagmus v0.4 HPS5 Zornitza Stark Added phenotypes Hermansky-Pudlak syndrome 5 for gene: HPS5
Congenital nystagmus v0.4 HPS4 Zornitza Stark Added phenotypes Hermansky-Pudlak syndrome 4 for gene: HPS4
Congenital nystagmus v0.4 HPS3 Zornitza Stark Added phenotypes Hermansky-Pudlak syndrome 3 for gene: HPS3
Congenital nystagmus v0.4 HPS1 Zornitza Stark Added phenotypes Hermansky-Pudlak syndrome 1 for gene: HPS1
Congenital nystagmus v0.4 GPR143 Zornitza Stark Added phenotypes Ocular albinism, type I; Nystagmus 6, congenital, X-linked, 300814; Ocular albinism, type I, Nettleship-Falls type, 300500 for gene: GPR143
Congenital nystagmus v0.4 FRMD7 Zornitza Stark Added phenotypes Nystagmus 1, Congenital, X-Linked; Nystagmus 1, congenital, X-linked, 310700; Infantile Nystagmus; (not relevant if inheritance through paternal line); Nystagmus, infantile periodic alternating, X-linked, 310700 for gene: FRMD7
Congenital nystagmus v0.4 CASK Zornitza Stark Added phenotypes Mental retardation, with or without nystagmus 300422; FG syndrome 4 300422; Mental retardation and microcephaly with pontine and cerebellar hypoplasia 300749 XLD for gene: CASK
Congenital nystagmus v0.4 CACNA1F Zornitza Stark Added phenotypes Cone-rod dystrophy, X-linked, 3 300476 XLR; Aland Island eye disease 300600 XL; Night blindness, congenital stationary (incomplete), 2A, X-linked 300071 XL for gene: CACNA1F
Congenital nystagmus v0.4 CACNA1A Zornitza Stark Added phenotypes Acetazolamide-Responsive Hereditary Paroxysmal Cerebellar Ataxia; CACNA1A-Related Episodic Ataxia Type 2; Episodic Ataxia Type 2 (EA2) Episodic Ataxia, Nystagmus-Associated for gene: CACNA1A
Congenital nystagmus v0.4 AP3B1 Zornitza Stark Added phenotypes Hermansky-Pudlak syndrome 2 608233 AR for gene: AP3B1
Congenital nystagmus v0.3 Zornitza Stark Panel name changed from Albinism or congenital nystagmus to Congenital nystagmus
Genetic Epilepsy v0.1266 TUBGCP6 Zornitza Stark Marked gene: TUBGCP6 as ready
Genetic Epilepsy v0.1266 TUBGCP6 Zornitza Stark Gene: tubgcp6 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1266 TUBGCP6 Zornitza Stark Classified gene: TUBGCP6 as Green List (high evidence)
Genetic Epilepsy v0.1266 TUBGCP6 Zornitza Stark Gene: tubgcp6 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1265 TUBGCP6 Krithika Murali gene: TUBGCP6 was added
gene: TUBGCP6 was added to Genetic Epilepsy. Sources: Expert list,Literature
Mode of inheritance for gene: TUBGCP6 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: TUBGCP6 were set to 22279524; 33453472
Phenotypes for gene: TUBGCP6 were set to Microcephaly and chorioretinopathy, autosomal recessive, 1 - 251270; Epilepsy
Review for gene: TUBGCP6 was set to GREEN
Added comment: Known association with congenital microcephaly, developmental delay and retinal disorders with epilepsy also reported in some individuals.
Sources: Expert list, Literature
Genetic Epilepsy v0.1265 CLCN2 Zornitza Stark Marked gene: CLCN2 as ready
Genetic Epilepsy v0.1265 CLCN2 Zornitza Stark Gene: clcn2 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1265 CLCN2 Zornitza Stark Tag disputed tag was added to gene: CLCN2.
Genetic Epilepsy v0.1265 CLCN2 Zornitza Stark gene: CLCN2 was added
gene: CLCN2 was added to Genetic Epilepsy. Sources: Expert Review
Mode of inheritance for gene: CLCN2 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: CLCN2 were set to 23707145; 19191339; 20037607; 19710712
Phenotypes for gene: CLCN2 were set to {Epilepsy, juvenile myoclonic, susceptibility to, 8}, 607628; {Epilepsy, juvenile absence, susceptibility to, 2}, 607628; {Epilepsy, idiopathic generalized, susceptibility to, 11}, 607628
Review for gene: CLCN2 was set to RED
Added comment: Conflicting evidence regarding association with epilepsy syndromes, including one retracted paper.

In 3 of 46 unrelated families with IGE localized to 3q26, Haug et al. (2003) identified 3 mutations in the CLCN2 gene. In a re-evaluation of 2 of the families reported by Haug et al. (2003), Kleefuss-Lie et al. (2009) found discrepancies in the family structure, phenotype, and genetic analysis. On this basis, all but one of the original authors retracted the paper.

Stogmann et al. (2006) did not identify pathogenic mutations in the CLCN2 gene in 61 patients with IGE or 35 patients with temporal lobe epilepsy, suggesting that CLCN2 gene mutations are not a common cause of these disorders.

By sequencing of a large collection of human DNA followed by electrophysiologic analysis, Blanz et al. (2007) concluded that several CLCN2 sequence abnormalities previously found in patients with epilepsy most likely represented benign polymorphisms.

Saint-Martin et al. (2009) identified 2 different heterozygous variants in the CLCN2 gene in affected members of 2 unrelated families with juvenile myoclonic epilepsy (EJM8) and idiopathic generalized epilepsy (EIG11), respectively. In both families, the unaffected father also had the variant, suggesting either reduced penetrance or additional unidentified factors necessary for full phenotypic expression.

Niemeyer et al. (2010) disagreed with the conclusion by Kleefuss-Lie et al. (2009) that some of the work by Haug et al. (2003) had merit. Based on lack of functional consequences of the variants reported by Haug et al. (2003), Niemeyer et al. (2010) asserted that there is no evidence for a role of CLCN2 variants in idiopathic generalized epilepsy.
Sources: Expert Review
Genetic Epilepsy v0.1264 CHRM1 Zornitza Stark Marked gene: CHRM1 as ready
Genetic Epilepsy v0.1264 CHRM1 Zornitza Stark Gene: chrm1 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1264 CHRM1 Zornitza Stark gene: CHRM1 was added
gene: CHRM1 was added to Genetic Epilepsy. Sources: Expert Review
Mode of inheritance for gene: CHRM1 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: CHRM1 were set to 34212451; 31981491; 12483218
Phenotypes for gene: CHRM1 were set to Neurodevelopmental disorder; intellectual disability; autism; epilepsy
Review for gene: CHRM1 was set to RED
Added comment: PMID: 34212451 - 2 unrelated cases with de novo missense variants (p.Pro380Leu and p.Phe425Ser), one case with early-onset refractory epilepsy, severe disability, and progressive cerebral and cerebellar atrophy, and the second case with mild dysmorphism, global developmental delay, and moderate intellectual disability. In vitro biochemical analyses of p.Pro380Leu demonstrated a reduction in protein levels, impaired cellular trafficking, and defective activation of intracellular signaling pathways.
PMID: 31981491 - an autism spectrum disorder (no other information on phenotype, except ascertained to have severe neurodevelopmental delay) case with a de novo missense variant p.(Arg210Leu)
PMID: 12483218 - null mouse model assessing memory demonstrated selective cognitive dysfunction.
Sources: Expert Review
Genetic Epilepsy v0.1263 U2AF2 Krithika Murali gene: U2AF2 was added
gene: U2AF2 was added to Genetic Epilepsy. Sources: Expert list,Literature
Mode of inheritance for gene: U2AF2 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: U2AF2 were set to 34112922
Phenotypes for gene: U2AF2 were set to Epilepsy; Developmental Delay; Intellectual Disability
Review for gene: U2AF2 was set to RED
Added comment: Novel gene. De novo variant identified in a child with epilepsy, global developmental delay and dysmorphism (Hiraide et al, J Hum Genetics 2021)
Sources: Expert list, Literature
Genetic Epilepsy v0.1263 UMPS Zornitza Stark Marked gene: UMPS as ready
Genetic Epilepsy v0.1263 UMPS Zornitza Stark Gene: umps has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1263 UMPS Zornitza Stark Classified gene: UMPS as Green List (high evidence)
Genetic Epilepsy v0.1263 UMPS Zornitza Stark Gene: umps has been classified as Green List (High Evidence).
Aortopathy_Connective Tissue Disorders v1.59 DLG4 Zornitza Stark Phenotypes for gene: DLG4 were changed from Intellectual developmental disorder 62, MIM#618793 to Intellectual developmental disorder 62, MIM#618793; Marfanoid features
Aortopathy_Connective Tissue Disorders v1.58 DLG4 Zornitza Stark edited their review of gene: DLG4: Changed phenotypes: Intellectual developmental disorder 62, MIM#618793, Marfanoid features
Aortopathy_Connective Tissue Disorders v1.58 DLG4 Zornitza Stark Marked gene: DLG4 as ready
Aortopathy_Connective Tissue Disorders v1.58 DLG4 Zornitza Stark Gene: dlg4 has been classified as Green List (High Evidence).
Aortopathy_Connective Tissue Disorders v1.58 DLG4 Zornitza Stark Mode of inheritance for gene: DLG4 was changed from MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Aortopathy_Connective Tissue Disorders v1.57 DLG4 Zornitza Stark Publications for gene: DLG4 were set to PMID: 33597769
Aortopathy_Connective Tissue Disorders v1.56 DLG4 Zornitza Stark Classified gene: DLG4 as Green List (high evidence)
Aortopathy_Connective Tissue Disorders v1.56 DLG4 Zornitza Stark Gene: dlg4 has been classified as Green List (High Evidence).
Aortopathy_Connective Tissue Disorders v1.55 DLG4 Zornitza Stark changed review comment from: Marfanoid habits described in multiple affected individuals.; to: Marfanoid habitus described in multiple affected individuals.
Aortopathy_Connective Tissue Disorders v1.55 DLG4 Zornitza Stark reviewed gene: DLG4: Rating: GREEN; Mode of pathogenicity: None; Publications: 29460436; Phenotypes: Intellectual developmental disorder 62, MIM#618793; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Genetic Epilepsy v0.1262 UMPS Krithika Murali gene: UMPS was added
gene: UMPS was added to Genetic Epilepsy. Sources: Expert list,Literature
Mode of inheritance for gene: UMPS was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: UMPS were set to 25757096; 33489760
Phenotypes for gene: UMPS were set to Orotic aciduria - 258900; Epilepsy
Review for gene: UMPS was set to GREEN
Added comment: Gene associated with orotic aciduria. Seizures have been reported in some individuals.
Sources: Expert list, Literature
Congenital nystagmus v0.0 MITF Zornitza Stark gene: MITF was added
gene: MITF was added to Albinism or congenital nystagmus. Sources: Expert Review Red,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: MITF was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: MITF were set to Waardenburg Syndrome Type 2 with Ocular Albinism (WS2-OA); Tietz Syndrome (TIETZS), Waardenburg Syndrome Type 2A (WS2A); Waardenburg syndrome/ocular albinism, digenic,103470
Congenital nystagmus v0.0 GNAI3 Zornitza Stark gene: GNAI3 was added
gene: GNAI3 was added to Albinism or congenital nystagmus. Sources: Expert Review Red,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: GNAI3 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Publications for gene: GNAI3 were set to 27607449
Phenotypes for gene: GNAI3 were set to Auriculocondylar syndrome 1 602483; Ocular Albinism
Congenital nystagmus v0.0 DGUOK Zornitza Stark gene: DGUOK was added
gene: DGUOK was added to Albinism or congenital nystagmus. Sources: Expert Review Red,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: DGUOK was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: DGUOK were set to 12210798; 12205643
Phenotypes for gene: DGUOK were set to Mitochondrial DNA depletion syndrome 3
Congenital nystagmus v0.0 TULP1 Zornitza Stark gene: TULP1 was added
gene: TULP1 was added to Albinism or congenital nystagmus. Sources: Expert Review Amber,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: TULP1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: TULP1 were set to Retinitis pigmentosa 14 600132 AR; Leber congenital amaurosis 15 613843 AR
Congenital nystagmus v0.0 MYO5A Zornitza Stark gene: MYO5A was added
gene: MYO5A was added to Albinism or congenital nystagmus. Sources: Expert Review Amber,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: MYO5A was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MYO5A were set to Griscelli syndrome, type 1 214450 AR
Congenital nystagmus v0.0 MLPH Zornitza Stark gene: MLPH was added
gene: MLPH was added to Albinism or congenital nystagmus. Sources: Expert Review Amber,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: MLPH was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MLPH were set to Griscelli syndrome, type 3 609227 AR
Congenital nystagmus v0.0 MANBA Zornitza Stark gene: MANBA was added
gene: MANBA was added to Albinism or congenital nystagmus. Sources: Expert Review Amber,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: MANBA was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: MANBA were set to Mannosidosis, beta 248510 AR
Congenital nystagmus v0.0 LAMA1 Zornitza Stark gene: LAMA1 was added
gene: LAMA1 was added to Albinism or congenital nystagmus. Sources: Expert Review Amber,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: LAMA1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: LAMA1 were set to 29167897; 28283601; 32195884; 25105227; 328840387; 33251915
Phenotypes for gene: LAMA1 were set to Poretti-Boltshauser syndrome, OMIM:615960
Congenital nystagmus v0.0 DTNBP1 Zornitza Stark gene: DTNBP1 was added
gene: DTNBP1 was added to Albinism or congenital nystagmus. Sources: Expert Review Amber,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: DTNBP1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: DTNBP1 were set to Hermansky-Pudlak syndrome 7 614076 AR
Congenital nystagmus v0.0 DCT Zornitza Stark gene: DCT was added
gene: DCT was added to Albinism or congenital nystagmus. Sources: Expert Review Amber,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: DCT was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: DCT were set to 33100333
Phenotypes for gene: DCT were set to Ocutaneous albinism
Congenital nystagmus v0.0 BLOC1S6 Zornitza Stark gene: BLOC1S6 was added
gene: BLOC1S6 was added to Albinism or congenital nystagmus. Sources: Expert Review Amber,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: BLOC1S6 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: BLOC1S6 were set to ?Hermansky-pudlak syndrome 9 614171 AR
Congenital nystagmus v0.0 BLOC1S5 Zornitza Stark gene: BLOC1S5 was added
gene: BLOC1S5 was added to Albinism or congenital nystagmus. Sources: Expert Review Amber,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: BLOC1S5 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: BLOC1S5 were set to 32565547
Phenotypes for gene: BLOC1S5 were set to Hermansky-Pudlak syndrome, MONDO:0019312
Congenital nystagmus v0.0 BLOC1S3 Zornitza Stark gene: BLOC1S3 was added
gene: BLOC1S3 was added to Albinism or congenital nystagmus. Sources: Expert Review Amber,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: BLOC1S3 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: BLOC1S3 were set to 16385460; 32687635; 22709368
Phenotypes for gene: BLOC1S3 were set to Hermansky-Pudlak syndrome 8, OMIM:614077, MONDO:0013560
Congenital nystagmus v0.0 AP3D1 Zornitza Stark gene: AP3D1 was added
gene: AP3D1 was added to Albinism or congenital nystagmus. Sources: Expert Review Amber,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: AP3D1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: AP3D1 were set to ?Hermansky-Pudlak syndrome 10 617050 AR
Congenital nystagmus v0.0 AHR Zornitza Stark gene: AHR was added
gene: AHR was added to Albinism or congenital nystagmus. Sources: Expert Review Amber,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: AHR was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: AHR were set to 28851966; 31009037; 23301081
Phenotypes for gene: AHR were set to Foveal hypoplasia without albinism; ?Retinitis pigmentosa 85, 618345; Infantile nystagmus
Congenital nystagmus v0.0 TYRP1 Zornitza Stark gene: TYRP1 was added
gene: TYRP1 was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: TYRP1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: TYRP1 were set to Oculocutaneous Albinism; Albinism, oculocutaneous, type III
Congenital nystagmus v0.0 TYR Zornitza Stark gene: TYR was added
gene: TYR was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: TYR was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: TYR were set to Albinism, oculocutaneous, type IA; Waardenburg syndrome/albinism, digenic; Oculocutaneous Albinism; Albinism, oculocutaneous, type IB
Congenital nystagmus v0.0 SLC45A2 Zornitza Stark gene: SLC45A2 was added
gene: SLC45A2 was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: SLC45A2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: SLC45A2 were set to Oculocutaneous Albinism; Oculocutaneous albinism type IV,606574; skin/hair/eye pigmentation 5,227240; Albinism, oculocutaneous, type IV
Congenital nystagmus v0.0 SLC38A8 Zornitza Stark gene: SLC38A8 was added
gene: SLC38A8 was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: SLC38A8 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: SLC38A8 were set to 32744312; 24045842; 29345414; 24290379
Phenotypes for gene: SLC38A8 were set to foveal hypoplasia - optic nerve decussation defect - anterior segment dysgenesis syndrome MONDO:0012216; Foveal hypoplasia 2, with or without optic nerve misrouting and/or anterior segment dysgenesis OMIM:609218
Congenital nystagmus v0.0 SLC24A5 Zornitza Stark gene: SLC24A5 was added
gene: SLC24A5 was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: SLC24A5 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: SLC24A5 were set to 23364476 - case report of patient of Chinese origin; 23985994 - homozygous variants identified in an additional 5 patients with Non-Syndromic Oculocutaneous Albinism; 26686029 case identified in a cohort South-Italian origin; 27129268 - functional data to support the phenotypic effects of variants reported
Phenotypes for gene: SLC24A5 were set to Non-Syndromic Oculocutaneous Albinism; Albinism, oculocutaneous, type VI
Congenital nystagmus v0.0 SETX Zornitza Stark gene: SETX was added
gene: SETX was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: SETX was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Phenotypes for gene: SETX were set to Amyotrophic lateral sclerosis 4, juvenile 602433 AD; Spinocerebellar ataxia, autosomal recessive 1 606002 AR
Congenital nystagmus v0.0 SACS Zornitza Stark gene: SACS was added
gene: SACS was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: SACS was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: SACS were set to Spastic ataxia, Charlevoix-Saguenay type 270550 AR
Congenital nystagmus v0.0 RAB27A Zornitza Stark gene: RAB27A was added
gene: RAB27A was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: RAB27A was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: RAB27A were set to Griscelli syndrome, type 2 607624 AR
Congenital nystagmus v0.0 PAX6 Zornitza Stark gene: PAX6 was added
gene: PAX6 was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: PAX6 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes for gene: PAX6 were set to Aniridia 106210 AD; ?Coloboma of optic nerve 120430 AD; ?Morning glory disc anomaly 120430 AD; ?Coloboma, ocular 120200 AD; Anterior segment dysgenesis 5, multiple subtypes 604229; Keratitis 148190 AD; Optic nerve hypoplasia 165550 AD; Cataract with late-onset corneal dystrophy 106210 AD; Foveal hypoplasia 1 136520 AD
Congenital nystagmus v0.0 OCA2 Zornitza Stark gene: OCA2 was added
gene: OCA2 was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: OCA2 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: OCA2 were set to Skin/hair/eye pigmentation 1, blond/brown hair; Albinism, oculocutaneous, type II; Oculocutaneous Albinism; Skin/hair/eye pigmentation 1, blue/nonblue eyes; Albinism, brown oculocutaneous
Congenital nystagmus v0.0 LYST Zornitza Stark gene: LYST was added
gene: LYST was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: LYST was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: LYST were set to 20301751 - Chediak-Higashi syndrome (CHS) is characterized by partial oculocutaneous albinism (OCA), immunodeficiency, and a mild bleeding tendency.; 9215679; 10482950; 8896560
Phenotypes for gene: LYST were set to optic neuropathy with progressive vision loss; Chediak-Higashi syndrome; oculo-cutaneous albinism
Congenital nystagmus v0.0 LRMDA Zornitza Stark gene: LRMDA was added
gene: LRMDA was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: LRMDA was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: LRMDA were set to PMID: 26818737 - a novel homozygous variant in this gene is reported a patient within a screen of Iranian patients with nonsyndromic OCA or autosomal recessive ocular albinism; PMID: 27031267 - identification of a 1.77-Mb de novo interstitial deletion in 10q22.2q22.3 in a female patient with 2.5-year-old female patient with developmental delay, speech delay, congenital cleft palate, and bilateral hearing impairment. The deletion included 9 genes, including KAT6B, DUPD1, DUSP13, SAMD8, VDAC2, COMTD1, ZNF503, NCRNA00245, and C10orf11; 23395477
Phenotypes for gene: LRMDA were set to Albinism, oculocutaneous, type VII
Congenital nystagmus v0.0 HPS6 Zornitza Stark gene: HPS6 was added
gene: HPS6 was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: HPS6 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: HPS6 were set to Hermansky-Pudlak syndrome 6 614075 AR
Congenital nystagmus v0.0 HPS5 Zornitza Stark gene: HPS5 was added
gene: HPS5 was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: HPS5 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: HPS5 were set to 12548288; 18182080; 27593200; 26785811; 28296950
Phenotypes for gene: HPS5 were set to Hermansky-Pudlak syndrome 5
Congenital nystagmus v0.0 HPS4 Zornitza Stark gene: HPS4 was added
gene: HPS4 was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: HPS4 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: HPS4 were set to 11836498; 15108212
Phenotypes for gene: HPS4 were set to Hermansky-Pudlak syndrome 4
Congenital nystagmus v0.0 HPS3 Zornitza Stark gene: HPS3 was added
gene: HPS3 was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: HPS3 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: HPS3 were set to 11455388; 11590544
Phenotypes for gene: HPS3 were set to Hermansky-Pudlak syndrome 3
Congenital nystagmus v0.0 HPS1 Zornitza Stark gene: HPS1 was added
gene: HPS1 was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: HPS1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: HPS1 were set to 9705234; 10971344; 9497254; 7573033
Phenotypes for gene: HPS1 were set to Hermansky-Pudlak syndrome 1
Congenital nystagmus v0.0 GPR143 Zornitza Stark gene: GPR143 was added
gene: GPR143 was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: GPR143 was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Publications for gene: GPR143 were set to 21541274; 26061757; 26160353; 21423867
Phenotypes for gene: GPR143 were set to Ocular albinism, type I; Nystagmus 6, congenital, X-linked, 300814; Ocular albinism, type I, Nettleship-Falls type, 300500
Congenital nystagmus v0.0 FRMD7 Zornitza Stark gene: FRMD7 was added
gene: FRMD7 was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: FRMD7 was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Publications for gene: FRMD7 were set to 17013395; 17397053; 18431453; 17846367; 21303855; 24688117
Phenotypes for gene: FRMD7 were set to Nystagmus 1, Congenital, X-Linked; Nystagmus 1, congenital, X-linked, 310700; Infantile Nystagmus; (not relevant if inheritance through paternal line); Nystagmus, infantile periodic alternating, X-linked, 310700
Congenital nystagmus v0.0 CASK Zornitza Stark gene: CASK was added
gene: CASK was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: CASK was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: CASK were set to Mental retardation, with or without nystagmus 300422; FG syndrome 4 300422; Mental retardation and microcephaly with pontine and cerebellar hypoplasia 300749 XLD
Congenital nystagmus v0.0 CACNA1F Zornitza Stark gene: CACNA1F was added
gene: CACNA1F was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: CACNA1F was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Phenotypes for gene: CACNA1F were set to Cone-rod dystrophy, X-linked, 3 300476 XLR; Aland Island eye disease 300600 XL; Night blindness, congenital stationary (incomplete), 2A, X-linked 300071 XL
Congenital nystagmus v0.0 CACNA1A Zornitza Stark gene: CACNA1A was added
gene: CACNA1A was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: CACNA1A was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: CACNA1A were set to 19182766
Phenotypes for gene: CACNA1A were set to Acetazolamide-Responsive Hereditary Paroxysmal Cerebellar Ataxia; CACNA1A-Related Episodic Ataxia Type 2; Episodic Ataxia Type 2 (EA2) Episodic Ataxia, Nystagmus-Associated
Congenital nystagmus v0.0 AP3B1 Zornitza Stark gene: AP3B1 was added
gene: AP3B1 was added to Albinism or congenital nystagmus. Sources: Expert Review Green,NHS Genomic Medicine Service,Genomics England PanelApp
Mode of inheritance for gene: AP3B1 was set to BIALLELIC, autosomal or pseudoautosomal
Phenotypes for gene: AP3B1 were set to Hermansky-Pudlak syndrome 2 608233 AR
Congenital nystagmus v0.0 Zornitza Stark Added panel Albinism or congenital nystagmus
Aortopathy_Connective Tissue Disorders v1.55 DLG4 Elena Savva gene: DLG4 was added
gene: DLG4 was added to Aortopathy_Connective Tissue Disorders. Sources: Literature
Mode of inheritance for gene: DLG4 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: DLG4 were set to PMID: 33597769
Phenotypes for gene: DLG4 were set to Intellectual developmental disorder 62, MIM#618793
Review for gene: DLG4 was set to GREEN
Added comment: PMID: 33597769 - joint laxity reported in 13/38 patients, most patient variants were de novo PTCs
Sources: Literature
Mendeliome v0.9332 HNRNPD Zornitza Stark Phenotypes for gene: HNRNPD were changed from Developmental disorders to Neurodevelopmental disorder
Mendeliome v0.9331 HNRNPD Zornitza Stark Publications for gene: HNRNPD were set to 33057194
Mendeliome v0.9330 HNRNPD Zornitza Stark Classified gene: HNRNPD as Green List (high evidence)
Mendeliome v0.9330 HNRNPD Zornitza Stark Gene: hnrnpd has been classified as Green List (High Evidence).
Mendeliome v0.9329 HNRNPD Zornitza Stark reviewed gene: HNRNPD: Rating: GREEN; Mode of pathogenicity: None; Publications: 33874999; Phenotypes: Neurodevelopmental disorder; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Intellectual disability syndromic and non-syndromic v0.4183 HNRNPD Zornitza Stark Publications for gene: HNRNPD were set to 33057194
Intellectual disability syndromic and non-syndromic v0.4182 HNRNPD Zornitza Stark Phenotypes for gene: HNRNPD were changed from Developmental disorders to Neurodevelopmental disorder
Intellectual disability syndromic and non-syndromic v0.4181 HNRNPD Zornitza Stark Classified gene: HNRNPD as Green List (high evidence)
Intellectual disability syndromic and non-syndromic v0.4181 HNRNPD Zornitza Stark Gene: hnrnpd has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4180 HNRNPD Ee Ming Wong reviewed gene: HNRNPD: Rating: GREEN; Mode of pathogenicity: None; Publications: PMID: 33874999; Phenotypes: Neurodevelopmental disorder; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted; Current diagnostic: yes
Mendeliome v0.9329 EHHADH Zornitza Stark Mode of inheritance for gene: EHHADH was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9328 UNC13B Zornitza Stark Marked gene: UNC13B as ready
Mendeliome v0.9328 UNC13B Zornitza Stark Gene: unc13b has been classified as Red List (Low Evidence).
Mendeliome v0.9328 UNC13B Zornitza Stark gene: UNC13B was added
gene: UNC13B was added to Mendeliome. Sources: Expert Review
Mode of inheritance for gene: UNC13B was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Publications for gene: UNC13B were set to 33876820
Phenotypes for gene: UNC13B were set to Epilepsy
Review for gene: UNC13B was set to RED
Added comment: No OMIM human disease association. Gene encodes a presynaptic protein Munc13-2 highly expressed in the brain (predominantly cerebral cortex).

Variant interpretation data in human epilepsy cohort somewhat conflicting and restricted to a single study. Conflicting data esp regarding MOI, and evidence for pathogenicity of several of the variants is limited.

Wang et al, Brain, 2021 - trio-based whole-exome sequencing identified UNC13B in 12 individuals affected by partial epilepsy and/or febrile seizures from 8 unrelated families. Identified:
x1 de novo nonsense variant, absent in gnomad, damaging in silicos
x1 de novo splice site, absent in gnomad, damaging in silicos
x1 splice site variant present in unaffected mother (low frequency in gnomad)
x2 compound het in one individual - more severe phenotype postulated (x1 variant present in contro cohortl, the other variant present in low frequency in gnomad)
x1 missense variant - in Han Chinese major depressive disorders study, not in gnomad
x1 missense variant - highly conserved residue, not in gnomad
x2 other missense variant - highly conserved residue, low frequency in gnomad
Latter 4 missense variants cosegregated with affected individuals in the families

In Drosophila, seizure rate and duration were increased by Unc13b knockdown compared to wild-type flies, but these effects were less pronounced than in sodium voltage-gated channel alpha subunit 1 (Scn1a) knockdown Drosophila

De novo UNC13B variants previously reported in bipolar disorder and autism spectrum disorder
Sources: Expert Review
Genetic Epilepsy v0.1262 UNC13B Zornitza Stark edited their review of gene: UNC13B: Changed rating: RED
Genetic Epilepsy v0.1262 UNC13B Zornitza Stark Mode of inheritance for gene: UNC13B was changed from MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Genetic Epilepsy v0.1261 UNC13B Zornitza Stark Marked gene: UNC13B as ready
Genetic Epilepsy v0.1261 UNC13B Zornitza Stark Added comment: Comment when marking as ready: Agree data is conflicting esp regarding MOI, and evidence for pathogenicity of several of the variants is limited.
Genetic Epilepsy v0.1261 UNC13B Zornitza Stark Gene: unc13b has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1261 UNC13B Zornitza Stark Classified gene: UNC13B as Red List (low evidence)
Genetic Epilepsy v0.1261 UNC13B Zornitza Stark Gene: unc13b has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1260 UNC13B Krithika Murali changed review comment from: No OMIM human disease association. Gene encodes a presynaptic protein Munc13-2 highly expressed in the brain (predominantly cerebral cortex).

Variant interpretation data in human epilepsy cohort somewhat conflicting and restricted to a single study. Wang et al, Brain, 2021 - trio-based whole-exome sequencing identified UNC13B in 12 individuals affected by partial epilepsy and/or febrile seizures from 8 unrelated families. Identified:
x1 de novo nonsense variant, absent in gnomad, damaging in silicos
x1 de novo splice site, absent in gnomad, damaging in silicos
x1 de novo splice site in unaffected mother (low frequency in gnomad)
x2 compound het in one individual - more severe phenotype postulated (x1 variant present in contro cohortl, the other variant present in low frequency in gnomad)
x1 missense variant - in Han Chinese major depressive disorders study, not in gnomad
x1 missense variant - highly conserved residue, not in gnomad
x2 other missense variant - highly conserved residue, low frequency in gnomad
Latter 4 missense variants cosegregated with affected individuals in the families

In Drosophila, seizure rate and duration were increased by Unc13b knockdown compared to wild-type flies, but these effects were less pronounced than in sodium voltage-gated channel alpha subunit 1 (Scn1a) knockdown Drosophila

De novo UNC13B variants previously reported in bipolar disorder and autism spectrum disorder
Sources: Expert list, Literature; to: No OMIM human disease association. Gene encodes a presynaptic protein Munc13-2 highly expressed in the brain (predominantly cerebral cortex).

Variant interpretation data in human epilepsy cohort somewhat conflicting and restricted to a single study. Wang et al, Brain, 2021 - trio-based whole-exome sequencing identified UNC13B in 12 individuals affected by partial epilepsy and/or febrile seizures from 8 unrelated families. Identified:
x1 de novo nonsense variant, absent in gnomad, damaging in silicos
x1 de novo splice site, absent in gnomad, damaging in silicos
x1 splice site variant present in unaffected mother (low frequency in gnomad)
x2 compound het in one individual - more severe phenotype postulated (x1 variant present in contro cohortl, the other variant present in low frequency in gnomad)
x1 missense variant - in Han Chinese major depressive disorders study, not in gnomad
x1 missense variant - highly conserved residue, not in gnomad
x2 other missense variant - highly conserved residue, low frequency in gnomad
Latter 4 missense variants cosegregated with affected individuals in the families

In Drosophila, seizure rate and duration were increased by Unc13b knockdown compared to wild-type flies, but these effects were less pronounced than in sodium voltage-gated channel alpha subunit 1 (Scn1a) knockdown Drosophila

De novo UNC13B variants previously reported in bipolar disorder and autism spectrum disorder
Sources: Expert list, Literature
Genetic Epilepsy v0.1260 UNC13B Krithika Murali gene: UNC13B was added
gene: UNC13B was added to Genetic Epilepsy. Sources: Expert list,Literature
Mode of inheritance for gene: UNC13B was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: UNC13B were set to 33876820
Phenotypes for gene: UNC13B were set to Epilepsy
Penetrance for gene: UNC13B were set to unknown
Review for gene: UNC13B was set to RED
Added comment: No OMIM human disease association. Gene encodes a presynaptic protein Munc13-2 highly expressed in the brain (predominantly cerebral cortex).

Variant interpretation data in human epilepsy cohort somewhat conflicting and restricted to a single study. Wang et al, Brain, 2021 - trio-based whole-exome sequencing identified UNC13B in 12 individuals affected by partial epilepsy and/or febrile seizures from 8 unrelated families. Identified:
x1 de novo nonsense variant, absent in gnomad, damaging in silicos
x1 de novo splice site, absent in gnomad, damaging in silicos
x1 de novo splice site in unaffected mother (low frequency in gnomad)
x2 compound het in one individual - more severe phenotype postulated (x1 variant present in contro cohortl, the other variant present in low frequency in gnomad)
x1 missense variant - in Han Chinese major depressive disorders study, not in gnomad
x1 missense variant - highly conserved residue, not in gnomad
x2 other missense variant - highly conserved residue, low frequency in gnomad
Latter 4 missense variants cosegregated with affected individuals in the families

In Drosophila, seizure rate and duration were increased by Unc13b knockdown compared to wild-type flies, but these effects were less pronounced than in sodium voltage-gated channel alpha subunit 1 (Scn1a) knockdown Drosophila

De novo UNC13B variants previously reported in bipolar disorder and autism spectrum disorder
Sources: Expert list, Literature
Mitochondrial disease v0.651 VARS2 Zornitza Stark Marked gene: VARS2 as ready
Mitochondrial disease v0.651 VARS2 Zornitza Stark Gene: vars2 has been classified as Green List (High Evidence).
Mitochondrial disease v0.651 VARS2 Zornitza Stark Phenotypes for gene: VARS2 were changed from to Combined oxidative phosphorylation deficiency 20; OMIM #615917
Mitochondrial disease v0.650 VARS2 Zornitza Stark Publications for gene: VARS2 were set to
Mitochondrial disease v0.649 VARS2 Zornitza Stark Mode of inheritance for gene: VARS2 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Mitochondrial disease v0.648 VARS2 Zornitza Stark reviewed gene: VARS2: Rating: GREEN; Mode of pathogenicity: None; Publications: 24827421, 25058219, 29137650, 29314548, 31064326, 31623496; Phenotypes: Combined oxidative phosphorylation deficiency 20, OMIM #615917; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9327 VARS2 Zornitza Stark Marked gene: VARS2 as ready
Mendeliome v0.9327 VARS2 Zornitza Stark Gene: vars2 has been classified as Green List (High Evidence).
Mendeliome v0.9327 VARS2 Zornitza Stark Phenotypes for gene: VARS2 were changed from to Combined oxidative phosphorylation deficiency 20; OMIM #615917
Mendeliome v0.9326 VARS2 Zornitza Stark Publications for gene: VARS2 were set to
Mendeliome v0.9325 VARS2 Zornitza Stark Mode of inheritance for gene: VARS2 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9324 VARS2 Zornitza Stark reviewed gene: VARS2: Rating: GREEN; Mode of pathogenicity: None; Publications: 24827421, 25058219, 29137650, 29314548, 31064326, 31623496; Phenotypes: Combined oxidative phosphorylation deficiency 20, OMIM #615917; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Genetic Epilepsy v0.1260 VARS2 Zornitza Stark Marked gene: VARS2 as ready
Genetic Epilepsy v0.1260 VARS2 Zornitza Stark Gene: vars2 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1260 VARS2 Zornitza Stark Classified gene: VARS2 as Green List (high evidence)
Genetic Epilepsy v0.1260 VARS2 Zornitza Stark Gene: vars2 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1259 VARS2 Krithika Murali gene: VARS2 was added
gene: VARS2 was added to Genetic Epilepsy. Sources: Expert list,Literature
Mode of inheritance for gene: VARS2 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: VARS2 were set to 27502409; 29137650; 31064326; 31623496
Phenotypes for gene: VARS2 were set to Combined oxidative phosphorylation deficiency 20, 615917; Epilepsy
Review for gene: VARS2 was set to GREEN
Added comment: Established gene associated with mitochondrial disorder. Heterogeneous clinical features reported including seizures, epilepsy, encephalopathy, microcephaly, global developmental delay, hypotonia, ataxia, dystonic movements, limb spasticity, hypertrophic cardiomyopathy, hyperlactaemia and MRI-B abnormalities.
Sources: Expert list, Literature
Genetic Epilepsy v0.1259 ZDHHC15 Zornitza Stark Marked gene: ZDHHC15 as ready
Genetic Epilepsy v0.1259 ZDHHC15 Zornitza Stark Gene: zdhhc15 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1259 ZDHHC15 Zornitza Stark Classified gene: ZDHHC15 as Red List (low evidence)
Genetic Epilepsy v0.1259 ZDHHC15 Zornitza Stark Gene: zdhhc15 has been classified as Red List (Low Evidence).
Mendeliome v0.9324 CHD4 Zornitza Stark Phenotypes for gene: CHD4 were changed from Sifrim-Hitz-Weiss syndrome, MIM 617159 to Sifrim-Hitz-Weiss syndrome, MIM 617159; Childhood idiopathic epilepsy and sinus arrhythmia
Mendeliome v0.9323 CHD4 Zornitza Stark Publications for gene: CHD4 were set to 31388190
Mendeliome v0.9322 CHD4 Zornitza Stark reviewed gene: CHD4: Rating: GREEN; Mode of pathogenicity: None; Publications: 34109749; Phenotypes: Childhood idiopathic epilepsy and sinus arrhythmia; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Genetic Epilepsy v0.1258 CHD4 Zornitza Stark Phenotypes for gene: CHD4 were changed from Sifrim-Hitz-Weiss syndrome, MIM# 617159 to Sifrim-Hitz-Weiss syndrome, MIM# 617159; Childhood idiopathic epilepsy and sinus arrhythmia
Genetic Epilepsy v0.1257 CHD4 Zornitza Stark Publications for gene: CHD4 were set to 27479907; 27616479
Genetic Epilepsy v0.1256 CHD4 Zornitza Stark Classified gene: CHD4 as Green List (high evidence)
Genetic Epilepsy v0.1256 CHD4 Zornitza Stark Gene: chd4 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1255 CHD4 Zornitza Stark edited their review of gene: CHD4: Added comment: New publication, PMID 34109749: 8 individuals from 4 families with childhood idiopathic epilepsy and sinus arrhythmia. This may be a distinct gene-disease association as the variants were located outside of the typical domains associated with SHW syndrome (central regions from SNF2-like region to DUF1087 domain).; Changed rating: GREEN; Changed publications: 27479907, 27616479, 34109749; Changed phenotypes: Sifrim-Hitz-Weiss syndrome, MIM# 617159, Childhood idiopathic epilepsy and sinus arrhythmia
Genetic Epilepsy v0.1255 CCM2 Zornitza Stark Marked gene: CCM2 as ready
Genetic Epilepsy v0.1255 CCM2 Zornitza Stark Gene: ccm2 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1255 CCM2 Zornitza Stark gene: CCM2 was added
gene: CCM2 was added to Genetic Epilepsy. Sources: Expert Review
Mode of inheritance for gene: CCM2 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: CCM2 were set to 32702807
Phenotypes for gene: CCM2 were set to Cerebral cavernous malformations-2, MIM#603284
Review for gene: CCM2 was set to RED
Added comment: Rare reports of presentation with seizures following bleeding.
Sources: Expert Review
Genetic Epilepsy v0.1254 CARS2 Zornitza Stark Marked gene: CARS2 as ready
Genetic Epilepsy v0.1254 CARS2 Zornitza Stark Gene: cars2 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1254 CARS2 Zornitza Stark Classified gene: CARS2 as Green List (high evidence)
Genetic Epilepsy v0.1254 CARS2 Zornitza Stark Gene: cars2 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1253 CARS2 Zornitza Stark gene: CARS2 was added
gene: CARS2 was added to Genetic Epilepsy. Sources: Expert Review
Mode of inheritance for gene: CARS2 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: CARS2 were set to 25361775; 25787132; 30139652
Phenotypes for gene: CARS2 were set to Combined oxidative phosphorylation deficiency 27, MIM# 616672
Review for gene: CARS2 was set to GREEN
Added comment: Three families reported with supportive functional data, epilepsy is a feature.
Sources: Expert Review
Intellectual disability syndromic and non-syndromic v0.4180 BPTF Zornitza Stark Publications for gene: BPTF were set to 28942966; 33522091
Intellectual disability syndromic and non-syndromic v0.4180 BPTF Zornitza Stark Publications for gene: BPTF were set to 28942966
Genetic Epilepsy v0.1252 BPTF Zornitza Stark Marked gene: BPTF as ready
Genetic Epilepsy v0.1252 BPTF Zornitza Stark Gene: bptf has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1252 BPTF Zornitza Stark Classified gene: BPTF as Green List (high evidence)
Genetic Epilepsy v0.1252 BPTF Zornitza Stark Gene: bptf has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4179 BPTF Zornitza Stark commented on gene: BPTF: Over 30 unrelated individuals reported, mostly de novo, some inherited variants. Clinical features include intellectual disability, seizures, poor growth with small head size, dysmorphic facial features, and mild abnormalities of the hands and feet.
Genetic Epilepsy v0.1251 BPTF Zornitza Stark gene: BPTF was added
gene: BPTF was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: BPTF was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: BPTF were set to 33522091; 28942966
Phenotypes for gene: BPTF were set to Neurodevelopmental disorder with dysmorphic facies and distal limb anomalies AD, MIM#617755
Review for gene: BPTF was set to GREEN
Added comment: Over 30 individuals reported, mostly de novo, some inherited variants. Reported features include seizures.
Sources: Literature
Intellectual disability syndromic and non-syndromic v0.4179 BPTF Zornitza Stark edited their review of gene: BPTF: Changed publications: 28942966, 33522091
Mendeliome v0.9322 BCL11A Zornitza Stark Marked gene: BCL11A as ready
Mendeliome v0.9322 BCL11A Zornitza Stark Gene: bcl11a has been classified as Green List (High Evidence).
Mendeliome v0.9322 BCL11A Zornitza Stark Phenotypes for gene: BCL11A were changed from to Dias-Logan syndrome, MIM# 617101
Mendeliome v0.9321 BCL11A Zornitza Stark Publications for gene: BCL11A were set to
Mendeliome v0.9320 BCL11A Zornitza Stark Mode of inheritance for gene: BCL11A was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9319 BCL11A Zornitza Stark reviewed gene: BCL11A: Rating: GREEN; Mode of pathogenicity: None; Publications: 27453576, 32903878; Phenotypes: Dias-Logan syndrome, MIM# 617101; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Intellectual disability syndromic and non-syndromic v0.4179 BCL11A Zornitza Stark Marked gene: BCL11A as ready
Intellectual disability syndromic and non-syndromic v0.4179 BCL11A Zornitza Stark Gene: bcl11a has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4179 BCL11A Zornitza Stark Phenotypes for gene: BCL11A were changed from to Dias-Logan syndrome, MIM# 617101
Intellectual disability syndromic and non-syndromic v0.4178 BCL11A Zornitza Stark Publications for gene: BCL11A were set to
Genetic Epilepsy v0.1250 ZDHHC15 Krithika Murali gene: ZDHHC15 was added
gene: ZDHHC15 was added to Genetic Epilepsy. Sources: Expert list,Literature
Mode of inheritance for gene: ZDHHC15 was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Publications for gene: ZDHHC15 were set to 34345675; 15915161; 26290131; 32989326
Phenotypes for gene: ZDHHC15 were set to Mental retardation X-linked 91, 300577; cerebral palsy; intellectual disability; autism spectrum disorder; epilepsy
Review for gene: ZDHHC15 was set to RED
Added comment: 1 reported case of an 18 yo M with hypotonic cerebral palsy, focal-onset epilepsy, cortical visual impairment, intellectual disability, autism spectrum disorder, anxiety, and aggressive behaviors with hemizygous p.H158R variant shown to affect protein function in yeast complementation assay (Lewis et al Neurology Genetics 2021 PMID 34345675).

----
Other background info:

Protein function of x4 ZDHHC15 variants assessed by Lewis et al. x2 variants identified through Jin et al Nat Genet 2020 (PMID 32989326) - maternally inherited p.H158R and p.L13P. x1 identified through Gene Matcher p.S330P and x1 through GeneDx maternally inherited p.K115R. Only p.H158R variant shown to affect protein function. In Drosophilia model LoF variants caused flight and co-ordinated movement defects supporting role in motor dysfunction.

Conflicting evidence for ID phenotype

1 case with intellectual disability and balanced translocation with breakpoints near the ZDHHC15 gene - functional studies showing absence of ZDHHC15 transcript variants. This patient showed skewed lyonization, with 100% inactivation of the normal X chromosome. PMID: 15915161

1 case with NO intellectual disability and balanced translocation with breakpoints in the ZDHHC15 gene - functional studies showing no gene expression in the patient's peripheral blood (PMID 26290131)
Sources: Expert list, Literature
Intellectual disability syndromic and non-syndromic v0.4177 BCL11A Zornitza Stark Mode of inheritance for gene: BCL11A was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Intellectual disability syndromic and non-syndromic v0.4176 BCL11A Zornitza Stark reviewed gene: BCL11A: Rating: GREEN; Mode of pathogenicity: None; Publications: 27453576, 32903878; Phenotypes: Dias-Logan syndrome, MIM# 617101; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Genetic Epilepsy v0.1250 BCL11A Zornitza Stark Marked gene: BCL11A as ready
Genetic Epilepsy v0.1250 BCL11A Zornitza Stark Gene: bcl11a has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1250 BCL11A Zornitza Stark gene: BCL11A was added
gene: BCL11A was added to Genetic Epilepsy. Sources: Expert Review
Mode of inheritance for gene: BCL11A was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: BCL11A were set to 27453576; 32903878
Phenotypes for gene: BCL11A were set to Dias-Logan syndrome, MIM# 617101
Review for gene: BCL11A was set to RED
Added comment: Epilepsy appears to be a rare feature of this syndrome.
Sources: Expert Review
Mendeliome v0.9319 CFAP221 Zornitza Stark Marked gene: CFAP221 as ready
Mendeliome v0.9319 CFAP221 Zornitza Stark Gene: cfap221 has been classified as Red List (Low Evidence).
Mendeliome v0.9319 CFAP221 Zornitza Stark gene: CFAP221 was added
gene: CFAP221 was added to Mendeliome. Sources: Literature
Mode of inheritance for gene: CFAP221 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: CFAP221 were set to 31636325
Phenotypes for gene: CFAP221 were set to Primary ciliary dyskinesia
Review for gene: CFAP221 was set to RED
Added comment: WES in 1 family with 3 siblings with clinical symptoms of PCD identified compound heterozygous loss-of-function variants in CFAP221, which segregated with disease. No functional studies. Nasal epithelial cells from 1 of the subjects demonstrated slightly reduced beat frequency, however, waveform analysis revealed that the CFAP221 defective cilia beat in an aberrant circular pattern. A candidate gene in cases where PCD is suspected but cilia structure and beat frequency appear normal.
Sources: Literature
Ciliary Dyskinesia v1.13 CFAP221 Zornitza Stark Marked gene: CFAP221 as ready
Ciliary Dyskinesia v1.13 CFAP221 Zornitza Stark Gene: cfap221 has been classified as Red List (Low Evidence).
Ciliary Dyskinesia v1.13 CFAP221 Chirag Patel gene: CFAP221 was added
gene: CFAP221 was added to Ciliary Dyskinesia. Sources: Literature
Mode of inheritance for gene: CFAP221 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: CFAP221 were set to PMID: 31636325
Phenotypes for gene: CFAP221 were set to Primary ciliary dyskinesia
Review for gene: CFAP221 was set to RED
Added comment: WES in 1 family with 3 siblings with clinical symptoms of PCD identified compound heterozygous loss-of-function variants in CFAP221, which segregated with disease. No functional studies. Nasal epithelial cells from 1 of the subjects demonstrated slightly reduced beat frequency, however, waveform analysis revealed that the CFAP221 defective cilia beat in an aberrant circular pattern. A candidate gene in cases where PCD is suspected but cilia structure and beat frequency appear normal.
Sources: Literature
Mendeliome v0.9318 DAB1 Zornitza Stark Mode of inheritance for gene: DAB1 was changed from BIALLELIC, autosomal or pseudoautosomal to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Mendeliome v0.9317 DAB1 Zornitza Stark Phenotypes for gene: DAB1 were changed from to Spinocerebellar ataxia 37 MIM#615945; Ataxia and intellectual disability
Mendeliome v0.9316 DAB1 Zornitza Stark Publications for gene: DAB1 were set to
Mendeliome v0.9315 DAB1 Zornitza Stark Mode of pathogenicity for gene: DAB1 was changed from to None
Mendeliome v0.9314 DAB1 Zornitza Stark Mode of inheritance for gene: DAB1 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9313 DAB1 Zornitza Stark Classified gene: DAB1 as Red List (low evidence)
Mendeliome v0.9313 DAB1 Zornitza Stark Gene: dab1 has been classified as Red List (Low Evidence).
Mendeliome v0.9312 DAB1 Zornitza Stark reviewed gene: DAB1: Rating: RED; Mode of pathogenicity: None; Publications: 33928188; Phenotypes: Ataxia, Intellectual disability; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Ataxia - paediatric v0.293 DAB1 Zornitza Stark Marked gene: DAB1 as ready
Ataxia - paediatric v0.293 DAB1 Zornitza Stark Gene: dab1 has been classified as Red List (Low Evidence).
Ataxia - paediatric v0.293 DAB1 Zornitza Stark Classified gene: DAB1 as Red List (low evidence)
Ataxia - paediatric v0.293 DAB1 Zornitza Stark Gene: dab1 has been classified as Red List (Low Evidence).
Ataxia - paediatric v0.292 DAB1 Zornitza Stark reviewed gene: DAB1: Rating: RED; Mode of pathogenicity: None; Publications: ; Phenotypes: Ataxia, Intellectual disability; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Intellectual disability syndromic and non-syndromic v0.4176 SNIP1 Zornitza Stark Publications for gene: SNIP1 were set to 22279524
Intellectual disability syndromic and non-syndromic v0.4175 SNIP1 Zornitza Stark changed review comment from: Three Amish individuals with same homozygous variant, founder effect.; to: Four Amish individuals with same homozygous variant, founder effect.
Intellectual disability syndromic and non-syndromic v0.4175 SNIP1 Zornitza Stark edited their review of gene: SNIP1: Changed publications: 22279524, 34570759
Callosome v0.327 SNIP1 Zornitza Stark Publications for gene: SNIP1 were set to 22279524
Callosome v0.326 SNIP1 Zornitza Stark Tag founder tag was added to gene: SNIP1.
Callosome v0.326 SNIP1 Zornitza Stark changed review comment from: Three Amish individuals with same homozygous variant, founder effect.; to: Four Amish individuals with same homozygous variant, founder effect.
Callosome v0.326 SNIP1 Zornitza Stark edited their review of gene: SNIP1: Changed publications: 22279524, 34570759
Mendeliome v0.9312 SNIP1 Zornitza Stark Tag founder tag was added to gene: SNIP1.
Primary Ovarian Insufficiency_Premature Ovarian Failure v0.195 PANX1 Zornitza Stark changed review comment from: Two unrelated families, some functional data. However, clinical presentation is with infertility rather than POI/POF.; to: Two unrelated families with balletic variants, some functional data. Four with mono-allelic variants. However, clinical presentation is with infertility rather than POI/POF.
Primary Ovarian Insufficiency_Premature Ovarian Failure v0.195 PANX1 Zornitza Stark edited their review of gene: PANX1: Changed mode of inheritance: BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Mendeliome v0.9312 ERBB4 Zornitza Stark Marked gene: ERBB4 as ready
Mendeliome v0.9312 ERBB4 Zornitza Stark Gene: erbb4 has been classified as Green List (High Evidence).
Mendeliome v0.9312 ERBB4 Zornitza Stark Phenotypes for gene: ERBB4 were changed from to Amyotrophic lateral sclerosis 19, MIM# MIM#615515; Intellectual disability
Mendeliome v0.9311 ERBB4 Zornitza Stark Publications for gene: ERBB4 were set to
Mendeliome v0.9310 ERBB4 Zornitza Stark Mode of inheritance for gene: ERBB4 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9309 ERBB4 Zornitza Stark reviewed gene: ERBB4: Rating: GREEN; Mode of pathogenicity: None; Publications: 24119685, 28889094, 33603162; Phenotypes: Amyotrophic lateral sclerosis 19, MIM# MIM#615515, Intellectual disability; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Intellectual disability syndromic and non-syndromic v0.4175 LONP1 Zornitza Stark Marked gene: LONP1 as ready
Intellectual disability syndromic and non-syndromic v0.4175 LONP1 Zornitza Stark Gene: lonp1 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4175 ERBB4 Zornitza Stark Phenotypes for gene: ERBB4 were changed from to Intellectual disability
Intellectual disability syndromic and non-syndromic v0.4174 ERBB4 Zornitza Stark Tag SV/CNV tag was added to gene: ERBB4.
Leukodystrophy - paediatric v0.236 ATP11A Zornitza Stark Phenotypes for gene: ATP11A were changed from PMID: 34403372 to Neurological disorder
Congenital Heart Defect v0.131 WLS Zornitza Stark Marked gene: WLS as ready
Congenital Heart Defect v0.131 WLS Zornitza Stark Gene: wls has been classified as Green List (High Evidence).
Congenital Heart Defect v0.131 WLS Zornitza Stark Classified gene: WLS as Green List (high evidence)
Congenital Heart Defect v0.131 WLS Zornitza Stark Gene: wls has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4174 LONP1 Zornitza Stark Phenotypes for gene: LONP1 were changed from CODAS syndrome, MIM#600373; Mitochondrial cytopathy to CODAS syndrome, MIM#600373; Mitochondrial cytopathy
Congenital anomalies of the kidney and urinary tract (CAKUT) Syndromic v0.89 WLS Zornitza Stark Marked gene: WLS as ready
Congenital anomalies of the kidney and urinary tract (CAKUT) Syndromic v0.89 WLS Zornitza Stark Gene: wls has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4174 LONP1 Zornitza Stark Phenotypes for gene: LONP1 were changed from to CODAS syndrome, MIM#600373; Mitochondrial cytopathy
Congenital anomalies of the kidney and urinary tract (CAKUT) Syndromic v0.89 WLS Zornitza Stark Classified gene: WLS as Green List (high evidence)
Congenital anomalies of the kidney and urinary tract (CAKUT) Syndromic v0.89 WLS Zornitza Stark Gene: wls has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4173 LONP1 Zornitza Stark Publications for gene: LONP1 were set to
Anophthalmia_Microphthalmia_Coloboma v1.9 WLS Zornitza Stark Marked gene: WLS as ready
Anophthalmia_Microphthalmia_Coloboma v1.9 WLS Zornitza Stark Gene: wls has been classified as Green List (High Evidence).
Hereditary Neuropathy_CMT - isolated v1.9 COX20 Zornitza Stark Marked gene: COX20 as ready
Hereditary Neuropathy_CMT - isolated v1.9 COX20 Zornitza Stark Gene: cox20 has been classified as Green List (High Evidence).
Hereditary Neuropathy_CMT - isolated v1.9 COX20 Zornitza Stark Classified gene: COX20 as Green List (high evidence)
Hereditary Neuropathy_CMT - isolated v1.9 COX20 Zornitza Stark Gene: cox20 has been classified as Green List (High Evidence).
Hereditary Neuropathy_CMT - isolated v1.8 COX20 Zornitza Stark reviewed gene: COX20: Rating: GREEN; Mode of pathogenicity: None; Publications: 33751098; Phenotypes: Neuropathy; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Intellectual disability syndromic and non-syndromic v0.4172 LONP1 Zornitza Stark Mode of inheritance for gene: LONP1 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Intellectual disability syndromic and non-syndromic v0.4171 LONP1 Zornitza Stark reviewed gene: LONP1: Rating: GREEN; Mode of pathogenicity: None; Publications: 31636596; Phenotypes: CODAS syndrome, MIM#600373, Mitochondrial cytopathy; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Anophthalmia_Microphthalmia_Coloboma v1.9 WLS Zornitza Stark Classified gene: WLS as Green List (high evidence)
Anophthalmia_Microphthalmia_Coloboma v1.9 WLS Zornitza Stark Gene: wls has been classified as Green List (High Evidence).
Microcephaly v1.60 WLS Zornitza Stark Marked gene: WLS as ready
Microcephaly v1.60 WLS Zornitza Stark Gene: wls has been classified as Green List (High Evidence).
Microcephaly v1.60 WLS Zornitza Stark Classified gene: WLS as Green List (high evidence)
Microcephaly v1.60 WLS Zornitza Stark Gene: wls has been classified as Green List (High Evidence).
Microcephaly v1.59 WLS Zornitza Stark Classified gene: WLS as Green List (high evidence)
Microcephaly v1.59 WLS Zornitza Stark Gene: wls has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4171 WIPI2 Zornitza Stark Phenotypes for gene: WIPI2 were changed from Intellectual developmental disorder with short stature and variable skeletal anomalies 618453 to Intellectual developmental disorder with short stature and variable skeletal anomalies 618453; global developmental delay; intellectual disability; refractory infantile/childhood-onset epilepsy; progressive tetraplegia with joint contractures; dyskinesia; speech and visual impairment; autistic features; ataxic gait
Intellectual disability syndromic and non-syndromic v0.4171 WIPI2 Zornitza Stark Publications for gene: WIPI2 were set to 30968111
Intellectual disability syndromic and non-syndromic v0.4170 WIPI2 Zornitza Stark Classified gene: WIPI2 as Green List (high evidence)
Intellectual disability syndromic and non-syndromic v0.4170 WIPI2 Zornitza Stark Gene: wipi2 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4169 ZDHHC15 Zornitza Stark Phenotypes for gene: ZDHHC15 were changed from to Mental retardation, X-linked 91, 300577
Intellectual disability syndromic and non-syndromic v0.4168 ZDHHC15 Zornitza Stark Publications for gene: ZDHHC15 were set to
Intellectual disability syndromic and non-syndromic v0.4167 ZDHHC15 Zornitza Stark Mode of inheritance for gene: ZDHHC15 was changed from Unknown to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Intellectual disability syndromic and non-syndromic v0.4166 ZDHHC15 Zornitza Stark reviewed gene: ZDHHC15: Rating: RED; Mode of pathogenicity: None; Publications: 34345675, 32989326; Phenotypes: Mental retardation, X-linked 91, 300577; Mode of inheritance: X-LINKED: hemizygous mutation in males, biallelic mutations in females
Ataxia - paediatric v0.292 DAB1 Daniel Flanagan gene: DAB1 was added
gene: DAB1 was added to Ataxia - paediatric. Sources: Literature
Mode of inheritance for gene: DAB1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: DAB1 were set to PMID: 33928188
Phenotypes for gene: DAB1 were set to epilepsy; developmental delay; cerebellar ataxia; structural brain abnormalities; oral motor difficulty
Penetrance for gene: DAB1 were set to unknown
Review for gene: DAB1 was set to AMBER
Added comment: WES trio analysis identified compound heterozygous DAB1 canonical splice variants in a child with epilepsy (onset 6 years), developmental delay, cerebellar ataxia, oral motor difficulty, and structural brain abnormalities. RT-PCR confirms that the first variant (c.307-2A>T) causes a in-frame deletion of 3 amino acids. The second variant (c.67+1G>T) is reported to causes an in-frame deletion of exon 4 (first coding exon) and loss of the ATG initiation site.
Sources: Literature
Hereditary Spastic Paraplegia - paediatric v1.18 ABHD16A Seb Lunke Marked gene: ABHD16A as ready
Hereditary Spastic Paraplegia - paediatric v1.18 ABHD16A Seb Lunke Gene: abhd16a has been classified as Green List (High Evidence).
Hereditary Spastic Paraplegia - paediatric v1.18 ABHD16A Seb Lunke Classified gene: ABHD16A as Green List (high evidence)
Hereditary Spastic Paraplegia - paediatric v1.18 ABHD16A Seb Lunke Gene: abhd16a has been classified as Green List (High Evidence).
Leukodystrophy - paediatric v0.235 ABHD16A Seb Lunke Marked gene: ABHD16A as ready
Leukodystrophy - paediatric v0.235 ABHD16A Seb Lunke Gene: abhd16a has been classified as Green List (High Evidence).
Leukodystrophy - paediatric v0.235 ABHD16A Seb Lunke Phenotypes for gene: ABHD16A were changed from Spastic paraplegia to Spastic paraplegia; intellectual disability; callosome
Leukodystrophy - paediatric v0.234 ABHD16A Seb Lunke Classified gene: ABHD16A as Green List (high evidence)
Leukodystrophy - paediatric v0.234 ABHD16A Seb Lunke Gene: abhd16a has been classified as Green List (High Evidence).
Ataxia - adult onset v0.143 PRPS1 Chern Lim edited their review of gene: PRPS1: Added comment: PMID: 25491489:
Heterozygous missense variant, loss of function - PRS enzyme deficiency showed.
Proband and her mother have various degrees of ataxia (examinations at 34yrs and 70yrs, respectively), peripheral neuropathy and hearing loss beyond the ophthalmological symptoms, whereas the phenotype of the affected older sister (36yo) is currently confined to the eye and milder.; Changed publications: 33898739, 28967191, 25491489
Intellectual disability syndromic and non-syndromic v0.4166 ERBB4 Seb Lunke Marked gene: ERBB4 as ready
Intellectual disability syndromic and non-syndromic v0.4166 ERBB4 Seb Lunke Gene: erbb4 has been classified as Amber List (Moderate Evidence).
Intellectual disability syndromic and non-syndromic v0.4166 ERBB4 Seb Lunke Classified gene: ERBB4 as Amber List (moderate evidence)
Intellectual disability syndromic and non-syndromic v0.4166 ERBB4 Seb Lunke Added comment: Comment on list classification: CNVs only, not clear on the differentiation between ID and ALS.
Intellectual disability syndromic and non-syndromic v0.4166 ERBB4 Seb Lunke Gene: erbb4 has been classified as Amber List (Moderate Evidence).
Ataxia - adult onset v0.143 PRPS1 Zornitza Stark Marked gene: PRPS1 as ready
Ataxia - adult onset v0.143 PRPS1 Zornitza Stark Gene: prps1 has been classified as Amber List (Moderate Evidence).
Ataxia - adult onset v0.143 PRPS1 Zornitza Stark Publications for gene: PRPS1 were set to PMID: 33898739
Intellectual disability syndromic and non-syndromic v0.4165 ABHD16A Seb Lunke Marked gene: ABHD16A as ready
Intellectual disability syndromic and non-syndromic v0.4165 ABHD16A Seb Lunke Gene: abhd16a has been classified as Green List (High Evidence).
Callosome v0.326 ABHD16A Seb Lunke Marked gene: ABHD16A as ready
Callosome v0.326 ABHD16A Seb Lunke Gene: abhd16a has been classified as Green List (High Evidence).
Ataxia - adult onset v0.142 PRPS1 Zornitza Stark Classified gene: PRPS1 as Amber List (moderate evidence)
Ataxia - adult onset v0.142 PRPS1 Zornitza Stark Gene: prps1 has been classified as Amber List (Moderate Evidence).
Ataxia - adult onset v0.141 PRPS1 Zornitza Stark reviewed gene: PRPS1: Rating: AMBER; Mode of pathogenicity: None; Publications: ; Phenotypes: Ataxia, deafness, eye disease; Mode of inheritance: X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Leukodystrophy - paediatric v0.233 ABHD16A Lucy Spencer edited their review of gene: ABHD16A: Changed phenotypes: Spastic paraplegia, intellectual disability, callosome
Leukodystrophy - paediatric v0.233 ABHD16A Lucy Spencer changed review comment from: 11 individuals from 6 families with a complicated form of hereditary spastic paraplegia who carry bi-allelic deleterious variants in ABHD16A. Affected individuals present with a similar phenotype consisting of global developmental delay/intellectual disability, progressive spasticity affecting the upper and lower limbs, and corpus callosum and white matter anomalies. Immunoblot analysis on extracts from fibroblasts from four affected individuals demonstrated little to no ABHD16A protein levels compared to controls.
In 5 of the families the affected members were homozygous, 3 of these families were consanguineous. 2 families have the same variant- both families are French-Canadian.
4 missense variants, 1 frameshift, 1 nonsense.
From PMID: 34587489
Sources: Literature; to: 11 individuals from 6 families with a complicated form of hereditary spastic paraplegia who carry bi-allelic deleterious variants in ABHD16A. Affected individuals present with a similar phenotype consisting of global developmental delay/intellectual disability, progressive spasticity affecting the upper and lower limbs, and corpus callosum and white matter anomalies. Immunoblot analysis on extracts from fibroblasts from four affected individuals demonstrated little to no ABHD16A protein levels compared to controls.
In 5 of the families the affected members were homozygous, 3 of these families were consanguineous. 2 families have the same variant- both families are French-Canadian.
4 missense variants, 1 frameshift, 1 nonsense.
From PMID: 34587489
Sources: Literature
Intellectual disability syndromic and non-syndromic v0.4165 ABHD16A Seb Lunke Phenotypes for gene: ABHD16A were changed from Spastic paraplegia to Spastic paraplegia; Intellectual Disability; Callosome
Callosome v0.326 ABHD16A Seb Lunke Phenotypes for gene: ABHD16A were changed from Spastic paraplegia to Spastic paraplegia; Intellectual Disability; Callosome
Hereditary Spastic Paraplegia - paediatric v1.17 ABHD16A Lucy Spencer gene: ABHD16A was added
gene: ABHD16A was added to Hereditary Spastic Paraplegia - paediatric. Sources: Literature
Mode of inheritance for gene: ABHD16A was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ABHD16A were set to PMID: 34587489
Phenotypes for gene: ABHD16A were set to Spastic paraplegia; intellectual disability; callosome
Review for gene: ABHD16A was set to GREEN
Added comment: 11 individuals from 6 families with a complicated form of hereditary spastic paraplegia who carry bi-allelic deleterious variants in ABHD16A. Affected individuals present with a similar phenotype consisting of global developmental delay/intellectual disability, progressive spasticity affecting the upper and lower limbs, and corpus callosum and white matter anomalies. Immunoblot analysis on extracts from fibroblasts from four affected individuals demonstrated little to no ABHD16A protein levels compared to controls.
In 5 of the families the affected members were homozygous, 3 of these families were consanguineous. 2 families have the same variant- both families are French-Canadian.
4 missense variants, 1 frameshift, 1 nonsense.
From PMID: 34587489
Sources: Literature
Mendeliome v0.9309 PANX1 Zornitza Stark Publications for gene: PANX1 were set to 30918116; 32838805
Intellectual disability syndromic and non-syndromic v0.4164 WIPI2 Dean Phelan reviewed gene: WIPI2: Rating: GREEN; Mode of pathogenicity: None; Publications: PMID: 30968111, 34557665; Phenotypes: global developmental delay, intellectual disability, refractory infantile/childhood-onset epilepsy, progressive tetraplegia with joint contractures, dyskinesia, speech and visual impairment, autistic features, ataxic gait; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal; Current diagnostic: yes
Intellectual disability syndromic and non-syndromic v0.4164 ABHD16A Seb Lunke Classified gene: ABHD16A as Green List (high evidence)
Intellectual disability syndromic and non-syndromic v0.4164 ABHD16A Seb Lunke Gene: abhd16a has been classified as Green List (High Evidence).
Ataxia - adult onset v0.141 PRPS1 Chern Lim edited their review of gene: PRPS1: Changed publications: PMID: 33898739, 28967191
Mendeliome v0.9308 PANX1 Zornitza Stark Mode of pathogenicity for gene: PANX1 was changed from None to Other
Callosome v0.325 ABHD16A Seb Lunke Classified gene: ABHD16A as Green List (high evidence)
Callosome v0.325 ABHD16A Seb Lunke Gene: abhd16a has been classified as Green List (High Evidence).
Hereditary Neuropathy_CMT - isolated v1.8 COX20 Hazel Phillimore changed review comment from: Eight unrelated families carried the Chinese Han founder variant c.41A>G., p.(Lys14Arg) in either homozygous or compound heterozygous state with another variant. (This variant is predicted to cause aberrant splicing by abolishing the donor splice site of exon 1).
Three homozygous for p.(Lys14Arg), two compound heterozygous with p.(Trp74Cys), the others with p.(Ser33Leu), c.157+7A>G, or p.(Gln87*)
All patients displayed sensory ataxia, with early to juvenile age of onset from 1 to 17 years.
The clinical presentations of these patients showed some overlaps in central and peripheral nervous systems. However, our patients presented predominant proprioceptive sensory loss and sensory ataxia rather than a multisystem neurological impairment. Initial symptoms: difficulty walking, bilateral foot deformity.
Patient’s fibroblasts and transfected cell lines showed reduction of COX20 protein consistent with a loss-of-function mechanism, and reduced complex IV assembly, enzyme activity and oxygen consumption rate which is consistent with mitochondrial dysfunction..
Sources: Literature; to: Eight unrelated families carried the Chinese Han founder variant c.41A>G., p.(Lys14Arg) in either homozygous or compound heterozygous state with another variant. (This variant is predicted to cause aberrant splicing by abolishing the donor splice site of exon 1).
Three homozygous for p.(Lys14Arg), two compound heterozygous with p.(Trp74Cys), the others with p.(Ser33Leu), c.157+7A>G, or p.(Gln87*)
All patients displayed sensory ataxia, with early to juvenile age of onset from 1 to 17 years.
The clinical presentations of these patients showed some overlap in central and peripheral nervous systems. They presented with predominant proprioceptive sensory loss and sensory ataxia rather than a multisystem neurological impairment. Initial symptoms: difficulty walking, bilateral foot deformity.
Patient’s fibroblasts and transfected cell lines showed reduction of COX20 protein consistent with a loss-of-function mechanism, and reduced complex IV assembly, enzyme activity and oxygen consumption rate which is consistent with mitochondrial dysfunction..
Sources: Literature
Mendeliome v0.9307 PANX1 Zornitza Stark Mode of inheritance for gene: PANX1 was changed from MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Ataxia - adult onset v0.141 PRPS1 Chern Lim commented on gene: PRPS1: PMID: 28967191
in one of the families, heterozygous variants in proband with hearing loss and ataxia developed in the proband in her forties, and ocular manifestations of retinal changes and disc pallor were first confirmed in the two affected daughters in their twenties.
Mendeliome v0.9306 PANX1 Zornitza Stark Classified gene: PANX1 as Green List (high evidence)
Mendeliome v0.9306 PANX1 Zornitza Stark Gene: panx1 has been classified as Green List (High Evidence).
Leukodystrophy - paediatric v0.233 ABHD16A Lucy Spencer gene: ABHD16A was added
gene: ABHD16A was added to Leukodystrophy - paediatric. Sources: Literature
Mode of inheritance for gene: ABHD16A was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ABHD16A were set to PMID: 34587489
Phenotypes for gene: ABHD16A were set to Spastic paraplegia
Review for gene: ABHD16A was set to GREEN
Added comment: 11 individuals from 6 families with a complicated form of hereditary spastic paraplegia who carry bi-allelic deleterious variants in ABHD16A. Affected individuals present with a similar phenotype consisting of global developmental delay/intellectual disability, progressive spasticity affecting the upper and lower limbs, and corpus callosum and white matter anomalies. Immunoblot analysis on extracts from fibroblasts from four affected individuals demonstrated little to no ABHD16A protein levels compared to controls.
In 5 of the families the affected members were homozygous, 3 of these families were consanguineous. 2 families have the same variant- both families are French-Canadian.
4 missense variants, 1 frameshift, 1 nonsense.
From PMID: 34587489
Sources: Literature
Hereditary Neuropathy_CMT - isolated v1.8 COX20 Hazel Phillimore gene: COX20 was added
gene: COX20 was added to Hereditary Neuropathy_CMT - isolated. Sources: Literature
Mode of inheritance for gene: COX20 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: COX20 were set to PMID: 33751098
Phenotypes for gene: COX20 were set to sensory neuronopathy; sensory neuron disease; ganglionopathy
Review for gene: COX20 was set to GREEN
Added comment: Eight unrelated families carried the Chinese Han founder variant c.41A>G., p.(Lys14Arg) in either homozygous or compound heterozygous state with another variant. (This variant is predicted to cause aberrant splicing by abolishing the donor splice site of exon 1).
Three homozygous for p.(Lys14Arg), two compound heterozygous with p.(Trp74Cys), the others with p.(Ser33Leu), c.157+7A>G, or p.(Gln87*)
All patients displayed sensory ataxia, with early to juvenile age of onset from 1 to 17 years.
The clinical presentations of these patients showed some overlaps in central and peripheral nervous systems. However, our patients presented predominant proprioceptive sensory loss and sensory ataxia rather than a multisystem neurological impairment. Initial symptoms: difficulty walking, bilateral foot deformity.
Patient’s fibroblasts and transfected cell lines showed reduction of COX20 protein consistent with a loss-of-function mechanism, and reduced complex IV assembly, enzyme activity and oxygen consumption rate which is consistent with mitochondrial dysfunction..
Sources: Literature
Callosome v0.324 ABHD16A Lucy Spencer gene: ABHD16A was added
gene: ABHD16A was added to Callosome. Sources: Literature
Mode of inheritance for gene: ABHD16A was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ABHD16A were set to PMID: 34587489
Phenotypes for gene: ABHD16A were set to Spastic paraplegia
Review for gene: ABHD16A was set to GREEN
Added comment: 11 individuals from 6 families with a complicated form of hereditary spastic paraplegia who carry bi-allelic deleterious variants in ABHD16A. Affected individuals present with a similar phenotype consisting of global developmental delay/intellectual disability, progressive spasticity affecting the upper and lower limbs, and corpus callosum and white matter anomalies. Immunoblot analysis on extracts from fibroblasts from four affected individuals demonstrated little to no ABHD16A protein levels compared to controls.
In 5 of the families the affected members were homozygous, 3 of these families were consanguineous. 2 families have the same variant- both families are French-Canadian.
4 missense variants, 1 frameshift, 1 nonsense.
From PMID: 34587489
Sources: Literature
Mendeliome v0.9305 ZDHHC15 Zornitza Stark Phenotypes for gene: ZDHHC15 were changed from Mental retardation, X-linked 91, 300577 to Mental retardation, X-linked 91, 300577; cerebral palsy; intellectual disability; autism spectrum disorder; epilepsy
Mendeliome v0.9305 ABHD16A Seb Lunke Phenotypes for gene: ABHD16A were changed from Spastic paraplegia to Spastic paraplegia; Intellectual Disability; Callosome
Mendeliome v0.9304 ZDHHC15 Zornitza Stark Publications for gene: ZDHHC15 were set to
Intellectual disability syndromic and non-syndromic v0.4163 ABHD16A Lucy Spencer gene: ABHD16A was added
gene: ABHD16A was added to Intellectual disability syndromic and non-syndromic. Sources: Literature
Mode of inheritance for gene: ABHD16A was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ABHD16A were set to PMID: 34587489
Phenotypes for gene: ABHD16A were set to Spastic paraplegia
Added comment: 11 individuals from 6 families with a complicated form of hereditary spastic paraplegia who carry bi-allelic deleterious variants in ABHD16A. Affected individuals present with a similar phenotype consisting of global developmental delay/intellectual disability, progressive spasticity affecting the upper and lower limbs, and corpus callosum and white matter anomalies. Immunoblot analysis on extracts from fibroblasts from four affected individuals demonstrated little to no ABHD16A protein levels compared to controls.
In 5 of the families the affected members were homozygous, 3 of these families were consanguineous. 2 families have the same variant- both families are French-Canadian.
4 missense variants, 1 frameshift, 1 nonsense.
From PMID: 34587489
Sources: Literature
Mendeliome v0.9303 ZDHHC15 Krithika Murali changed review comment from: Lewis et al Neurology Genetics 2021

Functional analysis of 4 ZDHHC15 variants - x2 Jin et al, others identified through GeneMatcher

Yeast cells expressing ZDHHC15 p.L13P (Jin et al, maternally inherited), p.K115R (maternally inherited) and p.S330p were indistinguishable from cells harboring the reference ZDHHC15 allele, however those expressing p.H158R (also reported in Jin et al, maternally inherited) disrupted normal protein function.; to: Lewis et al Neurology Genetics 2021

Functional analysis of 4 ZDHHC15 variants - x2 Jin et al Nat Genet 2020 PMID 32989326, others identified through GeneMatcher

Yeast cells expressing ZDHHC15 p.L13P (Jin et al, maternally inherited), p.K115R (maternally inherited) and p.S330p were indistinguishable from cells harboring the reference ZDHHC15 allele, however those expressing p.H158R (also reported in Jin et al, maternally inherited) disrupted normal protein function.
Ataxia - adult onset v0.141 PRPS1 Chern Lim gene: PRPS1 was added
gene: PRPS1 was added to Ataxia - adult onset. Sources: Literature
Mode of inheritance for gene: PRPS1 was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Publications for gene: PRPS1 were set to PMID: 33898739
Phenotypes for gene: PRPS1 were set to Adult-onset progressive ataxia, congenital strabismus, infantile-onset hearing loss, retinal dystrophy
Review for gene: PRPS1 was set to AMBER
gene: PRPS1 was marked as current diagnostic
Added comment: PMID: 33898739:
Heterozygous de novo missense variant in a 30yo female individual, presented with a 5-year history of progressive ataxia. She also had congenital strabismus, infantile-onset hearing loss, and a retinal dystrophy with progressive visual loss for the past 10 years.
Sources: Literature
Mendeliome v0.9303 PANX1 Melanie Marty reviewed gene: PANX1: Rating: GREEN; Mode of pathogenicity: Other; Publications: 33495594, 30918116, 32838805; Phenotypes: Oocyte maturation defect 7, MIM#618550; Mode of inheritance: BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Ataxia - paediatric v0.292 RFXANK Zornitza Stark Marked gene: RFXANK as ready
Ataxia - paediatric v0.292 RFXANK Zornitza Stark Gene: rfxank has been classified as Amber List (Moderate Evidence).
Mendeliome v0.9303 ABHD16A Seb Lunke Classified gene: ABHD16A as Green List (high evidence)
Mendeliome v0.9303 ABHD16A Seb Lunke Gene: abhd16a has been classified as Green List (High Evidence).
Mendeliome v0.9302 ZDHHC15 Krithika Murali reviewed gene: ZDHHC15: Rating: RED; Mode of pathogenicity: None; Publications: 34345675; Phenotypes: cerebral palsy, intellectual disability, autism spectrum disorder, epilepsy; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Ataxia - paediatric v0.292 RFXANK Zornitza Stark Classified gene: RFXANK as Amber List (moderate evidence)
Ataxia - paediatric v0.292 RFXANK Zornitza Stark Gene: rfxank has been classified as Amber List (Moderate Evidence).
Congenital Heart Defect v0.130 WLS Teresa Zhao gene: WLS was added
gene: WLS was added to Congenital Heart Defect. Sources: Literature
Mode of inheritance for gene: WLS was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: WLS were set to PMID: 34587386
Phenotypes for gene: WLS were set to Syndromic structural birth defects
Review for gene: WLS was set to GREEN
Added comment: - Homozygous mutations in 10 affected persons from 5 unrelated families.
- Patients had multiorgan defects, including microcephal, facial dysmorphism, foot syndactyly, renal agenesis, alopecia, iris coloboma, and heart defects.
- The mutations affected WLS protein stability and Wnt signaling. Knock-in mice showed tissue and cell vulnerability consistent with Wnt-signaling intensity and individual and collective functions of Wnts in embryogenesis.
Sources: Literature
Mendeliome v0.9302 WIPI2 Zornitza Stark Marked gene: WIPI2 as ready
Mendeliome v0.9302 WIPI2 Zornitza Stark Gene: wipi2 has been classified as Green List (High Evidence).
Mendeliome v0.9302 WIPI2 Zornitza Stark Publications for gene: WIPI2 were set to 30968111
Anophthalmia_Microphthalmia_Coloboma v1.8 WLS Teresa Zhao gene: WLS was added
gene: WLS was added to Anophthalmia_Microphthalmia_Coloboma. Sources: Literature
Mode of inheritance for gene: WLS was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: WLS were set to PMID: 34587386
Phenotypes for gene: WLS were set to Syndromic structural birth defects
Review for gene: WLS was set to GREEN
Added comment: - Homozygous mutations in 10 affected persons from 5 unrelated families.
- Patients had multiorgan defects, including microcephal, facial dysmorphism, foot syndactyly, renal agenesis, alopecia, iris coloboma, and heart defects.
- The mutations affected WLS protein stability and Wnt signaling. Knock-in mice showed tissue and cell vulnerability consistent with Wnt-signaling intensity and individual and collective functions of Wnts in embryogenesis.
Sources: Literature
Mendeliome v0.9301 WIPI2 Zornitza Stark Classified gene: WIPI2 as Green List (high evidence)
Mendeliome v0.9301 WIPI2 Zornitza Stark Gene: wipi2 has been classified as Green List (High Evidence).
Congenital anomalies of the kidney and urinary tract (CAKUT) Syndromic v0.88 WLS Teresa Zhao gene: WLS was added
gene: WLS was added to Congenital anomalies of the kidney and urinary tract (CAKUT) Syndromic. Sources: Literature
Mode of inheritance for gene: WLS was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: WLS were set to PMID: 34587386
Phenotypes for gene: WLS were set to Syndromic structural birth defects
Review for gene: WLS was set to GREEN
Added comment: - Homozygous mutations in 10 affected persons from 5 unrelated families.
- Patients had multiorgan defects, including microcephal, facial dysmorphism, foot syndactyly, renal agenesis, alopecia, iris coloboma, and heart defects.
- The mutations affected WLS protein stability and Wnt signaling. Knock-in mice showed tissue and cell vulnerability consistent with Wnt-signaling intensity and individual and collective functions of Wnts in embryogenesis.
Sources: Literature
Leukodystrophy - paediatric v0.233 ATP11A Zornitza Stark Marked gene: ATP11A as ready
Leukodystrophy - paediatric v0.233 ATP11A Zornitza Stark Gene: atp11a has been classified as Amber List (Moderate Evidence).
Mendeliome v0.9300 SNIP1 Seb Lunke Publications for gene: SNIP1 were set to 22279524
Leukodystrophy - paediatric v0.233 ATP11A Zornitza Stark Classified gene: ATP11A as Amber List (moderate evidence)
Leukodystrophy - paediatric v0.233 ATP11A Zornitza Stark Gene: atp11a has been classified as Amber List (Moderate Evidence).
Hydrocephalus_Ventriculomegaly v0.97 ATP11A Zornitza Stark Marked gene: ATP11A as ready
Hydrocephalus_Ventriculomegaly v0.97 ATP11A Zornitza Stark Gene: atp11a has been classified as Amber List (Moderate Evidence).
Hydrocephalus_Ventriculomegaly v0.97 ATP11A Zornitza Stark Classified gene: ATP11A as Amber List (moderate evidence)
Hydrocephalus_Ventriculomegaly v0.97 ATP11A Zornitza Stark Gene: atp11a has been classified as Amber List (Moderate Evidence).
Intellectual disability syndromic and non-syndromic v0.4163 ATP11A Zornitza Stark Marked gene: ATP11A as ready
Intellectual disability syndromic and non-syndromic v0.4163 ATP11A Zornitza Stark Gene: atp11a has been classified as Amber List (Moderate Evidence).
Intellectual disability syndromic and non-syndromic v0.4163 ATP11A Zornitza Stark Classified gene: ATP11A as Amber List (moderate evidence)
Intellectual disability syndromic and non-syndromic v0.4163 ATP11A Zornitza Stark Gene: atp11a has been classified as Amber List (Moderate Evidence).
Mendeliome v0.9299 ATP11A Zornitza Stark Marked gene: ATP11A as ready
Mendeliome v0.9299 ATP11A Zornitza Stark Gene: atp11a has been classified as Amber List (Moderate Evidence).
Congenital diaphragmatic hernia v1.3 LONP1 Seb Lunke Marked gene: LONP1 as ready
Congenital diaphragmatic hernia v1.3 LONP1 Seb Lunke Gene: lonp1 has been classified as Red List (Low Evidence).
Congenital diaphragmatic hernia v1.3 LONP1 Seb Lunke gene: LONP1 was added
gene: LONP1 was added to Congenital diaphragmatic hernia. Sources: Literature
Mode of inheritance for gene: LONP1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: LONP1 were set to 34547244
Phenotypes for gene: LONP1 were set to Congenital diaphragmatic hernia
Penetrance for gene: LONP1 were set to Incomplete
Review for gene: LONP1 was set to RED
Added comment: LONP1 described as potential new risk factor for CDH. Putative disruptive variants are enriched by approx a factor 10 fold, but remain rare (up to 3% of studied CDH cohort). Segregation studies in 5 families showed incomplete penetrance, at ~50%. A mouse model with lung specific know-out had impaired lung development, but het mice unaffected.
Sources: Literature
Ataxia - paediatric v0.291 RFXANK Elena Savva gene: RFXANK was added
gene: RFXANK was added to Ataxia - paediatric. Sources: Literature
Mode of inheritance for gene: RFXANK was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: RFXANK were set to PMID: 33855173; 23314770; 28676232
Phenotypes for gene: RFXANK were set to Progressive Ataxia and Neurologic Regression; MHC class II deficiency, complementation group B MIM#209920
Review for gene: RFXANK was set to AMBER
Added comment: PMID: 33855173 - 1 family (2 affecteds, 3rd not sequenced) with a homozygous c.271+1G>C splice variant, late-onset immunodeficiency and subacute progressive neurodegenerative disease, including cognition, motor, visual and cerebellar features. MRI demonstrated global cerebral and cerebellar atrophy.

PMID: 23314770 - 1/34 MHCII deficient patients with biallelic variants reported with ataxia. Majority of patients (including patient with ataxia) share a founder variant (c.338-25_338del26).

PMID: 28676232 - single 30 month old patient with ataxic gait and dysarthria and a homozygous PTC.

Summary: 3 patients but uncommon feature, variable expressivity
Sources: Literature
Mendeliome v0.9299 ATP11A Zornitza Stark Classified gene: ATP11A as Amber List (moderate evidence)
Mendeliome v0.9299 ATP11A Zornitza Stark Gene: atp11a has been classified as Amber List (Moderate Evidence).
Cerebellar and Pontocerebellar Hypoplasia v1.18 TRIP4 Zornitza Stark Marked gene: TRIP4 as ready
Cerebellar and Pontocerebellar Hypoplasia v1.18 TRIP4 Zornitza Stark Gene: trip4 has been classified as Amber List (Moderate Evidence).
Microcephaly v1.58 WLS Teresa Zhao gene: WLS was added
gene: WLS was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: WLS was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: WLS were set to PMID: 34587386
Phenotypes for gene: WLS were set to Syndromic structural birth defects
Review for gene: WLS was set to GREEN
Added comment: - Homozygous mutations in 10 affected persons from 5 unrelated families.
- Patients had multiorgan defects, including microcephal, facial dysmorphism, foot syndactyly, renal agenesis, alopecia, iris coloboma, and heart defects.
- The mutations affected WLS protein stability and Wnt signaling. Knock-in mice showed tissue and cell vulnerability consistent with Wnt-signaling intensity and individual and collective functions of Wnts in embryogenesis.
Sources: Literature
Cerebellar and Pontocerebellar Hypoplasia v1.18 TRIP4 Zornitza Stark Classified gene: TRIP4 as Amber List (moderate evidence)
Cerebellar and Pontocerebellar Hypoplasia v1.18 TRIP4 Zornitza Stark Gene: trip4 has been classified as Amber List (Moderate Evidence).
Mendeliome v0.9298 WIPI2 Dean Phelan reviewed gene: WIPI2: Rating: GREEN; Mode of pathogenicity: None; Publications: PMID: 30968111, 34557665; Phenotypes: global developmental delay, intellectual disability, refractory infantile/childhood-onset epilepsy, progressive tetraplegia with joint contractures, dyskinesia, speech and visual impairment, autistic features, ataxic gait; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9298 WLS Zornitza Stark Marked gene: WLS as ready
Mendeliome v0.9298 WLS Zornitza Stark Gene: wls has been classified as Green List (High Evidence).
Mendeliome v0.9298 WLS Zornitza Stark Classified gene: WLS as Green List (high evidence)
Mendeliome v0.9298 WLS Zornitza Stark Gene: wls has been classified as Green List (High Evidence).
Mendeliome v0.9297 ABHD16A Lucy Spencer gene: ABHD16A was added
gene: ABHD16A was added to Mendeliome. Sources: Literature
Mode of inheritance for gene: ABHD16A was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ABHD16A were set to PMID: 34587489
Phenotypes for gene: ABHD16A were set to Spastic paraplegia
Review for gene: ABHD16A was set to GREEN
Added comment: 11 individuals from 6 families with a complicated form of hereditary spastic paraplegia who carry bi-allelic deleterious variants in ABHD16A. Affected individuals present with a similar phenotype consisting of global developmental delay/intellectual disability, progressive spasticity affecting the upper and lower limbs, and corpus callosum and white matter anomalies. Immunoblot analysis on extracts from fibroblasts from four affected individuals demonstrated little to no ABHD16A protein levels compared to controls.
In 5 of the families the affected members were homozygous, 3 of these families were consanguineous. 2 families have the same variant- both families are French-Canadian.
4 missense variants, 1 frameshift, 1 nonsense.
From PMID: 34587489
Sources: Literature
Mendeliome v0.9297 SNIP1 Teresa Zhao reviewed gene: SNIP1: Rating: RED; Mode of pathogenicity: None; Publications: PMID: 34570759; Phenotypes: Psychomotor retardation, epilepsy, and craniofacial dysmorphism, 614501; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Regression v0.379 SHQ1 Zornitza Stark Marked gene: SHQ1 as ready
Regression v0.379 SHQ1 Zornitza Stark Gene: shq1 has been classified as Amber List (Moderate Evidence).
Intellectual disability syndromic and non-syndromic v0.4162 ATP11A Elena Savva gene: ATP11A was added
gene: ATP11A was added to Intellectual disability syndromic and non-syndromic. Sources: Literature
Mode of inheritance for gene: ATP11A was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: ATP11A were set to PMID: 34403372
Phenotypes for gene: ATP11A were set to Neurological disorder
Mode of pathogenicity for gene: ATP11A was set to Other
Review for gene: ATP11A was set to AMBER
Added comment: PMID: 34403372:
- Single de novo missense variant reported in a patient with developmental delay and neurological deterioration.
- Patient MRI showed severe cerebral atrophy, ventriculomegaly, hypomyelination leukodystrophy, thinned corpus callosum. Axonal neuropathy suggested.
- K/I heterozygous mice died perinatally.
- Functional studies on missense variant show plasma membrane lipid content impairment, reduced ATPase activity etc.

gnomAD: some NMD PTCs present, good quality variants found with 4-5 hets.
Sources: Literature
Regression v0.379 SHQ1 Zornitza Stark Classified gene: SHQ1 as Amber List (moderate evidence)
Regression v0.379 SHQ1 Zornitza Stark Gene: shq1 has been classified as Amber List (Moderate Evidence).
Regression v0.378 SHQ1 Zornitza Stark gene: SHQ1 was added
gene: SHQ1 was added to Regression. Sources: Literature
Mode of inheritance for gene: SHQ1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: SHQ1 were set to 34542157; 29178645
Phenotypes for gene: SHQ1 were set to Dystonia; Neurodegeneration
Review for gene: SHQ1 was set to AMBER
Added comment: Three unrelated families reported. Family 1: isolated dystonia only; Family 2: dystonia, and neurodegeneration; Family 3: neurodegeneration. Rated Amber as phenotypes likely represent a continuum but currently unclear what proportion have neurodegeneration.
Sources: Literature
Hydrocephalus_Ventriculomegaly v0.96 ATP11A Elena Savva gene: ATP11A was added
gene: ATP11A was added to Hydrocephalus_Ventriculomegaly. Sources: Literature
Mode of inheritance for gene: ATP11A was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: ATP11A were set to PMID: 34403372
Phenotypes for gene: ATP11A were set to Neurological disorder
Mode of pathogenicity for gene: ATP11A was set to Other
Review for gene: ATP11A was set to AMBER
Added comment: PMID: 34403372:
- Single de novo missense variant reported in a patient with developmental delay and neurological deterioration.
- Patient MRI showed severe cerebral atrophy, ventriculomegaly, hypomyelination leukodystrophy, thinned corpus callosum. Axonal neuropathy suggested.
- K/I heterozygous mice died perinatally.
- Functional studies on missense variant show plasma membrane lipid content impairment, reduced ATPase activity etc.

gnomAD: some NMD PTCs present, good quality variants found with 4-5 hets.
Sources: Literature
Intellectual disability syndromic and non-syndromic v0.4162 ERBB4 Ain Roesley edited their review of gene: ERBB4: Changed phenotypes: intellectual disability
Leukodystrophy - paediatric v0.232 ATP11A Elena Savva gene: ATP11A was added
gene: ATP11A was added to Leukodystrophy - paediatric. Sources: Literature
Mode of inheritance for gene: ATP11A was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: ATP11A were set to PMID: 34403372
Phenotypes for gene: ATP11A were set to PMID: 34403372
Mode of pathogenicity for gene: ATP11A was set to Other
Review for gene: ATP11A was set to AMBER
Added comment: PMID: 34403372:
- Single de novo missense variant reported in a patient with developmental delay and neurological deterioration.
- Patient MRI showed severe cerebral atrophy, ventriculomegaly, hypomyelination leukodystrophy, thinned corpus callosum. Axonal neuropathy suggested.
- K/I heterozygous mice died perinatally.
- Functional studies on missense variant show plasma membrane lipid content impairment, reduced ATPase activity etc.

gnomAD: some NMD PTCs present, good quality variants found with 4-5 hets.
Sources: Literature
Intellectual disability syndromic and non-syndromic v0.4162 ERBB4 Ain Roesley gene: ERBB4 was added
gene: ERBB4 was added to Intellectual disability syndromic and non-syndromic. Sources: Literature
Mode of inheritance for gene: ERBB4 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: ERBB4 were set to 33603162
Penetrance for gene: ERBB4 were set to unknown
Review for gene: ERBB4 was set to GREEN
Added comment: CNVs reported only
exonic deletions:
3x families with ID, speech delays, aggressive outbursts (including 1x de novo)
1x family with global dev delay inherited from unaffected parent

exonic del with limited clinical info:
1x severe expressive language delay
Sources: Literature
Mendeliome v0.9297 ATP11A Elena Savva gene: ATP11A was added
gene: ATP11A was added to Mendeliome. Sources: Literature
Mode of inheritance for gene: ATP11A was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: ATP11A were set to PMID: 34403372
Phenotypes for gene: ATP11A were set to Neurological disorder
Mode of pathogenicity for gene: ATP11A was set to Other
Review for gene: ATP11A was set to AMBER
Added comment: PMID: 34403372:
- Single de novo missense variant reported in a patient with developmental delay and neurological deterioration.
- Patient MRI showed severe cerebral atrophy, ventriculomegaly, hypomyelination leukodystrophy, thinned corpus callosum. Axonal neuropathy suggested.
- K/I heterozygous mice died perinatally.
- Functional studies on missense variant show plasma membrane lipid content impairment, reduced ATPase activity etc.

gnomAD: some NMD PTCs present, good quality variants found with 4-5 hets.
Sources: Literature
Cerebellar and Pontocerebellar Hypoplasia v1.17 TRIP4 Chern Lim gene: TRIP4 was added
gene: TRIP4 was added to Cerebellar and Pontocerebellar Hypoplasia. Sources: Literature
Mode of inheritance for gene: TRIP4 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: TRIP4 were set to PMID: 34075209
Phenotypes for gene: TRIP4 were set to cerebellar hypoplasia and spinal muscular atrophy (PCH1) and congenital bone fractures.
Review for gene: TRIP4 was set to AMBER
gene: TRIP4 was marked as current diagnostic
Added comment: PMID: 34075209:
One patient with cerebellar hypoplasia and spinal muscular atrophy (PCH1) and congenital bone fractures, hom PTV. The same PTV had been previously reported in 3 patients from 2 families with prenatal spinal muscular atrophy and congenital bone fractures (PMID: 26924529).
Sources: Literature
Dystonia - complex v0.194 SHQ1 Zornitza Stark Marked gene: SHQ1 as ready
Dystonia - complex v0.194 SHQ1 Zornitza Stark Gene: shq1 has been classified as Amber List (Moderate Evidence).
Dystonia - complex v0.194 SHQ1 Zornitza Stark Classified gene: SHQ1 as Amber List (moderate evidence)
Dystonia - complex v0.194 SHQ1 Zornitza Stark Gene: shq1 has been classified as Amber List (Moderate Evidence).
Dystonia - complex v0.193 SHQ1 Zornitza Stark gene: SHQ1 was added
gene: SHQ1 was added to Dystonia - complex. Sources: Literature
Mode of inheritance for gene: SHQ1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: SHQ1 were set to 34542157; 29178645
Phenotypes for gene: SHQ1 were set to Dystonia; Neurodegeneration
Review for gene: SHQ1 was set to AMBER
Added comment: Three unrelated families reported. Family 1: isolated dystonia only; Family 2: dystonia, and neurodegeneration; Family 3: neurodegeneration. Rated Amber as phenotypes likely represent a continuum but currently unclear what proportion will have complex dystonia.
Sources: Literature
Intellectual disability syndromic and non-syndromic v0.4162 SARS Bryony Thompson Marked gene: SARS as ready
Intellectual disability syndromic and non-syndromic v0.4162 SARS Bryony Thompson Gene: sars has been classified as Amber List (Moderate Evidence).
Intellectual disability syndromic and non-syndromic v0.4162 SARS Bryony Thompson Classified gene: SARS as Amber List (moderate evidence)
Intellectual disability syndromic and non-syndromic v0.4162 SARS Bryony Thompson Gene: sars has been classified as Amber List (Moderate Evidence).
Mendeliome v0.9297 WLS Teresa Zhao changed review comment from: - We identified homozygous mutations in 10 affected persons from 5 unrelated families.
- Patients had multiorgan defects, including microcephal, facial dysmorphism, foot syndactyly, renal agenesis, alopecia, iris coloboma, and heart defects.
- The mutations affected WLS protein stability and Wnt signaling. Knock-in mice showed tissue and cell vulnerability consistent with Wnt-signaling intensity and individual and collective functions of Wnts in embryogenesis.
Sources: Literature; to: - Homozygous mutations in 10 affected persons from 5 unrelated families.
- Patients had multiorgan defects, including microcephal, facial dysmorphism, foot syndactyly, renal agenesis, alopecia, iris coloboma, and heart defects.
- The mutations affected WLS protein stability and Wnt signaling. Knock-in mice showed tissue and cell vulnerability consistent with Wnt-signaling intensity and individual and collective functions of Wnts in embryogenesis.
Sources: Literature
Intellectual disability syndromic and non-syndromic v0.4161 SARS Bryony Thompson gene: SARS was added
gene: SARS was added to Intellectual disability syndromic and non-syndromic. Sources: Literature
Mode of inheritance for gene: SARS was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: SARS were set to 28236339; 34570399
Phenotypes for gene: SARS were set to Intellectual disability
Review for gene: SARS was set to AMBER
Added comment: Summary - 2 unrelated families with overlapping ID phenotype, and supporting in vitro and patient cell assays.
PMID: 28236339 - an Iranian family (distantly related) segregating a homozygous missense (c.514G>A, p.Asp172Asn) with moderate ID, microcephaly, ataxia, speech impairment, and aggressive behaviour. Also, supporting in vitro functional assays demonstrating altered protein function.
PMID: 34570399 - a consanguineous Turkish family segregating a homozygous missense (c.638G>T, p.(Arg213Leu)) with developmental delay, central deafness, cardiomyopathy, and metabolic decompensation during fever leading to death. Also, reduced protein level and enzymatic activity in patient cells.
Sources: Literature
Mendeliome v0.9297 WLS Teresa Zhao gene: WLS was added
gene: WLS was added to Mendeliome. Sources: Literature
Mode of inheritance for gene: WLS was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: WLS were set to PMID: 34587386
Phenotypes for gene: WLS were set to Syndromic structural birth defects
Review for gene: WLS was set to GREEN
Added comment: - We identified homozygous mutations in 10 affected persons from 5 unrelated families.
- Patients had multiorgan defects, including microcephal, facial dysmorphism, foot syndactyly, renal agenesis, alopecia, iris coloboma, and heart defects.
- The mutations affected WLS protein stability and Wnt signaling. Knock-in mice showed tissue and cell vulnerability consistent with Wnt-signaling intensity and individual and collective functions of Wnts in embryogenesis.
Sources: Literature
Dystonia - isolated/combined v1.10 SHQ1 Zornitza Stark Marked gene: SHQ1 as ready
Dystonia - isolated/combined v1.10 SHQ1 Zornitza Stark Gene: shq1 has been classified as Amber List (Moderate Evidence).
Dystonia - isolated/combined v1.10 SHQ1 Zornitza Stark Classified gene: SHQ1 as Amber List (moderate evidence)
Dystonia - isolated/combined v1.10 SHQ1 Zornitza Stark Gene: shq1 has been classified as Amber List (Moderate Evidence).
Dystonia - isolated/combined v1.9 SHQ1 Zornitza Stark gene: SHQ1 was added
gene: SHQ1 was added to Dystonia - isolated/combined. Sources: Literature
Mode of inheritance for gene: SHQ1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: SHQ1 were set to 34542157
Phenotypes for gene: SHQ1 were set to Dystonia
Review for gene: SHQ1 was set to AMBER
Added comment: Three unrelated families reported. Family 1: isolated dystonia only; Family 2: dystonia, and neurodegeneration; Family 3: neurodegeneration. Rated Amber as phenotypes likely represent a continuum but currently unclear what proportion would have isolated dystonia.
Sources: Literature
Mendeliome v0.9297 SHQ1 Zornitza Stark Marked gene: SHQ1 as ready
Mendeliome v0.9297 SHQ1 Zornitza Stark Gene: shq1 has been classified as Amber List (Moderate Evidence).
Mendeliome v0.9297 SARS Bryony Thompson Marked gene: SARS as ready
Mendeliome v0.9297 SARS Bryony Thompson Gene: sars has been classified as Amber List (Moderate Evidence).
Mendeliome v0.9297 SHQ1 Zornitza Stark Classified gene: SHQ1 as Amber List (moderate evidence)
Mendeliome v0.9297 SHQ1 Zornitza Stark Gene: shq1 has been classified as Amber List (Moderate Evidence).
Mendeliome v0.9296 SHQ1 Zornitza Stark gene: SHQ1 was added
gene: SHQ1 was added to Mendeliome. Sources: Literature
Mode of inheritance for gene: SHQ1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: SHQ1 were set to 34542157; 29178645
Phenotypes for gene: SHQ1 were set to Dystonia; Neurodegeneration
Review for gene: SHQ1 was set to AMBER
Added comment: Three unrelated families reported. Family 1: isolated dystonia only; Family 2: dystonia, and neurodegeneration; Family 3: neurodegeneration.

Rated Amber as phenotypes likely represent a continuum but currently unclear.
Sources: Literature
Mendeliome v0.9295 SARS Bryony Thompson Classified gene: SARS as Amber List (moderate evidence)
Mendeliome v0.9295 SARS Bryony Thompson Gene: sars has been classified as Amber List (Moderate Evidence).
Mendeliome v0.9294 SARS Bryony Thompson gene: SARS was added
gene: SARS was added to Mendeliome. Sources: Literature
Mode of inheritance for gene: SARS was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: SARS were set to 28236339; 34570399
Phenotypes for gene: SARS were set to Intellectual disability
Review for gene: SARS was set to AMBER
Added comment: Summary - 2 unrelated families with overlapping ID phenotype, and supporting in vitro and patient cell assays.
PMID: 28236339 - an Iranian family (distantly related) segregating a homozygous missense (c.514G>A, p.Asp172Asn) with moderate ID, microcephaly, ataxia, speech impairment, and aggressive behaviour. Also, supporting in vitro functional assays demonstrating altered protein function.
PMID: 34570399 - a consanguineous Turkish family segregating a homozygous missense (c.638G>T, p.(Arg213Leu)) with developmental delay, central deafness, cardiomyopathy, and metabolic decompensation during fever leading to death. Also, reduced protein level and enzymatic activity in patient cells.
Sources: Literature
Macrocephaly_Megalencephaly v0.88 NFIB Zornitza Stark Tag SV/CNV tag was added to gene: NFIB.
Macrocephaly_Megalencephaly v0.88 NFIB Zornitza Stark Marked gene: NFIB as ready
Macrocephaly_Megalencephaly v0.88 NFIB Zornitza Stark Gene: nfib has been classified as Green List (High Evidence).
Macrocephaly_Megalencephaly v0.88 NFIB Zornitza Stark Phenotypes for gene: NFIB were changed from to Macrocephaly, acquired, with impaired intellectual development, MIM#618286
Macrocephaly_Megalencephaly v0.87 NFIB Zornitza Stark Publications for gene: NFIB were set to
Macrocephaly_Megalencephaly v0.86 NFIB Zornitza Stark Mode of inheritance for gene: NFIB was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Macrocephaly_Megalencephaly v0.85 NFIB Zornitza Stark reviewed gene: NFIB: Rating: GREEN; Mode of pathogenicity: None; Publications: 30388402; Phenotypes: Macrocephaly, acquired, with impaired intellectual development, MIM#618286; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9293 NDN Zornitza Stark Marked gene: NDN as ready
Mendeliome v0.9293 NDN Zornitza Stark Gene: ndn has been classified as Red List (Low Evidence).
Mendeliome v0.9293 NDN Zornitza Stark Phenotypes for gene: NDN were changed from to Prader-Willi syndrome, MIM# 176270
Mendeliome v0.9292 NDN Zornitza Stark Mode of inheritance for gene: NDN was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9291 NDN Zornitza Stark Classified gene: NDN as Red List (low evidence)
Mendeliome v0.9291 NDN Zornitza Stark Gene: ndn has been classified as Red List (Low Evidence).
Mendeliome v0.9290 NDN Zornitza Stark reviewed gene: NDN: Rating: RED; Mode of pathogenicity: None; Publications: ; Phenotypes: Prader-Willi syndrome, MIM# 176270; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Intellectual disability syndromic and non-syndromic v0.4160 NDN Zornitza Stark Phenotypes for gene: NDN were changed from to Prader-Willi syndrome, MIM# 176270
Ataxia - adult onset v0.141 EEF2 Zornitza Stark Marked gene: EEF2 as ready
Ataxia - adult onset v0.141 EEF2 Zornitza Stark Gene: eef2 has been classified as Red List (Low Evidence).
Mendeliome v0.9290 NFIB Zornitza Stark Marked gene: NFIB as ready
Mendeliome v0.9290 NFIB Zornitza Stark Gene: nfib has been classified as Green List (High Evidence).
Mendeliome v0.9290 NFIB Zornitza Stark Phenotypes for gene: NFIB were changed from to Macrocephaly, acquired, with impaired intellectual development, MIM#618286
Mendeliome v0.9289 NFIB Zornitza Stark Publications for gene: NFIB were set to
Mendeliome v0.9288 NFIB Zornitza Stark Mode of inheritance for gene: NFIB was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9287 NFIB Zornitza Stark Tag SV/CNV tag was added to gene: NFIB.
Mendeliome v0.9287 NFIB Zornitza Stark reviewed gene: NFIB: Rating: GREEN; Mode of pathogenicity: None; Publications: 30388402; Phenotypes: Macrocephaly, acquired, with impaired intellectual development, MIM#618286; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9287 ZNF407 Zornitza Stark Phenotypes for gene: ZNF407 were changed from Global developmental delay; Intellectual disability to SIMHA syndrome, MIM# 619557; Global developmental delay; Intellectual disability
Mendeliome v0.9286 ZNF407 Zornitza Stark edited their review of gene: ZNF407: Changed phenotypes: SIMHA syndrome, MIM# 619557, Global developmental delay, Intellectual disability
Intellectual disability syndromic and non-syndromic v0.4159 ZNF407 Zornitza Stark Phenotypes for gene: ZNF407 were changed from Global developmental delay; Intellectual disability to SIMHA syndrome, MIM# 619557; Global developmental delay; Intellectual disability
Intellectual disability syndromic and non-syndromic v0.4158 ZNF407 Zornitza Stark edited their review of gene: ZNF407: Changed rating: AMBER; Changed phenotypes: SIMHA syndrome, MIM# 619557; Changed mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Growth failure v1.9 RNF113A Zornitza Stark Marked gene: RNF113A as ready
Growth failure v1.9 RNF113A Zornitza Stark Gene: rnf113a has been classified as Green List (High Evidence).
Growth failure v1.9 RNF113A Zornitza Stark Classified gene: RNF113A as Green List (high evidence)
Growth failure v1.9 RNF113A Zornitza Stark Gene: rnf113a has been classified as Green List (High Evidence).
Growth failure v1.8 RNF113A Zornitza Stark gene: RNF113A was added
gene: RNF113A was added to Growth failure. Sources: Expert Review
Mode of inheritance for gene: RNF113A was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Publications for gene: RNF113A were set to 25612912; 31793730; 31880405
Phenotypes for gene: RNF113A were set to Trichothiodystrophy 5, nonphotosensitive; OMIM #300953
Review for gene: RNF113A was set to GREEN
Added comment: Four families reported, two with same variant. Clinical features include ID, microcephaly, IUGR/growth failure, hypogonadism, and sparse/brittle hair. One of the families had antenatal presentation.
Sources: Expert Review
Chromosome Breakage Disorders v1.5 RNF113A Zornitza Stark Marked gene: RNF113A as ready
Chromosome Breakage Disorders v1.5 RNF113A Zornitza Stark Gene: rnf113a has been classified as Green List (High Evidence).
Chromosome Breakage Disorders v1.5 RNF113A Zornitza Stark Classified gene: RNF113A as Green List (high evidence)
Chromosome Breakage Disorders v1.5 RNF113A Zornitza Stark Gene: rnf113a has been classified as Green List (High Evidence).
Chromosome Breakage Disorders v1.4 RNF113A Zornitza Stark gene: RNF113A was added
gene: RNF113A was added to Chromosome Breakage Disorders. Sources: Expert Review
Mode of inheritance for gene: RNF113A was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Publications for gene: RNF113A were set to 25612912; 31793730; 31880405
Phenotypes for gene: RNF113A were set to Trichothiodystrophy 5, nonphotosensitive; OMIM #300953
Review for gene: RNF113A was set to GREEN
Added comment: Four families reported, two with same variant. Clinical features include ID, microcephaly, IUGR/growth failure, hypogonadism, and sparse/brittle hair.
Sources: Expert Review
Microcephaly v1.58 RNF113A Zornitza Stark edited their review of gene: RNF113A: Changed mode of inheritance: X-LINKED: hemizygous mutation in males, biallelic mutations in females
Microcephaly v1.58 RNF113A Zornitza Stark Publications for gene: RNF113A were set to 25612912; 31793730
Microcephaly v1.57 RNF113A Zornitza Stark Classified gene: RNF113A as Green List (high evidence)
Microcephaly v1.57 RNF113A Zornitza Stark Gene: rnf113a has been classified as Green List (High Evidence).
Microcephaly v1.56 RNF113A Zornitza Stark edited their review of gene: RNF113A: Added comment: Two more individuals reported with different variants, at least one had microcephaly, upgrade to Green.; Changed rating: GREEN; Changed publications: 25612912, 31793730, 31880405
Intellectual disability syndromic and non-syndromic v0.4158 RNF113A Zornitza Stark Publications for gene: RNF113A were set to PMID: 25612912; 31793730
Intellectual disability syndromic and non-syndromic v0.4157 RNF113A Zornitza Stark Classified gene: RNF113A as Green List (high evidence)
Intellectual disability syndromic and non-syndromic v0.4157 RNF113A Zornitza Stark Gene: rnf113a has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4156 RNF113A Zornitza Stark reviewed gene: RNF113A: Rating: GREEN; Mode of pathogenicity: None; Publications: 31880405; Phenotypes: Trichothiodystrophy 5, nonphotosensitive, OMIM #300953; Mode of inheritance: X-LINKED: hemizygous mutation in males, biallelic mutations in females
Intellectual disability syndromic and non-syndromic v0.4156 RNF113A Zornitza Stark Mode of inheritance for gene: RNF113A was changed from X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males) to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Pituitary hormone deficiency v0.20 CHD7 Zornitza Stark Marked gene: CHD7 as ready
Pituitary hormone deficiency v0.20 CHD7 Zornitza Stark Gene: chd7 has been classified as Green List (High Evidence).
Pituitary hormone deficiency v0.20 CHD7 Zornitza Stark Publications for gene: CHD7 were set to
Pituitary hormone deficiency v0.19 CHD7 Zornitza Stark reviewed gene: CHD7: Rating: GREEN; Mode of pathogenicity: None; Publications: 18834967; Phenotypes: Hypogonadotropic hypogonadism 5 with or without anosmia, MIM# 612370; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Microcephaly v1.56 EIF3F Zornitza Stark Phenotypes for gene: EIF3F were changed from EIF3F-related neurodevelopmental disorder to EIF3F-related neurodevelopmental disorder; Mental retardation, autosomal recessive 67, MIM# 618295
Microcephaly v1.55 EIF3F Zornitza Stark reviewed gene: EIF3F: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Mental retardation, autosomal recessive 67, MIM# 618295; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Microcephaly v1.55 EIF3F Zornitza Stark Marked gene: EIF3F as ready
Microcephaly v1.55 EIF3F Zornitza Stark Gene: eif3f has been classified as Green List (High Evidence).
Mendeliome v0.9286 EIF3F Zornitza Stark Publications for gene: EIF3F were set to 30409806
Mendeliome v0.9285 EIF3F Zornitza Stark edited their review of gene: EIF3F: Added comment: Hüffmeier et al (2021) reported 21 patients who were homozygous/compound heterozygous for Phe232Val variant in EIF3F. All affected individuals had developmental delay and speech delay. About half had behavioural problems, altered muscular tone, hearing loss, and short stature. The study suggests that microcephaly, reduced sensitivity to pain, cleft lip/palate, gastrointestinal symptoms and ophthalmological symptoms are part of the phenotypic spectrum.; Changed publications: 30409806, 33736665; Changed phenotypes: Mental retardation, autosomal recessive 67, MIM# 618295
Clefting disorders v0.142 EIF3F Zornitza Stark Marked gene: EIF3F as ready
Clefting disorders v0.142 EIF3F Zornitza Stark Gene: eif3f has been classified as Green List (High Evidence).
Clefting disorders v0.142 EIF3F Zornitza Stark Phenotypes for gene: EIF3F were changed from EIF3F-related neurodevelopmental disorder to EIF3F-related neurodevelopmental disorder; Mental retardation, autosomal recessive 67, MIM# 618295
Intellectual disability syndromic and non-syndromic v0.4155 EIF3F Zornitza Stark Publications for gene: EIF3F were set to 30409806
Microcephaly v1.55 EIF3F Chirag Patel Classified gene: EIF3F as Green List (high evidence)
Microcephaly v1.55 EIF3F Chirag Patel Gene: eif3f has been classified as Green List (High Evidence).
Microcephaly v1.54 EIF3F Chirag Patel gene: EIF3F was added
gene: EIF3F was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: EIF3F was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: EIF3F were set to PMID: 33736665
Phenotypes for gene: EIF3F were set to EIF3F-related neurodevelopmental disorder
Review for gene: EIF3F was set to GREEN
Added comment: Hüffmeier et al (2021) reported 21 patients who were homozygous/compound heterozygous for Phe232Val variant in EIF3F. All affected individuals had developmental delay and speech delay. About half had behavioural problems, altered muscular tone, hearing loss, and short stature. The study suggests that microcephaly, reduced sensitivity to pain, cleft lip/palate, gastrointestinal symptoms and ophthalmological symptoms are part of the phenotypic spectrum.
Sources: Literature
Clefting disorders v0.141 EIF3F Chirag Patel Classified gene: EIF3F as Green List (high evidence)
Clefting disorders v0.141 EIF3F Chirag Patel Gene: eif3f has been classified as Green List (High Evidence).
Clefting disorders v0.140 EIF3F Chirag Patel gene: EIF3F was added
gene: EIF3F was added to Clefting disorders. Sources: Literature
Mode of inheritance for gene: EIF3F was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: EIF3F were set to PMID: 33736665
Phenotypes for gene: EIF3F were set to EIF3F-related neurodevelopmental disorder
Review for gene: EIF3F was set to GREEN
Added comment: Hüffmeier et al (2021) reported 21 patients who were homozygous/compound heterozygous for Phe232Val variant in EIF3F. All affected individuals had developmental delay and speech delay. About half had behavioural problems, altered muscular tone, hearing loss, and short stature. The study suggests that microcephaly, reduced sensitivity to pain, cleft lip/palate, gastrointestinal symptoms and ophthalmological symptoms are part of the phenotypic spectrum.
Sources: Literature
Intellectual disability syndromic and non-syndromic v0.4154 EIF3F Chirag Patel reviewed gene: EIF3F: Rating: GREEN; Mode of pathogenicity: None; Publications: PMID: 33736665; Phenotypes: EIF3F-related neurodevelopmental disorder; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Growth failure v1.7 KMT2A Zornitza Stark Marked gene: KMT2A as ready
Growth failure v1.7 KMT2A Zornitza Stark Added comment: Comment when marking as ready: Short stature is a feature.
Growth failure v1.7 KMT2A Zornitza Stark Gene: kmt2a has been classified as Green List (High Evidence).
Growth failure v1.7 KMT2A Zornitza Stark Publications for gene: KMT2A were set to PubMed: 22795537, 25810209, 29574747, 33783954
Growth failure v1.6 KMT2A Chirag Patel Classified gene: KMT2A as Green List (high evidence)
Growth failure v1.6 KMT2A Chirag Patel Gene: kmt2a has been classified as Green List (High Evidence).
Growth failure v1.5 KMT2A Chirag Patel gene: KMT2A was added
gene: KMT2A was added to Growth failure. Sources: Literature
Mode of inheritance for gene: KMT2A was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: KMT2A were set to PubMed: 22795537, 25810209, 29574747, 33783954
Phenotypes for gene: KMT2A were set to Wiedemann-Steiner syndrome; OMIM #605130
Review for gene: KMT2A was set to GREEN
Added comment: Wiedemann-Steiner syndrome is a congenital malformation syndrome characteriSed by hypertrichosis cubiti/back, short stature/growth retardation, mild to moderate intellectual disability; behavioral difficulties, and dysmorphism (long eyelashes, thick/arched eyebrows with lateral flare, broad nasal bridge, and downslanting and vertically narrow palpebral fissures). Many patients reported in the literature.
Sources: Literature
Cerebral Palsy v0.186 MFN2 Zornitza Stark Marked gene: MFN2 as ready
Cerebral Palsy v0.186 MFN2 Zornitza Stark Gene: mfn2 has been classified as Red List (Low Evidence).
Cerebral Palsy v0.186 MFN2 Zornitza Stark Classified gene: MFN2 as Red List (low evidence)
Cerebral Palsy v0.186 MFN2 Zornitza Stark Gene: mfn2 has been classified as Red List (Low Evidence).
Cerebral Palsy v0.185 SAMHD1 Zornitza Stark Marked gene: SAMHD1 as ready
Cerebral Palsy v0.185 SAMHD1 Zornitza Stark Gene: samhd1 has been classified as Green List (High Evidence).
Cerebral Palsy v0.185 RNASEH2C Zornitza Stark Marked gene: RNASEH2C as ready
Cerebral Palsy v0.185 RNASEH2C Zornitza Stark Gene: rnaseh2c has been classified as Green List (High Evidence).
Cerebral Palsy v0.185 RNASEH2A Zornitza Stark Marked gene: RNASEH2A as ready
Cerebral Palsy v0.185 RNASEH2A Zornitza Stark Gene: rnaseh2a has been classified as Green List (High Evidence).
Cerebral Palsy v0.185 RNASEH2B Zornitza Stark Marked gene: RNASEH2B as ready
Cerebral Palsy v0.185 RNASEH2B Zornitza Stark Gene: rnaseh2b has been classified as Green List (High Evidence).
Cerebral Palsy v0.185 RNASEH2B Zornitza Stark Publications for gene: RNASEH2B were set to PMID: 17846997, 28762473
Cerebral Palsy v0.184 TREX1 Zornitza Stark Marked gene: TREX1 as ready
Cerebral Palsy v0.184 TREX1 Zornitza Stark Gene: trex1 has been classified as Green List (High Evidence).
Cerebral Palsy v0.184 TREX1 Zornitza Stark Publications for gene: TREX1 were set to PMID: 17846997, 33528536
Cerebral Palsy v0.183 TAF1 Zornitza Stark Marked gene: TAF1 as ready
Cerebral Palsy v0.183 TAF1 Zornitza Stark Gene: taf1 has been classified as Green List (High Evidence).
Cerebral Palsy v0.183 TAF1 Zornitza Stark Publications for gene: TAF1 were set to PMID: 26637982, 33528536, 17273961
Cerebral Palsy v0.182 SPTAN1 Zornitza Stark Marked gene: SPTAN1 as ready
Cerebral Palsy v0.182 SPTAN1 Zornitza Stark Gene: sptan1 has been classified as Green List (High Evidence).
Cerebral Palsy v0.182 SPTAN1 Zornitza Stark Publications for gene: SPTAN1 were set to PMID: 20493457, 33528536, 34364746
Cerebral Palsy v0.181 ZSWIM6 Zornitza Stark Marked gene: ZSWIM6 as ready
Cerebral Palsy v0.181 ZSWIM6 Zornitza Stark Gene: zswim6 has been classified as Green List (High Evidence).
Cerebral Palsy v0.181 SAMHD1 Chirag Patel Classified gene: SAMHD1 as Green List (high evidence)
Cerebral Palsy v0.181 SAMHD1 Chirag Patel Gene: samhd1 has been classified as Green List (High Evidence).
Cerebral Palsy v0.180 SAMHD1 Chirag Patel gene: SAMHD1 was added
gene: SAMHD1 was added to Cerebral Palsy. Sources: Literature
Mode of inheritance for gene: SAMHD1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: SAMHD1 were set to PMID: 19525956
Phenotypes for gene: SAMHD1 were set to Aicardi-Goutieres syndrome 5; OMIM #612952
Review for gene: SAMHD1 was set to GREEN
Added comment: Aicardi-Goutieres syndrome is characterised by cerebral atrophy, leukodystrophy, intracranial calcifications, chronic CSF lymphocytosis, and increased CSF alpha-interferon, and neurologic dysfunction (progressive microcephaly, spasticity, dystonic posturing, profound psychomotor retardation), and often death in early childhood.

Rice et al. (2009) reported biallelic SAMHD1 mutations in 13 families with AGS.
Sources: Literature
Cerebral Palsy v0.179 RNASEH2C Chirag Patel Classified gene: RNASEH2C as Green List (high evidence)
Cerebral Palsy v0.179 RNASEH2C Chirag Patel Gene: rnaseh2c has been classified as Green List (High Evidence).
Cerebral Palsy v0.178 RNASEH2C Chirag Patel gene: RNASEH2C was added
gene: RNASEH2C was added to Cerebral Palsy. Sources: Literature
Mode of inheritance for gene: RNASEH2C was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: RNASEH2C were set to PMID: 17846997
Phenotypes for gene: RNASEH2C were set to Aicardi-Goutieres syndrome 3; OMIM #610329
Review for gene: RNASEH2C was set to GREEN
Added comment: Aicardi-Goutieres syndrome is characterised by cerebral atrophy, leukodystrophy, intracranial calcifications, chronic CSF lymphocytosis, and increased CSF alpha-interferon, and neurologic dysfunction (progressive microcephaly, spasticity, dystonic posturing, profound psychomotor retardation), and often death in early childhood.

Rice et al. (2007) reported biallelic RNASEH2C mutations in 18 families with AGS.
Sources: Literature
Cerebral Palsy v0.177 RNASEH2A Chirag Patel Classified gene: RNASEH2A as Green List (high evidence)
Cerebral Palsy v0.177 RNASEH2A Chirag Patel Gene: rnaseh2a has been classified as Green List (High Evidence).
Cerebral Palsy v0.176 RNASEH2B Chirag Patel Classified gene: RNASEH2B as Green List (high evidence)
Cerebral Palsy v0.176 RNASEH2B Chirag Patel Gene: rnaseh2b has been classified as Green List (High Evidence).
Cerebral Palsy v0.176 RNASEH2A Chirag Patel gene: RNASEH2A was added
gene: RNASEH2A was added to Cerebral Palsy. Sources: Literature
Mode of inheritance for gene: RNASEH2A was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: RNASEH2A were set to PMID: 17846997
Phenotypes for gene: RNASEH2A were set to Aicardi-Goutieres syndrome 4; OMIM #610333
Review for gene: RNASEH2A was set to GREEN
Added comment: Aicardi-Goutieres syndrome is characterised by cerebral atrophy, leukodystrophy, intracranial calcifications, chronic CSF lymphocytosis, and increased CSF alpha-interferon, and neurologic dysfunction (progressive microcephaly, spasticity, dystonic posturing, profound psychomotor retardation), and often death in early childhood.

Rice et al. (2007) reported biallelic RNASEH2A mutations in 3 families with AGS.
Sources: Literature
Cerebral Palsy v0.175 RNASEH2B Chirag Patel gene: RNASEH2B was added
gene: RNASEH2B was added to Cerebral Palsy. Sources: Literature
Mode of inheritance for gene: RNASEH2B was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: RNASEH2B were set to PMID: 17846997, 28762473
Phenotypes for gene: RNASEH2B were set to Aicardi-Goutieres syndrome 2; OMIM #610181
Review for gene: RNASEH2B was set to GREEN
Added comment: Aicardi-Goutieres syndrome is characterised by cerebral atrophy, leukodystrophy, intracranial calcifications, chronic CSF lymphocytosis, and increased CSF alpha-interferon, and neurologic dysfunction (progressive microcephaly, spasticity, dystonic posturing, profound psychomotor retardation), and often death in early childhood.

Rice et al. (2007) reported biallelic RNASEH2B mutations in 47 families with AGS.

Svingen et al. (2017) reported 2 siblings with atypical AGS with spastic quadriplegia, anarthria, preserved intellect, and increased iron signal in basal ganglia and homozygous RNASEH2B pathogenic variant.
Sources: Literature
Cerebral Palsy v0.174 TREX1 Chirag Patel Classified gene: TREX1 as Green List (high evidence)
Cerebral Palsy v0.174 TREX1 Chirag Patel Gene: trex1 has been classified as Green List (High Evidence).
Cerebral Palsy v0.173 TREX1 Chirag Patel gene: TREX1 was added
gene: TREX1 was added to Cerebral Palsy. Sources: Literature
Mode of inheritance for gene: TREX1 was set to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Publications for gene: TREX1 were set to PMID: 17846997, 33528536
Phenotypes for gene: TREX1 were set to Aicardi-Goutieres syndrome 1, dominant and recessive, OMIM #225750
Review for gene: TREX1 was set to GREEN
Added comment: Aicardi-Goutieres syndrome is characterised by cerebral atrophy, leukodystrophy, intracranial calcifications, chronic CSF lymphocytosis, and increased CSF alpha-interferon, and neurologic dysfunction (progressive microcephaly, spasticity, dystonic posturing, profound psychomotor retardation), and often death in early childhood.

Rice et al. (2007) reported biallelic TREX1 mutations in 31 families with AGS, and de novo heterozygous TREX1 mutation in 1 patient with AGS.

Moreno-De-Luca et al. (2021) reported 1 patient with CP and paternally inherited pathogenic variant.
Sources: Literature
Cerebral Palsy v0.172 TAF1 Chirag Patel Classified gene: TAF1 as Green List (high evidence)
Cerebral Palsy v0.172 TAF1 Chirag Patel Gene: taf1 has been classified as Green List (High Evidence).
Cerebral Palsy v0.171 TAF1 Chirag Patel gene: TAF1 was added
gene: TAF1 was added to Cerebral Palsy. Sources: Literature
Mode of inheritance for gene: TAF1 was set to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Publications for gene: TAF1 were set to PMID: 26637982, 33528536, 17273961
Phenotypes for gene: TAF1 were set to Intellectual developmental disorder, X-linked syndromic 33, OMIM #300966; Dystonia-Parkinsonism, X-linked, OMIM #314250
Review for gene: TAF1 was set to GREEN
Added comment: O'Rawe et al. (2015) reported 12 boys from 9 unrelated families with X-linked global developmental delay, intellectual disability, dysmorphism, generalized hypotonia, microcephaly and variable neurologic features (hypoplastic CC, spastic diplegia, dystonic movements, tremors). They identified 9 different hemizygous mutations in TAF1 gene (most de novo, 3 maternally inherited). No functional studies. The mutations were found by WGS, WES, targeted panel and microarray, and all confirmed by Sanger sequencing.

Moreno-De-Luca et al. (2021) reported 2 patients with CP and de novo LP variant.

Note: X-linked dystonia-parkinsonism (XDP) is caused by an SVA (short interspersed nuclear element, variable number of tandem repeats, and Alu composite) retrotransposon insertion in intron 32 of TAF1, which encodes the largest component of the TFIID complex, and resulted in significantly decreased expression levels of TAF1 and the dopamine receptor D2 gene (DRD2) in the caudate nucleus.
Sources: Literature
Cerebral Palsy v0.170 SPTAN1 Chirag Patel Classified gene: SPTAN1 as Green List (high evidence)
Cerebral Palsy v0.170 SPTAN1 Chirag Patel Gene: sptan1 has been classified as Green List (High Evidence).
Cerebral Palsy v0.169 SPTAN1 Chirag Patel Classified gene: SPTAN1 as Green List (high evidence)
Cerebral Palsy v0.169 SPTAN1 Chirag Patel Gene: sptan1 has been classified as Green List (High Evidence).
Cerebral Palsy v0.168 SPTAN1 Chirag Patel gene: SPTAN1 was added
gene: SPTAN1 was added to Cerebral Palsy. Sources: Literature
Mode of inheritance for gene: SPTAN1 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: SPTAN1 were set to PMID: 20493457, 33528536, 34364746
Phenotypes for gene: SPTAN1 were set to Developmental and epileptic encephalopathy 5; OMIM #613477
Review for gene: SPTAN1 was set to GREEN
Added comment: Developmental and epileptic encephalopathy-5 (DEE5) is a neurologic disorder characterised by tonic seizures/infantile spasms in first months of life, global developmental delay, lack of visual attention, poor head control, feeding difficulties, microcephaly, and spastic quadriplegia. Brain imaging may show cerebral atrophy and hypomyelination.

Saitsu et al (2010) reported 2 patients with de novo in-frame mutations of SPTAN1 with early-onset WS with spastic quadriplegia, poor visual attention, and severe developmental delay.
Moreno-De-Luca et al (2021) reported 3 patients with CP with de novo LP/P variants.
Zahrani et al (2021) reported 1 patient with NDD (CP features) with de novo LP variant
Sources: Literature
Cerebral Palsy v0.167 ZSWIM6 Chirag Patel Classified gene: ZSWIM6 as Green List (high evidence)
Cerebral Palsy v0.167 ZSWIM6 Chirag Patel Gene: zswim6 has been classified as Green List (High Evidence).
Cerebral Palsy v0.167 ZSWIM6 Chirag Patel Classified gene: ZSWIM6 as Green List (high evidence)
Cerebral Palsy v0.167 ZSWIM6 Chirag Patel Gene: zswim6 has been classified as Green List (High Evidence).
Cerebral Palsy v0.166 ZSWIM6 Chirag Patel gene: ZSWIM6 was added
gene: ZSWIM6 was added to Cerebral Palsy. Sources: Literature
Mode of inheritance for gene: ZSWIM6 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: ZSWIM6 were set to PMID: 29198722
Phenotypes for gene: ZSWIM6 were set to Neurodevelopmental disorder with movement abnormalities, abnormal gait, and autistic features, OMIM #617865
Review for gene: ZSWIM6 was set to GREEN
Added comment: Palmer et al. (2017) reported 7 unrelated patients with neurodevelopmental disorder with movement abnormalities spasticity, abnormal gait, and autistic features. WES/WGS identified the same heterozygous R913X variant in exon 13 of ZSWIM6 gene (de novo in 6, unk in 1). The mutation was not found in gnomAD. Analysis of patient cells indicated that the mutant transcript escaped nonsense-mediated mRNA decay, and most likely produced a truncated protein, although antibody studies were unable to detect a truncated protein.

Note: de novo missense variant within C-terminal Sin3-like domain of ZSWIM6 reported to cause acromelic frontonasal dysostosis (AFND), via a proposed gain-of-function effect.
Sources: Literature
Genetic Epilepsy v0.1249 TMTC3 Zornitza Stark Marked gene: TMTC3 as ready
Genetic Epilepsy v0.1249 TMTC3 Zornitza Stark Gene: tmtc3 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1249 TMTC3 Zornitza Stark Phenotypes for gene: TMTC3 were changed from Lissencephaly 8 MIM#617255 to Lissencephaly 8, MIM#617255
Genetic Epilepsy v0.1248 TMTC3 Zornitza Stark Classified gene: TMTC3 as Green List (high evidence)
Genetic Epilepsy v0.1248 TMTC3 Zornitza Stark Gene: tmtc3 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1247 WDR26 Zornitza Stark Marked gene: WDR26 as ready
Genetic Epilepsy v0.1247 WDR26 Zornitza Stark Gene: wdr26 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1247 WDR26 Zornitza Stark Classified gene: WDR26 as Green List (high evidence)
Genetic Epilepsy v0.1247 WDR26 Zornitza Stark Gene: wdr26 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1246 ZMYND11 Zornitza Stark Marked gene: ZMYND11 as ready
Genetic Epilepsy v0.1246 ZMYND11 Zornitza Stark Gene: zmynd11 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1246 ZMYND11 Zornitza Stark Classified gene: ZMYND11 as Green List (high evidence)
Genetic Epilepsy v0.1246 ZMYND11 Zornitza Stark Gene: zmynd11 has been classified as Green List (High Evidence).
Severe Combined Immunodeficiency (absent T present B cells) v1.0 Zornitza Stark promoted panel to version 1.0
Mendeliome v0.9285 PTPRC Zornitza Stark Marked gene: PTPRC as ready
Mendeliome v0.9285 PTPRC Zornitza Stark Gene: ptprc has been classified as Green List (High Evidence).
Mendeliome v0.9285 PTPRC Zornitza Stark Phenotypes for gene: PTPRC were changed from to Severe combined immunodeficiency, T cell-negative, B-cell/natural killer-cell positive MIM# 608971; Hepatitis C virus, susceptibility to MIM# 609532
Mendeliome v0.9284 PTPRC Zornitza Stark Publications for gene: PTPRC were set to
Mendeliome v0.9283 PTPRC Zornitza Stark Mode of inheritance for gene: PTPRC was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9282 PTPRC Zornitza Stark reviewed gene: PTPRC: Rating: GREEN; Mode of pathogenicity: None; Publications: 11145714, 12073144, 22689986, 10700239; Phenotypes: Severe combined immunodeficiency, T cell-negative, B-cell/natural killer-cell positive MIM# 608971, Hepatitis C virus, susceptibility to MIM# 609532; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Severe Combined Immunodeficiency (absent T present B cells) v0.46 PTPRC Zornitza Stark Marked gene: PTPRC as ready
Severe Combined Immunodeficiency (absent T present B cells) v0.46 PTPRC Zornitza Stark Gene: ptprc has been classified as Green List (High Evidence).
Severe Combined Immunodeficiency (absent T present B cells) v0.46 PTPRC Zornitza Stark Phenotypes for gene: PTPRC were changed from to Severe combined immunodeficiency, T cell-negative, B-cell/natural killer-cell positive MIM# 608971; Hepatitis C virus, susceptibility to MIM# 609532
Severe Combined Immunodeficiency (absent T present B cells) v0.45 PTPRC Zornitza Stark Publications for gene: PTPRC were set to
Severe Combined Immunodeficiency (absent T present B cells) v0.44 PTPRC Zornitza Stark Mode of inheritance for gene: PTPRC was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Severe Combined Immunodeficiency (absent T present B cells) v0.43 JAK3 Zornitza Stark Marked gene: JAK3 as ready
Severe Combined Immunodeficiency (absent T present B cells) v0.43 JAK3 Zornitza Stark Gene: jak3 has been classified as Green List (High Evidence).
Severe Combined Immunodeficiency (absent T present B cells) v0.43 JAK3 Zornitza Stark Phenotypes for gene: JAK3 were changed from to SCID, autosomal recessive, T-negative/B-positive type MIM# 600802
Severe Combined Immunodeficiency (absent T present B cells) v0.42 JAK3 Zornitza Stark Publications for gene: JAK3 were set to
Severe Combined Immunodeficiency (absent T present B cells) v0.41 JAK3 Zornitza Stark Mode of inheritance for gene: JAK3 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Severe Combined Immunodeficiency (absent T present B cells) v0.40 IL7R Zornitza Stark Marked gene: IL7R as ready
Severe Combined Immunodeficiency (absent T present B cells) v0.40 IL7R Zornitza Stark Gene: il7r has been classified as Green List (High Evidence).
Severe Combined Immunodeficiency (absent T present B cells) v0.40 IL7R Zornitza Stark Phenotypes for gene: IL7R were changed from to Severe combined immunodeficiency, T-cell negative, B-cell/natural killer cell-positive type MIM# 608971; low T-cell numbers; normal-high B and NK-cell numbers; fever; rash; failure to thrive; recurrent respiratory and gastric infections; Hepatomegaly; Splenomegaly; diarrhoea; lymphadenopathy; pneumonitis; Pancytopaenia; decreased immunoglobulins
Severe Combined Immunodeficiency (absent T present B cells) v0.39 IL7R Zornitza Stark Publications for gene: IL7R were set to
Severe Combined Immunodeficiency (absent T present B cells) v0.38 IL7R Zornitza Stark Mode of inheritance for gene: IL7R was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9282 CORO1A Zornitza Stark Marked gene: CORO1A as ready
Mendeliome v0.9282 CORO1A Zornitza Stark Gene: coro1a has been classified as Green List (High Evidence).
Mendeliome v0.9282 CORO1A Zornitza Stark Phenotypes for gene: CORO1A were changed from to Immunodeficiency 8, MIM# 615401
Mendeliome v0.9281 CORO1A Zornitza Stark Publications for gene: CORO1A were set to
Mendeliome v0.9280 CORO1A Zornitza Stark Mode of inheritance for gene: CORO1A was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Severe Combined Immunodeficiency (absent T present B cells) v0.37 CORO1A Zornitza Stark Marked gene: CORO1A as ready
Severe Combined Immunodeficiency (absent T present B cells) v0.37 CORO1A Zornitza Stark Gene: coro1a has been classified as Green List (High Evidence).
Severe Combined Immunodeficiency (absent T present B cells) v0.37 CORO1A Zornitza Stark Phenotypes for gene: CORO1A were changed from to Immunodeficiency 8, MIM# 615401
Severe Combined Immunodeficiency (absent T present B cells) v0.36 CORO1A Zornitza Stark Publications for gene: CORO1A were set to
Severe Combined Immunodeficiency (absent T present B cells) v0.35 CORO1A Zornitza Stark Mode of inheritance for gene: CORO1A was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9279 POU6F2 Zornitza Stark Marked gene: POU6F2 as ready
Mendeliome v0.9279 POU6F2 Zornitza Stark Added comment: Comment when marking as ready: No evidence for association with Mendelian disease.
Mendeliome v0.9279 POU6F2 Zornitza Stark Gene: pou6f2 has been classified as Red List (Low Evidence).
Mendeliome v0.9279 POU6F2 Zornitza Stark Classified gene: POU6F2 as Red List (low evidence)
Mendeliome v0.9279 POU6F2 Zornitza Stark Gene: pou6f2 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1245 TMTC3 Danielle Ariti gene: TMTC3 was added
gene: TMTC3 was added to Genetic Epilepsy. Sources: Expert list
Mode of inheritance for gene: TMTC3 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: TMTC3 were set to 27773428; 28973161; 32973946
Phenotypes for gene: TMTC3 were set to Lissencephaly 8 MIM#617255
Review for gene: TMTC3 was set to GREEN
Added comment: 14 individuals from 8 unrelated families reported with bi-allelic LoF (frameshift, deletion, insertion) and missense variants.

Lissencephaly-8 is a neurologic disorder characterised by delayed psychomotor development, ID with poor/absent speech, early-onset refractory seizures, hypotonia and appendicular spasticity.

Seizures are considered a prominent phenotype: 6/9 patients developed refractory generalised or myoclonic seizures in infancy (PMID: 27773428) and in a reported family all four affected siblings presented with nocturnal seizures and ID (PMID: 28973161).
Sources: Expert list
Genetic Epilepsy v0.1245 WDR26 Danielle Ariti gene: WDR26 was added
gene: WDR26 was added to Genetic Epilepsy. Sources: Expert list
Mode of inheritance for gene: WDR26 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: WDR26 were set to 28686853; 33675273
Phenotypes for gene: WDR26 were set to Skraban-Deardorff syndrome MIM# 617616
Review for gene: WDR26 was set to GREEN
Added comment: 20 individuals have been reported (only 17 with a clinical description available).

All mono-allelic variants reported were de novo; most variants were LoF (frameshift, nonsense, splice site, deletion) but some were missense.

Skraban-Deardorff syndrome is a neurodevelopmental disorder characterised by a broad range of clinical signs, including ID/DD, febrile and/or non-febrile seizures, abnormal facial features, feeding difficulties, and minor skeletal anomalies (Spastic gait).

PMID: 28686853- Reported 15 individuals with pathogenic de novo WDR26 variants. 15/15 patients presented with both ID and seizures.
Sources: Expert list
Genetic Epilepsy v0.1245 ZMYND11 Danielle Ariti gene: ZMYND11 was added
gene: ZMYND11 was added to Genetic Epilepsy. Sources: Expert list
Mode of inheritance for gene: ZMYND11 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: ZMYND11 were set to 32097528; 34216016
Phenotypes for gene: ZMYND11 were set to Mental retardation, autosomal dominant 30 MIM# 616083
Review for gene: ZMYND11 was set to GREEN
Added comment: ZMYND11 variants are associated with a neurodevelopmental disorder, MRD30 that is characterised by developmental delay, particularly affecting speech, mild‐moderate intellectual disability, significant behavioural abnormalities, seizures, and hypotonia.
* Most identified variants are likely to result in premature truncation and/or nonsense‐mediated decay.

PMID: 34216016- Study of individuals with pathogenic ZMYND11 variants, 20/47 individuals presented with epilepsy (idiopathic focal epilepsy, Rolandic epilepsy, generalised epilepsies, Atypical Benign Partial Epilepsy etc).

PMID: 32097528- Study of 16 patients with ZMYND11-related syndromic intellectual disability, 31% presented with epilepsy.
Sources: Expert list
Intellectual disability syndromic and non-syndromic v0.4154 CDH15 Zornitza Stark reviewed gene: CDH15: Rating: RED; Mode of pathogenicity: None; Publications: ; Phenotypes: ; Mode of inheritance: None
Mendeliome v0.9278 CDH15 Zornitza Stark Marked gene: CDH15 as ready
Mendeliome v0.9278 CDH15 Zornitza Stark Gene: cdh15 has been classified as Red List (Low Evidence).
Mendeliome v0.9278 CDH15 Zornitza Stark Phenotypes for gene: CDH15 were changed from to Mental retardation, autosomal dominant 3, MIM#612580
Mendeliome v0.9277 CDH15 Zornitza Stark Publications for gene: CDH15 were set to
Mendeliome v0.9276 CDH15 Zornitza Stark Mode of inheritance for gene: CDH15 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9275 CDH15 Zornitza Stark Classified gene: CDH15 as Red List (low evidence)
Mendeliome v0.9275 CDH15 Zornitza Stark Gene: cdh15 has been classified as Red List (Low Evidence).
Mendeliome v0.9274 CDH15 Zornitza Stark Tag disputed tag was added to gene: CDH15.
Mendeliome v0.9274 CDH15 Zornitza Stark commented on gene: CDH15: PMID: 19012874 - 4 unrelated patients with missense variants and mild-severe ID. Only two genes checked. All variants are common in gnomAD (>20 hets each) and classified as VUS or likely benign in ClinVar (paper is from 2008, pre-dates gnomAD). Functional studies were performed showing a LOF effect, where cell adhesion was reduced.
However NMD PTCs are present in gnomAD (many >=6 hets each)

PMID: 12052883 - null mouse model were viable, showed no gross developmental defects. In particular, the skeletal musculature appeared essentially normal. In the cerebellum of M-cadherin-lacking mutants, typical contactus adherens junctions were present and similar in size and numbers to the equivalent junctions in wild-type animals. However, the adhesion plaques in the cerebellum of these mutants appeared to contain elevated levels of N-cadherin compared to wild-type animals.

PMID: 28422132 - reviewed microdeletions spanning multiple genes including CDH15, suggests it may contribute to a more severe neurological phenotype, with particular regard to brain malformations.

PMID: 26506440 - speculates low penetrance for PTCs in this gene. Acknowledges variants in ExAC, describes them as benign

Note no P/LP variants in ClinVar
Mendeliome v0.9274 CDH15 Zornitza Stark reviewed gene: CDH15: Rating: RED; Mode of pathogenicity: None; Publications: 19012874, 12052883, 28422132, 26506440; Phenotypes: Mental retardation, autosomal dominant 3, MIM#612580; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Intellectual disability syndromic and non-syndromic v0.4154 CDH15 Zornitza Stark Marked gene: CDH15 as ready
Intellectual disability syndromic and non-syndromic v0.4154 CDH15 Zornitza Stark Gene: cdh15 has been classified as Red List (Low Evidence).
Intellectual disability syndromic and non-syndromic v0.4154 CDH15 Zornitza Stark Phenotypes for gene: CDH15 were changed from to Mental retardation, autosomal dominant 3 MIM#612580
Intellectual disability syndromic and non-syndromic v0.4153 CDH15 Zornitza Stark Publications for gene: CDH15 were set to
Severe Combined Immunodeficiency (absent T present B cells) v0.34 PTPRC Danielle Ariti reviewed gene: PTPRC: Rating: GREEN; Mode of pathogenicity: None; Publications: 11145714, 12073144, 22689986, 10700239; Phenotypes: Severe combined immunodeficiency, T cell-negative, B-cell/natural killer-cell positive MIM# 608971, Hepatitis C virus, susceptibility to MIM# 609532; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9274 JAK3 Danielle Ariti reviewed gene: JAK3: Rating: GREEN; Mode of pathogenicity: None; Publications: 14615376, 11668610; Phenotypes: SCID, autosomal recessive, T-negative/B-positive type MIM# 600802; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Severe Combined Immunodeficiency (absent T present B cells) v0.34 JAK3 Danielle Ariti reviewed gene: JAK3: Rating: GREEN; Mode of pathogenicity: None; Publications: 14615376, 11668610; Phenotypes: SCID, autosomal recessive, T-negative/B-positive type MIM# 600802; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9274 CORO1A Danielle Ariti reviewed gene: CORO1A: Rating: GREEN; Mode of pathogenicity: None; Publications: 25073507, 2352248, 18836449; Phenotypes: Immunodeficiency 8 MIM# 615401; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Severe Combined Immunodeficiency (absent T present B cells) v0.34 CORO1A Danielle Ariti reviewed gene: CORO1A: Rating: GREEN; Mode of pathogenicity: None; Publications: 25073507, 2352248, 18836449; Phenotypes: Immunodeficiency 8 MIM# 615401; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9274 POU6F2 Chloe Stutterd reviewed gene: POU6F2: Rating: RED; Mode of pathogenicity: None; Publications: ; Phenotypes: ; Mode of inheritance: None
Vascular Malformations SuperPanel v1.1 Bryony Thompson Panel status changed from internal to public
Intellectual disability syndromic and non-syndromic v0.4152 CDH15 Zornitza Stark Mode of inheritance for gene: CDH15 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Intellectual disability syndromic and non-syndromic v0.4151 CDH15 Zornitza Stark Tag disputed tag was added to gene: CDH15.
Intellectual disability syndromic and non-syndromic v0.4151 CDH15 Zornitza Stark Classified gene: CDH15 as Red List (low evidence)
Intellectual disability syndromic and non-syndromic v0.4151 CDH15 Zornitza Stark Gene: cdh15 has been classified as Red List (Low Evidence).
Skeletal dysplasia v0.125 FGF8 Zornitza Stark Marked gene: FGF8 as ready
Skeletal dysplasia v0.125 FGF8 Zornitza Stark Gene: fgf8 has been classified as Amber List (Moderate Evidence).
Skeletal dysplasia v0.125 FGF8 Zornitza Stark Publications for gene: FGF8 were set to 24569166
Skeletal dysplasia v0.124 FGF8 Zornitza Stark Classified gene: FGF8 as Amber List (moderate evidence)
Skeletal dysplasia v0.124 FGF8 Zornitza Stark Gene: fgf8 has been classified as Amber List (Moderate Evidence).
Skeletal dysplasia v0.123 FGF8 Zornitza Stark Tag SV/CNV tag was added to gene: FGF8.
Skeletal dysplasia v0.123 FGF8 Zornitza Stark reviewed gene: FGF8: Rating: AMBER; Mode of pathogenicity: None; Publications: 34433009; Phenotypes: Hypoplastic femurs and pelvis, MIM#619545; Mode of inheritance: None
Mendeliome v0.9274 FGF8 Zornitza Stark Phenotypes for gene: FGF8 were changed from Hypogonadotropic hypogonadism 6 with or without anosmia, MIM# 612702; Femoral hypoplasia to Hypogonadotropic hypogonadism 6 with or without anosmia, MIM# 612702; Hypoplastic femurs and pelvis, MIM#619545
Mendeliome v0.9273 FGF8 Zornitza Stark edited their review of gene: FGF8: Changed phenotypes: Hypogonadotropic hypogonadism 6 with or without anosmia, MIM# 612702, Hypoplastic femurs and pelvis, MIM#619545
Intellectual disability syndromic and non-syndromic v0.4150 CDH15 Elena Savva reviewed gene: CDH15: Rating: RED; Mode of pathogenicity: Other; Publications: PMID: 19012874, 12052883, 28422132, 26506440; Phenotypes: Mental retardation, autosomal dominant 3 MIM#612580; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Vascular Malformations SuperPanel v1.0 Bryony Thompson Added Panel Vasculopathy SuperPanel
Set child panels to: Vascular Malformations_Somatic; Vascular Malformations_Germline; Lymphoedema_nonsyndromic; Lymphoedema_syndromic
Set panel types to: Royal Melbourne Hospital
Mendeliome v0.9273 ARL6IP6 Zornitza Stark Marked gene: ARL6IP6 as ready
Mendeliome v0.9273 ARL6IP6 Zornitza Stark Gene: arl6ip6 has been classified as Red List (Low Evidence).
Mendeliome v0.9273 ARL6IP6 Zornitza Stark gene: ARL6IP6 was added
gene: ARL6IP6 was added to Mendeliome. Sources: Literature
Mode of inheritance for gene: ARL6IP6 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ARL6IP6 were set to 31142202
Phenotypes for gene: ARL6IP6 were set to Cutis marmorata telangiectatica congenita
Review for gene: ARL6IP6 was set to RED
Added comment: A single case reported from a consanguineous family with a homozygous nonsense variant (p.Trp64Ter).
Sources: Literature
Repeat Disorders v0.148 FRA7A Bryony Thompson edited their review of STR: FRA7A: Added comment: Bioinformatic analysis of 544 whole genomes from non-affected individuals demonstrated a range of 5-53 repeats, with a median of 13.; Changed publications: 25196122, 33510257
Repeat Disorders v0.148 FRA2A Bryony Thompson edited their review of STR: FRA2A: Added comment: Bioinformatic analysis of 544 whole genomes from non-affected individuals demonstrated a range of 1-64 repeats, with a median of 16.; Changed publications: 24763282, 33510257
Repeat Disorders v0.148 FRA12A Bryony Thompson edited their review of STR: FRA12A: Added comment: Bioinformatic analysis of 544 whole genomes from non-affected individuals demonstrated a range of 8-120 repeats, with a median of 8.; Changed publications: 17236128, 33510257
Vascular Malformations_Germline v1.4 ARL6IP6 Bryony Thompson Marked gene: ARL6IP6 as ready
Vascular Malformations_Germline v1.4 ARL6IP6 Bryony Thompson Gene: arl6ip6 has been classified as Red List (Low Evidence).
Vascular Malformations_Germline v1.4 ARL6IP6 Bryony Thompson gene: ARL6IP6 was added
gene: ARL6IP6 was added to Vascular Malformations_Germline. Sources: Other
Mode of inheritance for gene: ARL6IP6 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ARL6IP6 were set to 31142202
Phenotypes for gene: ARL6IP6 were set to Cutis marmorata telangiectatica congenita
Review for gene: ARL6IP6 was set to RED
Added comment: A single case reported from a consanguineous family with a homozygous nonsense variant (p.Trp64Ter).
Sources: Other
Differences of Sex Development v0.215 CPE Zornitza Stark Marked gene: CPE as ready
Differences of Sex Development v0.215 CPE Zornitza Stark Gene: cpe has been classified as Green List (High Evidence).
Differences of Sex Development v0.215 CPE Zornitza Stark Classified gene: CPE as Green List (high evidence)
Differences of Sex Development v0.215 CPE Zornitza Stark Gene: cpe has been classified as Green List (High Evidence).
Differences of Sex Development v0.214 CPE Zornitza Stark gene: CPE was added
gene: CPE was added to Differences of Sex Development. Sources: Literature
Mode of inheritance for gene: CPE was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: CPE were set to 26120850; 32936766; 34383079
Phenotypes for gene: CPE were set to Intellectual developmental disorder and hypogonadotropic hypogonadism, MIM# 619326
Review for gene: CPE was set to GREEN
Added comment: 8 individuals from 5 unrelated families reported.
Sources: Literature
Intellectual disability syndromic and non-syndromic v0.4150 CPE Zornitza Stark Publications for gene: CPE were set to 26120850; 32936766
Intellectual disability syndromic and non-syndromic v0.4149 CPE Zornitza Stark Classified gene: CPE as Green List (high evidence)
Intellectual disability syndromic and non-syndromic v0.4149 CPE Zornitza Stark Gene: cpe has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4148 CPE Zornitza Stark edited their review of gene: CPE: Added comment: Bosch et al. 2021 (PMID: 34383079) reported on 4 individuals from 3 additional families harbouring 2 different homozygous truncating variants in this gene. Clinical presentation was prominent for obesity and intellectual disability. Hypogonadotropic hypogonadism was confirmed in one individual and was suspected but not tested for in another two subjects.; Changed rating: GREEN; Changed publications: 26120850, 32936766, 34383079; Changed phenotypes: Intellectual developmental disorder and hypogonadotropic hypogonadism, MIM# 619326
Mendeliome v0.9272 CPE Zornitza Stark Publications for gene: CPE were set to 26120850; 32936766
Mendeliome v0.9271 CPE Zornitza Stark Classified gene: CPE as Green List (high evidence)
Mendeliome v0.9271 CPE Zornitza Stark Gene: cpe has been classified as Green List (High Evidence).
Mendeliome v0.9270 CPE Arina Puzriakova reviewed gene: CPE: Rating: GREEN; Mode of pathogenicity: None; Publications: 34383079; Phenotypes: Intellectual developmental disorder and hypogonadotropic hypogonadism, OMIM:619326; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Callosome v0.324 HCFC1 Zornitza Stark Marked gene: HCFC1 as ready
Callosome v0.324 HCFC1 Zornitza Stark Gene: hcfc1 has been classified as Red List (Low Evidence).
Callosome v0.324 HCFC1 Zornitza Stark Phenotypes for gene: HCFC1 were changed from to Mental retardation, X-linked 3 (methylmalonic acidaemia and homocysteinaemia, cblX type) MIM# 309541
Callosome v0.323 HCFC1 Zornitza Stark Publications for gene: HCFC1 were set to
Callosome v0.322 HCFC1 Zornitza Stark Mode of inheritance for gene: HCFC1 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Callosome v0.321 HCFC1 Zornitza Stark Classified gene: HCFC1 as Red List (low evidence)
Callosome v0.321 HCFC1 Zornitza Stark Gene: hcfc1 has been classified as Red List (Low Evidence).
Callosome v0.320 HCFC1 Zornitza Stark reviewed gene: HCFC1: Rating: RED; Mode of pathogenicity: None; Publications: 34164576, 24011988, 31207118; Phenotypes: Mental retardation, X-linked 3 (methylmalonic acidaemia and homocysteinaemia, cblX type) MIM# 309541; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Intellectual disability syndromic and non-syndromic v0.4148 HCFC1 Zornitza Stark Marked gene: HCFC1 as ready
Intellectual disability syndromic and non-syndromic v0.4148 HCFC1 Zornitza Stark Gene: hcfc1 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4148 HCFC1 Zornitza Stark Phenotypes for gene: HCFC1 were changed from to Mental retardation, X-linked 3 (methylmalonic acidaemia and homocysteinaemia, cblX type) MIM# 309541
Intellectual disability syndromic and non-syndromic v0.4147 HCFC1 Zornitza Stark Publications for gene: HCFC1 were set to
Intellectual disability syndromic and non-syndromic v0.4146 HCFC1 Zornitza Stark Mode of inheritance for gene: HCFC1 was changed from Unknown to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Intellectual disability syndromic and non-syndromic v0.4145 HCFC1 Zornitza Stark reviewed gene: HCFC1: Rating: GREEN; Mode of pathogenicity: None; Publications: 34164576, 24011988; Phenotypes: Mental retardation, X-linked 3 (methylmalonic acidaemia and homocysteinaemia, cblX type) MIM# 309541; Mode of inheritance: X-LINKED: hemizygous mutation in males, biallelic mutations in females
Genetic Epilepsy v0.1245 HCFC1 Zornitza Stark Marked gene: HCFC1 as ready
Genetic Epilepsy v0.1245 HCFC1 Zornitza Stark Gene: hcfc1 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1245 HCFC1 Zornitza Stark Phenotypes for gene: HCFC1 were changed from to Mental retardation, X-linked 3 (methylmalonic acidaemia and homocysteinaemia, cblX type) MIM# 309541
Genetic Epilepsy v0.1244 HCFC1 Zornitza Stark Publications for gene: HCFC1 were set to
Genetic Epilepsy v0.1243 HCFC1 Zornitza Stark Mode of inheritance for gene: HCFC1 was changed from X-LINKED: hemizygous mutation in males, biallelic mutations in females to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Genetic Epilepsy v0.1243 HCFC1 Zornitza Stark Mode of inheritance for gene: HCFC1 was changed from Unknown to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Genetic Epilepsy v0.1242 EIF2S3 Zornitza Stark Marked gene: EIF2S3 as ready
Genetic Epilepsy v0.1242 EIF2S3 Zornitza Stark Gene: eif2s3 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1242 EIF2S3 Zornitza Stark Phenotypes for gene: EIF2S3 were changed from to MEHMO syndrome MIM# 300148
Genetic Epilepsy v0.1241 EIF2S3 Zornitza Stark Publications for gene: EIF2S3 were set to
Genetic Epilepsy v0.1240 EIF2S3 Zornitza Stark Mode of inheritance for gene: EIF2S3 was changed from Unknown to X-LINKED: hemizygous mutation in males, biallelic mutations in females
Genetic Epilepsy v0.1239 HCFC1 Danielle Ariti changed review comment from: Well-established gene-disease association with >20 individuals reported

Variants in the HCFC1 gene are associated with cases of syndromic and non-syndromic intellectual disability. Individuals present with severely delayed psychomotor development apparent in infancy, and severe neurological defects including intractable epilepsy, facial dysmorphia, and intellectual disability.; to: Well-established gene-disease association with >20 individuals reported

Variants in the HCFC1 gene are associated with cases of syndromic and non-syndromic intellectual disability. Individuals present with severely delayed psychomotor development apparent in infancy, and severe neurological defects including intractable epilepsy, facial dysmorphia, and intellectual disability.
Seizures being a prominent feature in this phenotype.
Genetic Epilepsy v0.1239 HCFC1 Danielle Ariti reviewed gene: HCFC1: Rating: GREEN; Mode of pathogenicity: None; Publications: 34164576, 24011988; Phenotypes: Mental retardation, X-linked 3 (methylmalonic acidemia and homocysteinemia, cblX type) MIM# 309541; Mode of inheritance: X-LINKED: hemizygous mutation in males, biallelic mutations in females
Genetic Epilepsy v0.1239 EIF2S3 Danielle Ariti changed review comment from: 7 families reported males with hemizygous EIF2S3 variants; one mouse model.

EIF2S3 variants cause intellectual disability syndrome, MEHMO which is derived from the clinical hallmarks: mental retardation, epileptic seizures, hypogonadism and hypogenitalism, microcephaly, and obesity.
Seizures are prominent within this phenotype (more than 60% of patients).; to: 7 families reported males with hemizygous EIF2S3 variants; one mouse model.

EIF2S3 variants cause intellectual disability syndrome, MEHMO which is derived from the clinical hallmarks: mental retardation, epileptic seizures, hypogonadism and hypogenitalism, microcephaly, and obesity.
Seizures are prominent within this phenotype.
Genetic Epilepsy v0.1239 EIF2S3 Danielle Ariti reviewed gene: EIF2S3: Rating: GREEN; Mode of pathogenicity: None; Publications: 33714664, 32799315, 28055140; Phenotypes: MEHMO syndrome MIM# 300148; Mode of inheritance: X-LINKED: hemizygous mutation in males, biallelic mutations in females
Regression v0.377 CSTB Zornitza Stark Marked gene: CSTB as ready
Regression v0.377 CSTB Zornitza Stark Gene: cstb has been classified as Green List (High Evidence).
Regression v0.377 CSTB Zornitza Stark Classified gene: CSTB as Green List (high evidence)
Regression v0.377 CSTB Zornitza Stark Gene: cstb has been classified as Green List (High Evidence).
Regression v0.376 CSTB Zornitza Stark Tag 5'UTR tag was added to gene: CSTB.
Tag STR tag was added to gene: CSTB.
Regression v0.376 CSTB Zornitza Stark gene: CSTB was added
gene: CSTB was added to Regression. Sources: Expert Review
Mode of inheritance for gene: CSTB was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: CSTB were set to 9012407; 9054946
Phenotypes for gene: CSTB were set to Epilepsy, progressive myoclonic 1A (Unverricht and Lundborg), MIM# 254800
Review for gene: CSTB was set to GREEN
Added comment: Myoclonic epilepsy of Unverricht and Lundborg is an autosomal recessive disorder characterized by onset of neurodegeneration between 6 and 13 years of age. It is typically progressive in adolescence, with dramatic worsening of myoclonus and ataxia in the first 6 years after onset. The disease stabilises in early adulthood, and myoclonus and ataxia may even improve, and there is minimal to no cognitive decline.

Note the most common causative allele is a dodecamer repeat in the promoter region. Missense variants have been reported, most commonly compound het with the repeat, except for p.Gly4Arg which has been reported in the homozygous state also.
Sources: Expert Review
Intellectual disability syndromic and non-syndromic v0.4145 CSTB Zornitza Stark Marked gene: CSTB as ready
Intellectual disability syndromic and non-syndromic v0.4145 CSTB Zornitza Stark Gene: cstb has been classified as Red List (Low Evidence).
Intellectual disability syndromic and non-syndromic v0.4145 CSTB Zornitza Stark Phenotypes for gene: CSTB were changed from to Epilepsy, progressive myoclonic 1A (Unverricht and Lundborg), MIM# 254800
Intellectual disability syndromic and non-syndromic v0.4144 CSTB Zornitza Stark Publications for gene: CSTB were set to
Intellectual disability syndromic and non-syndromic v0.4143 CSTB Zornitza Stark Mode of inheritance for gene: CSTB was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Intellectual disability syndromic and non-syndromic v0.4142 CSTB Zornitza Stark Classified gene: CSTB as Red List (low evidence)
Intellectual disability syndromic and non-syndromic v0.4142 CSTB Zornitza Stark Gene: cstb has been classified as Red List (Low Evidence).
Intellectual disability syndromic and non-syndromic v0.4141 CSTB Zornitza Stark reviewed gene: CSTB: Rating: RED; Mode of pathogenicity: None; Publications: 9012407, 9054946; Phenotypes: Epilepsy, progressive myoclonic 1A (Unverricht and Lundborg), MIM# 254800; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9270 CSTB Zornitza Stark Marked gene: CSTB as ready
Mendeliome v0.9270 CSTB Zornitza Stark Gene: cstb has been classified as Green List (High Evidence).
Mendeliome v0.9270 CSTB Zornitza Stark Phenotypes for gene: CSTB were changed from to Epilepsy, progressive myoclonic 1A (Unverricht and Lundborg) MIM# 254800; Keratolytic winter erythema (MIM#148370)
Mendeliome v0.9269 CSTB Zornitza Stark Publications for gene: CSTB were set to
Mendeliome v0.9268 CSTB Zornitza Stark Mode of inheritance for gene: CSTB was changed from Unknown to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Mendeliome v0.9267 CSTB Zornitza Stark reviewed gene: CSTB: Rating: GREEN; Mode of pathogenicity: None; Publications: 32920378, 18028412, 9012407, 9054946; Phenotypes: Epilepsy, progressive myoclonic 1A (Unverricht and Lundborg) MIM# 254800; Mode of inheritance: BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Genetic Epilepsy v0.1239 CSTB Zornitza Stark Marked gene: CSTB as ready
Genetic Epilepsy v0.1239 CSTB Zornitza Stark Added comment: Comment when marking as ready: Note the most common causative allele is a dodecamer repeat in the promoter region. Missense variants have been reported, most commonly compound het with the repeat, except for p.Gly4Arg which has been reported in the homozygous state also.
Genetic Epilepsy v0.1239 CSTB Zornitza Stark Gene: cstb has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1239 CSTB Zornitza Stark Tag 5'UTR tag was added to gene: CSTB.
Tag STR tag was added to gene: CSTB.
Genetic Epilepsy v0.1239 CSTB Zornitza Stark Phenotypes for gene: CSTB were changed from Epilepsy, progressive myoclonic 1A (Unverricht and Lundborg) MIM# 254800 to Epilepsy, progressive myoclonic 1A (Unverricht and Lundborg) MIM# 254800
Genetic Epilepsy v0.1238 CSTB Zornitza Stark Phenotypes for gene: CSTB were changed from to Epilepsy, progressive myoclonic 1A (Unverricht and Lundborg) MIM# 254800
Genetic Epilepsy v0.1237 CSTB Zornitza Stark Publications for gene: CSTB were set to
Genetic Epilepsy v0.1236 CSTB Zornitza Stark Mode of inheritance for gene: CSTB was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9267 CD3E Zornitza Stark Marked gene: CD3E as ready
Mendeliome v0.9267 CD3E Zornitza Stark Gene: cd3e has been classified as Green List (High Evidence).
Mendeliome v0.9267 CD3E Zornitza Stark Phenotypes for gene: CD3E were changed from to Immunodeficiency 18 MIM# 615615
Mendeliome v0.9266 CD3E Zornitza Stark Publications for gene: CD3E were set to
Mendeliome v0.9265 CD3E Zornitza Stark Mode of inheritance for gene: CD3E was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Severe Combined Immunodeficiency (absent T present B cells) v0.34 CD3E Zornitza Stark Marked gene: CD3E as ready
Severe Combined Immunodeficiency (absent T present B cells) v0.34 CD3E Zornitza Stark Gene: cd3e has been classified as Green List (High Evidence).
Severe Combined Immunodeficiency (absent T present B cells) v0.34 CD3E Zornitza Stark Phenotypes for gene: CD3E were changed from to Immunodeficiency 18 MIM# 615615
Severe Combined Immunodeficiency (absent T present B cells) v0.33 CD3E Zornitza Stark Publications for gene: CD3E were set to
Severe Combined Immunodeficiency (absent T present B cells) v0.32 CD3E Zornitza Stark Mode of inheritance for gene: CD3E was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9264 CD3D Zornitza Stark Marked gene: CD3D as ready
Mendeliome v0.9264 CD3D Zornitza Stark Gene: cd3d has been classified as Green List (High Evidence).
Mendeliome v0.9264 CD3D Zornitza Stark Phenotypes for gene: CD3D were changed from to Immunodeficiency 19 MIM# 615617
Mendeliome v0.9263 CD3D Zornitza Stark Publications for gene: CD3D were set to
Mendeliome v0.9262 CD3D Zornitza Stark Mode of inheritance for gene: CD3D was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Severe Combined Immunodeficiency (absent T present B cells) v0.31 CD3D Zornitza Stark Marked gene: CD3D as ready
Severe Combined Immunodeficiency (absent T present B cells) v0.31 CD3D Zornitza Stark Gene: cd3d has been classified as Green List (High Evidence).
Severe Combined Immunodeficiency (absent T present B cells) v0.31 CD3D Zornitza Stark Phenotypes for gene: CD3D were changed from to Immunodeficiency 19 MIM# 615617
Severe Combined Immunodeficiency (absent T present B cells) v0.30 CD3D Zornitza Stark Publications for gene: CD3D were set to
Severe Combined Immunodeficiency (absent T present B cells) v0.29 CD3D Zornitza Stark Mode of inheritance for gene: CD3D was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9261 ARHGAP26 Zornitza Stark Marked gene: ARHGAP26 as ready
Mendeliome v0.9261 ARHGAP26 Zornitza Stark Gene: arhgap26 has been classified as Red List (Low Evidence).
Mendeliome v0.9261 ARHGAP26 Zornitza Stark Classified gene: ARHGAP26 as Red List (low evidence)
Mendeliome v0.9261 ARHGAP26 Zornitza Stark Gene: arhgap26 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1235 CSTB Danielle Ariti reviewed gene: CSTB: Rating: GREEN; Mode of pathogenicity: None; Publications: 32920378, 18028412; Phenotypes: Epilepsy, progressive myoclonic 1A (Unverricht and Lundborg) MIM# 254800; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Cerebral Palsy v0.165 SCN8A Zornitza Stark Marked gene: SCN8A as ready
Cerebral Palsy v0.165 SCN8A Zornitza Stark Gene: scn8a has been classified as Green List (High Evidence).
Cerebral Palsy v0.165 SCN8A Zornitza Stark Phenotypes for gene: SCN8A were changed from to Cerebral Palsy; Epileptic encephalopathy 13 MIM# 614558; Cognitive impairment with or without cerebellar ataxia MIM# 614306
Cerebral Palsy v0.164 SCN8A Zornitza Stark Publications for gene: SCN8A were set to
Cerebral Palsy v0.163 SCN8A Zornitza Stark Mode of inheritance for gene: SCN8A was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9260 LEFTY2 Zornitza Stark Marked gene: LEFTY2 as ready
Mendeliome v0.9260 LEFTY2 Zornitza Stark Added comment: Comment when marking as ready: No reports since 1999.
Mendeliome v0.9260 LEFTY2 Zornitza Stark Gene: lefty2 has been classified as Red List (Low Evidence).
Mendeliome v0.9260 LEFTY2 Zornitza Stark Phenotypes for gene: LEFTY2 were changed from to Heterotaxy
Mendeliome v0.9259 LEFTY2 Zornitza Stark Publications for gene: LEFTY2 were set to
Mendeliome v0.9258 LEFTY2 Zornitza Stark Mode of inheritance for gene: LEFTY2 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9257 LEFTY2 Zornitza Stark Classified gene: LEFTY2 as Red List (low evidence)
Mendeliome v0.9257 LEFTY2 Zornitza Stark Gene: lefty2 has been classified as Red List (Low Evidence).
Mendeliome v0.9256 CD3E Danielle Ariti reviewed gene: CD3E: Rating: GREEN; Mode of pathogenicity: None; Publications: 5546002, 28597365, 8490660; Phenotypes: Immunodeficiency 18 MIM# 615615; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Severe Combined Immunodeficiency (absent T present B cells) v0.28 CD3E Danielle Ariti reviewed gene: CD3E: Rating: GREEN; Mode of pathogenicity: None; Publications: 15546002, 28597365, 8490660; Phenotypes: Immunodeficiency 18 MIM# 615615; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9256 CD3D Danielle Ariti reviewed gene: CD3D: Rating: GREEN; Mode of pathogenicity: None; Publications: 14602880, 15546002, 21926461, 21883749; Phenotypes: Immunodeficiency 19 MIM# 615617; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Severe Combined Immunodeficiency (absent T present B cells) v0.28 CD3D Danielle Ariti reviewed gene: CD3D: Rating: GREEN; Mode of pathogenicity: None; Publications: 14602880, 15546002, 21926461, 21883749; Phenotypes: Immunodeficiency 19 MIM# 615617; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9256 ARHGAP26 Dean Phelan reviewed gene: ARHGAP26: Rating: RED; Mode of pathogenicity: None; Publications: ; Phenotypes: ; Mode of inheritance: Unknown
Cerebral Palsy v0.162 SCN8A Danielle Ariti reviewed gene: SCN8A: Rating: GREEN; Mode of pathogenicity: Other; Publications: 33528536, 32989326, 31904124; Phenotypes: Cerebral Palsy, Epileptic encephalopathy 13 MIM# 614558, Cognitive impairment with or without cerebellar ataxia MIM# 614306; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9256 MPL Zornitza Stark Phenotypes for gene: MPL were changed from Myelofibrosis with myeloid metaplasia, somatic, MIM#2544503; Thrombocythemia 2, MIM#601977, AD, SMu; Thrombocytopenia, congenital amegakaryocytic, MIM#604498, AR to Myelofibrosis with myeloid metaplasia, somatic, MIM#254450; Thrombocythemia 2, MIM#601977, AD, SMu; Thrombocytopenia, congenital amegakaryocytic, MIM#604498, AR
Bone Marrow Failure v1.7 MPL Zornitza Stark Phenotypes for gene: MPL were changed from Myelofibrosis with myeloid metaplasia, somatic, MIM#2544503; Thrombocythemia 2, MIM#601977, AD, SMu; Thrombocytopenia, congenital amegakaryocytic, MIM#604498, AR to Myelofibrosis with myeloid metaplasia, somatic, MIM#254450; Thrombocythemia 2, MIM#601977, AD, SMu; Thrombocytopenia, congenital amegakaryocytic, MIM#604498, AR
Bone Marrow Failure v1.6 MPL Zornitza Stark edited their review of gene: MPL: Changed phenotypes: Myelofibrosis with myeloid metaplasia, somatic, MIM#254450, Thrombocythemia 2, MIM#601977, AD, SMu, Thrombocytopenia, congenital amegakaryocytic, MIM#604498, AR
Additional findings_Paediatric v0.257 PTPRC Zornitza Stark Phenotypes for gene: PTPRC were changed from Severe combined immunodeficiency, T cell-negative, B-cell/natural killer-cell positive MIM# 151460 to Severe combined immunodeficiency, T cell-negative, B-cell/natural killer-cell positive MIM# 608971
Mendeliome v0.9255 EPAS1 Zornitza Stark Phenotypes for gene: EPAS1 were changed from Familial erythrocytosis (MIM#4611783), AD to Familial erythrocytosis (MIM#611783), AD
Liver Failure_Paediatric v1.8 BCS1L Zornitza Stark Phenotypes for gene: BCS1L were changed from GRACILE syndrome, MIM# 603358; Mitochondrial complex III deficiency, nuclear type 1 , MIM#124000 to GRACILE syndrome, MIM# 603358; Mitochondrial complex III deficiency, nuclear type 1 , MIM#112400
Liver Failure_Paediatric v1.7 BCS1L Zornitza Stark edited their review of gene: BCS1L: Changed phenotypes: GRACILE syndrome, MIM# 603358, Mitochondrial complex III deficiency, nuclear type 1 , MIM#112400
Mendeliome v0.9254 BCS1L Zornitza Stark Phenotypes for gene: BCS1L were changed from Bjornstad syndrome MIM#262000; GRACILE syndrome, MIM#603358; Mitochondrial complex III deficiency, nuclear type MIM#1124000 to Bjornstad syndrome MIM#262000; GRACILE syndrome, MIM#603358; Mitochondrial complex III deficiency, nuclear type MIM#112400
Cholestasis v0.204 BCS1L Zornitza Stark Phenotypes for gene: BCS1L were changed from GRACILE syndrome, MIM# 603358; Mitochondrial complex III deficiency, nuclear type 1 , MIM#124000 to GRACILE syndrome, MIM# 603358; Mitochondrial complex III deficiency, nuclear type 1 , MIM#112400
Cholestasis v0.203 BCS1L Zornitza Stark edited their review of gene: BCS1L: Changed phenotypes: GRACILE syndrome, MIM# 603358, Mitochondrial complex III deficiency, nuclear type 1 , MIM#112400
Cholestasis v0.203 BCS1L Zornitza Stark edited their review of gene: BCS1L: Changed phenotypes: GRACILE syndrome, MIM# 603358, Mitochondrial complex III deficiency, nuclear type 1 , MIM#12400
Mendeliome v0.9253 OPA1 Zornitza Stark Phenotypes for gene: OPA1 were changed from Mitochondrial DNA depletion syndrome 14 (encephalocardiomyopathic type)MIM# 6168963; Behr syndrome MIM#210000, AR; Optic atrophy 1, MIM#165500; Optic atrophy plus syndrome, MIM# 125250 to Mitochondrial DNA depletion syndrome 14 (encephalocardiomyopathic type)MIM# 616896; Behr syndrome MIM#210000, AR; Optic atrophy 1, MIM#165500; Optic atrophy plus syndrome, MIM# 125250
Cerebral Palsy v0.162 MECP2 Zornitza Stark Marked gene: MECP2 as ready
Cerebral Palsy v0.162 MECP2 Zornitza Stark Gene: mecp2 has been classified as Green List (High Evidence).
Cerebral Palsy v0.162 MECP2 Zornitza Stark Classified gene: MECP2 as Green List (high evidence)
Cerebral Palsy v0.162 MECP2 Zornitza Stark Gene: mecp2 has been classified as Green List (High Evidence).
Mendeliome v0.9252 MAOB Zornitza Stark Marked gene: MAOB as ready
Mendeliome v0.9252 MAOB Zornitza Stark Gene: maob has been classified as Red List (Low Evidence).
Mendeliome v0.9252 MAOB Zornitza Stark gene: MAOB was added
gene: MAOB was added to Mendeliome. Sources: Expert Review
Mode of inheritance for gene: MAOB was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: MAOB were set to 31700678
Phenotypes for gene: MAOB were set to Cerebral palsy
Review for gene: MAOB was set to RED
Added comment: Variants identified in 2 unrelated individuals with CP (with same variant also identified in unaffected monozygotic twin).
Sources: Expert Review
Cerebral Palsy v0.161 MFN2 Krithika Murali gene: MFN2 was added
gene: MFN2 was added to Cerebral Palsy. Sources: Literature
Mode of inheritance for gene: MFN2 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: MFN2 were set to 16437557; 21715711; 34114234; 33528536
Phenotypes for gene: MFN2 were set to Charcot-Marie-Tooth disease, axonal, type 2A2A - #609260; Charcot-Marie-Tooth disease, axonal, type 2A2B - #617087; Hereditary motor and sensory neuropathy VIA - 601152
Review for gene: MFN2 was set to RED
Added comment: Most common cause of axonal Charcot-Marie-Tooth disease (CMT2). Homozygous and compound heterozygous MFN2 mutations have been reported in early-onset CMT2, including patients diagnosed <12 months of age.

x1 het VUS reported in a prematurely born child with unilateral spastic CP (34114234)
x1 paternally inherited pathogenic variant in MFN2 reported in 1 patient in CP cohort (33528536)
Sources: Literature
Cerebral Palsy v0.161 MAOB Zornitza Stark Marked gene: MAOB as ready
Cerebral Palsy v0.161 MAOB Zornitza Stark Gene: maob has been classified as Red List (Low Evidence).
Cerebral Palsy v0.161 MAOB Zornitza Stark Phenotypes for gene: MAOB were changed from to Cerebral palsy
Cerebral Palsy v0.160 MAOB Zornitza Stark Classified gene: MAOB as Red List (low evidence)
Cerebral Palsy v0.160 MAOB Zornitza Stark Gene: maob has been classified as Red List (Low Evidence).
Cerebral Palsy v0.159 KMT2B Zornitza Stark Marked gene: KMT2B as ready
Cerebral Palsy v0.159 KMT2B Zornitza Stark Gene: kmt2b has been classified as Red List (Low Evidence).
Cerebral Palsy v0.159 KMT2B Zornitza Stark Classified gene: KMT2B as Red List (low evidence)
Cerebral Palsy v0.159 KMT2B Zornitza Stark Gene: kmt2b has been classified as Red List (Low Evidence).
Cerebral Palsy v0.158 KMT2A Zornitza Stark Marked gene: KMT2A as ready
Cerebral Palsy v0.158 KMT2A Zornitza Stark Gene: kmt2a has been classified as Green List (High Evidence).
Cerebral Palsy v0.158 KMT2A Zornitza Stark Classified gene: KMT2A as Green List (high evidence)
Cerebral Palsy v0.158 KMT2A Zornitza Stark Gene: kmt2a has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1235 KDM5C Zornitza Stark Marked gene: KDM5C as ready
Genetic Epilepsy v0.1235 KDM5C Zornitza Stark Gene: kdm5c has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1235 KDM5C Zornitza Stark Phenotypes for gene: KDM5C were changed from Epilepsy; Intellectual Disability; microcephaly; Spasticity; hypothyroidism to Epilepsy; Intellectual Disability; microcephaly; Spasticity; hypothyroidism; Mental retardation, X-linked, syndromic, Claes-Jensen type, MIM# 300534; MONDO:0010355
Genetic Epilepsy v0.1234 KDM5C Zornitza Stark Publications for gene: KDM5C were set to 23246292; 32279304; 26919706
Genetic Epilepsy v0.1233 KDM5C Zornitza Stark Classified gene: KDM5C as Green List (high evidence)
Genetic Epilepsy v0.1233 KDM5C Zornitza Stark Gene: kdm5c has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1232 KDM5C Zornitza Stark reviewed gene: KDM5C: Rating: GREEN; Mode of pathogenicity: None; Publications: 15586325, 32279304; Phenotypes: Mental retardation, X-linked, syndromic, Claes-Jensen type, MIM# 300534, MONDO:0010355; Mode of inheritance: X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Genetic Epilepsy v0.1232 ATP6V1B2 Zornitza Stark Marked gene: ATP6V1B2 as ready
Genetic Epilepsy v0.1232 ATP6V1B2 Zornitza Stark Gene: atp6v1b2 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1232 ATP6V1B2 Zornitza Stark Classified gene: ATP6V1B2 as Green List (high evidence)
Genetic Epilepsy v0.1232 ATP6V1B2 Zornitza Stark Gene: atp6v1b2 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1231 ATP6V1B2 Zornitza Stark reviewed gene: ATP6V1B2: Rating: GREEN; Mode of pathogenicity: None; Publications: 32873933; Phenotypes: Epileptic encephalopathy, Intellectual Disability, Deafness, congenital, with onychodystrophy, autosomal dominant, MIM# 124480; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Intellectual disability syndromic and non-syndromic v0.4141 ATP6V0C Zornitza Stark Marked gene: ATP6V0C as ready
Intellectual disability syndromic and non-syndromic v0.4141 ATP6V0C Zornitza Stark Gene: atp6v0c has been classified as Amber List (Moderate Evidence).
Intellectual disability syndromic and non-syndromic v0.4141 ATP6V0C Zornitza Stark Classified gene: ATP6V0C as Amber List (moderate evidence)
Intellectual disability syndromic and non-syndromic v0.4141 ATP6V0C Zornitza Stark Gene: atp6v0c has been classified as Amber List (Moderate Evidence).
Intellectual disability syndromic and non-syndromic v0.4140 ATP6V0C Zornitza Stark gene: ATP6V0C was added
gene: ATP6V0C was added to Intellectual disability syndromic and non-syndromic. Sources: Literature
SV/CNV tags were added to gene: ATP6V0C.
Mode of inheritance for gene: ATP6V0C was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: ATP6V0C were set to 33190975; 33090716
Phenotypes for gene: ATP6V0C were set to Epilepsy; Intellectual Disability; microcephaly
Review for gene: ATP6V0C was set to AMBER
Added comment: 9 individuals reported with deletions and ID/seizures/microcephaly, minimum overlapping region implicates ATP6V0C as the causative gene. Single case report of de novo SNV and ID/seizures.
Sources: Literature
Mendeliome v0.9251 ATP6V0C Zornitza Stark Marked gene: ATP6V0C as ready
Mendeliome v0.9251 ATP6V0C Zornitza Stark Gene: atp6v0c has been classified as Amber List (Moderate Evidence).
Mendeliome v0.9251 ATP6V0C Zornitza Stark Classified gene: ATP6V0C as Amber List (moderate evidence)
Mendeliome v0.9251 ATP6V0C Zornitza Stark Gene: atp6v0c has been classified as Amber List (Moderate Evidence).
Mendeliome v0.9250 ATP6V0C Zornitza Stark Tag SV/CNV tag was added to gene: ATP6V0C.
Mendeliome v0.9250 ATP6V0C Zornitza Stark gene: ATP6V0C was added
gene: ATP6V0C was added to Mendeliome. Sources: Literature
Mode of inheritance for gene: ATP6V0C was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: ATP6V0C were set to 33190975; 33090716
Phenotypes for gene: ATP6V0C were set to Epilepsy; Intellectual Disability; microcephaly
Review for gene: ATP6V0C was set to AMBER
Added comment: 9 individuals reported with deletions and ID/seizures/microcephaly, minimum overlapping region implicates ATP6V0C as the causative gene. Single case report of de novo SNV and ID/seizures.
Sources: Literature
Genetic Epilepsy v0.1231 ATP6V0C Zornitza Stark Marked gene: ATP6V0C as ready
Genetic Epilepsy v0.1231 ATP6V0C Zornitza Stark Gene: atp6v0c has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1231 ATP6V0C Zornitza Stark Classified gene: ATP6V0C as Amber List (moderate evidence)
Genetic Epilepsy v0.1231 ATP6V0C Zornitza Stark Gene: atp6v0c has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1230 ATP6V0C Zornitza Stark Tag SV/CNV tag was added to gene: ATP6V0C.
Genetic Epilepsy v0.1230 ATP6V0C Zornitza Stark reviewed gene: ATP6V0C: Rating: AMBER; Mode of pathogenicity: None; Publications: ; Phenotypes: Intellectual disability, seizures; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Cerebral Palsy v0.157 MECP2 Krithika Murali gene: MECP2 was added
gene: MECP2 was added to Cerebral Palsy. Sources: Expert list,Literature
Mode of inheritance for gene: MECP2 was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Publications for gene: MECP2 were set to 30542205; 33528536
Phenotypes for gene: MECP2 were set to Encephalopathy, neonatal severe - 300673; Intellectual developmental disorder, X-linked syndromic, Lubs type - 300260; Intellectual developmental disorder, X-linked, syndromic 13 - 300055; Rett syndrome - 312750
Review for gene: MECP2 was set to GREEN
Added comment: Pathogenic/likely pathogenic variants reported in 9 unrelated patients with CP
Sources: Expert list, Literature
Cerebral Palsy v0.157 MAOB Krithika Murali gene: MAOB was added
gene: MAOB was added to Cerebral Palsy. Sources: Literature
Mode of inheritance for gene: MAOB was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: MAOB were set to 31700678
Review for gene: MAOB was set to RED
Added comment: Identified in 2 unrelated individuals with CP (with same variant also identified in unaffected monozygotic twin) in a gene not currently known to be associated disease.
Sources: Literature
Cerebral Palsy v0.157 KMT2B Krithika Murali gene: KMT2B was added
gene: KMT2B was added to Cerebral Palsy. Sources: Literature
Mode of inheritance for gene: KMT2B was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: KMT2B were set to 29697234
Phenotypes for gene: KMT2B were set to Dystonia 28, childhood-onset - #617284
Review for gene: KMT2B was set to RED
Added comment: Progressive early-onset movement disorder (mean age 7 years). Variants not previously reported in patients with CP.
Sources: Literature
Cerebral Palsy v0.157 KMT2A Krithika Murali gene: KMT2A was added
gene: KMT2A was added to Cerebral Palsy. Sources: Expert list,Literature
Mode of inheritance for gene: KMT2A was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: KMT2A were set to 33528536
Phenotypes for gene: KMT2A were set to Wiedemann-Steiner syndrome - #605130
Review for gene: KMT2A was set to GREEN
Added comment: Pathogenic/likely pathogenic variants identified in 5 unrelated patients with CP (Moreno-de-Luca et al 2021).
Sources: Expert list, Literature
Genetic Epilepsy v0.1230 KDM5C Kavitha Kothur gene: KDM5C was added
gene: KDM5C was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: KDM5C was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Publications for gene: KDM5C were set to 23246292; 32279304; 26919706
Phenotypes for gene: KDM5C were set to Epilepsy; Intellectual Disability; microcephaly; Spasticity; hypothyroidism
Genetic Epilepsy v0.1230 ATP6V1B2 Kavitha Kothur gene: ATP6V1B2 was added
gene: ATP6V1B2 was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: ATP6V1B2 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: ATP6V1B2 were set to 31655144; 32934366; 32597767
Phenotypes for gene: ATP6V1B2 were set to Epileptic encephalopathy; Intellectual Disability; microcephaly, DOORS syndrome
Review for gene: ATP6V1B2 was set to GREEN
Added comment: Sources: Literature
Genetic Epilepsy v0.1230 ATP6V0C Kavitha Kothur gene: ATP6V0C was added
gene: ATP6V0C was added to Genetic Epilepsy. Sources: Literature
Mode of inheritance for gene: ATP6V0C was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: ATP6V0C were set to 33190975; 33090716
Phenotypes for gene: ATP6V0C were set to Epilepsy; Intellectual Disability; microcephaly
Penetrance for gene: ATP6V0C were set to unknown
Review for gene: ATP6V0C was set to AMBER
Added comment: Sources: Literature
Cerebral Palsy v0.157 KIDINS220 Zornitza Stark Marked gene: KIDINS220 as ready
Cerebral Palsy v0.157 KIDINS220 Zornitza Stark Added comment: Comment when marking as ready: Phenotypic overlap with CP particularly for mono-allelic disease association.
Cerebral Palsy v0.157 KIDINS220 Zornitza Stark Gene: kidins220 has been classified as Green List (High Evidence).
Cerebral Palsy v0.157 KIDINS220 Zornitza Stark Classified gene: KIDINS220 as Green List (high evidence)
Cerebral Palsy v0.157 KIDINS220 Zornitza Stark Gene: kidins220 has been classified as Green List (High Evidence).
Cerebral Palsy v0.156 KIDINS220 Krithika Murali gene: KIDINS220 was added
gene: KIDINS220 was added to Cerebral Palsy. Sources: Expert list,Literature
Mode of inheritance for gene: KIDINS220 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: KIDINS220 were set to 30542205
Phenotypes for gene: KIDINS220 were set to Spastic paraplegia, intellectual disability, nystagmus, and obesity - #617296; Ventriculomegaly and arthrogryposis - #619501
Review for gene: KIDINS220 was set to GREEN
Added comment: Well-established association with AD spastic paraplegia and AR ventriculomegaly and arthrogryposis - phenotypic overlap noted with CP.

Also reported in 2 siblings with atypical CP likely due to parental germline mosaicism (PMID 30542205)

Alternative gene names: ARMS
Sources: Expert list, Literature
Mendeliome v0.9249 KDM7A Zornitza Stark Marked gene: KDM7A as ready
Mendeliome v0.9249 KDM7A Zornitza Stark Gene: kdm7a has been classified as Red List (Low Evidence).
Mendeliome v0.9249 KDM7A Zornitza Stark gene: KDM7A was added
gene: KDM7A was added to Mendeliome. Sources: Literature
Mode of inheritance for gene: KDM7A was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: KDM7A were set to 25666757
Phenotypes for gene: KDM7A were set to Cerebral palsy
Review for gene: KDM7A was set to RED
Added comment: Synonyms: JHDMID, KDM7, KIAA1718

De novo missense VUS identified in a WES CP cohort study, no other reports.
Sources: Literature
Cerebral Palsy v0.156 KDM7A Zornitza Stark Marked gene: KDM7A as ready
Cerebral Palsy v0.156 KDM7A Zornitza Stark Gene: kdm7a has been classified as Red List (Low Evidence).
Cerebral Palsy v0.156 KDM7A Zornitza Stark Phenotypes for gene: KDM7A were changed from to Cerebral palsy
Cerebral Palsy v0.155 KDM7A Zornitza Stark Classified gene: KDM7A as Red List (low evidence)
Cerebral Palsy v0.155 KDM7A Zornitza Stark Gene: kdm7a has been classified as Red List (Low Evidence).
Cerebral Palsy v0.154 KCNQ2 Zornitza Stark reviewed gene: KCNQ2: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Developmental and epileptic encephalopathy 7 - #613720; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Cerebral Palsy v0.154 KCNQ2 Zornitza Stark Marked gene: KCNQ2 as ready
Cerebral Palsy v0.154 KCNQ2 Zornitza Stark Gene: kcnq2 has been classified as Green List (High Evidence).
Cerebral Palsy v0.154 KCNQ2 Zornitza Stark Phenotypes for gene: KCNQ2 were changed from Developmental and epileptic encephalopathy 7 - #613720; Myokymia - #121200; Seizures, benign neonatal, 1 - #121200 to Developmental and epileptic encephalopathy 7 - #613720
Cerebral Palsy v0.153 KCNQ2 Zornitza Stark Classified gene: KCNQ2 as Green List (high evidence)
Cerebral Palsy v0.153 KCNQ2 Zornitza Stark Gene: kcnq2 has been classified as Green List (High Evidence).
Mendeliome v0.9248 ROBO1 Zornitza Stark Marked gene: ROBO1 as ready
Mendeliome v0.9248 ROBO1 Zornitza Stark Gene: robo1 has been classified as Green List (High Evidence).
Mendeliome v0.9248 ROBO1 Zornitza Stark Phenotypes for gene: ROBO1 were changed from to Congenital heart disease; Pituitary anomalies
Mendeliome v0.9247 ROBO1 Zornitza Stark Publications for gene: ROBO1 were set to
Mendeliome v0.9246 ROBO1 Zornitza Stark Mode of inheritance for gene: ROBO1 was changed from Unknown to BOTH monoallelic and biallelic (but BIALLELIC mutations cause a more SEVERE disease form), autosomal or pseudoautosomal
Mendeliome v0.9245 ROBO1 Zornitza Stark reviewed gene: ROBO1: Rating: GREEN; Mode of pathogenicity: None; Publications: 28592524, 30530901, 30692597, 33270637, 28402530; Phenotypes: Congenital heart disease, Pituitary anomalies; Mode of inheritance: BOTH monoallelic and biallelic (but BIALLELIC mutations cause a more SEVERE disease form), autosomal or pseudoautosomal
Pituitary hormone deficiency v0.19 ROBO1 Zornitza Stark Marked gene: ROBO1 as ready
Pituitary hormone deficiency v0.19 ROBO1 Zornitza Stark Gene: robo1 has been classified as Green List (High Evidence).
Pituitary hormone deficiency v0.19 ROBO1 Zornitza Stark Classified gene: ROBO1 as Green List (high evidence)
Pituitary hormone deficiency v0.19 ROBO1 Zornitza Stark Gene: robo1 has been classified as Green List (High Evidence).
Cerebral Palsy v0.152 KDM7A Krithika Murali changed review comment from: Synonyms: JHDMID, KDM7, KIAA1718

De novo missense VUS identified in a WES CP cohort study in a gene not known to be associated with disease.
Sources: Expert list, Literature; to: Synonyms: JHDMID, KDM7, KIAA1718

De novo missense VUS identified in a WES CP cohort study in a gene not known to be associated with disease.
Sources: Literature
Cerebral Palsy v0.152 KDM7A Krithika Murali gene: KDM7A was added
gene: KDM7A was added to Cerebral Palsy. Sources: Expert list,Literature
Mode of inheritance for gene: KDM7A was set to Unknown
Publications for gene: KDM7A were set to 25666757
Review for gene: KDM7A was set to RED
Added comment: Synonyms: JHDMID, KDM7, KIAA1718

De novo missense VUS identified in a WES CP cohort study in a gene not known to be associated with disease.
Sources: Expert list, Literature
Cerebral Palsy v0.152 KCNQ2 Krithika Murali gene: KCNQ2 was added
gene: KCNQ2 was added to Cerebral Palsy. Sources: Expert list,Literature
Mode of inheritance for gene: KCNQ2 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: KCNQ2 were set to 33557955; 32585800; 22275249; 28655139
Phenotypes for gene: KCNQ2 were set to Developmental and epileptic encephalopathy 7 - #613720; Myokymia - #121200; Seizures, benign neonatal, 1 - #121200
Review for gene: KCNQ2 was set to AMBER
Added comment: Well-validated association with early-onset epileptic encephalopathy (ClinGen) and neonatal seizures.


In addition, KCNQ2 pathogenic variants reported in multiple individuals with intractable neonatal seizures and associated intellectual disability, developmental delay and motor impairment (axial hypotonia and/or spastic quadriplegia) - (PMID 22275249)

x2 case reports of associated CP - 6 year old M with neonatal seizures and a CP-like syndrome. KCNQ2 exon 7 partial duplication impairing gene function (ClinVar ID 617505) - (PMID 32585800 and 33557955) and 2 year old F with perinatal encephalopathy, severe tetraparesis and cerebral visual impairment (PMID 28655139). Neonatal epileptic encephalopathy primary presentation in both cases.

On Expert CP Gene List.
Sources: Expert list, Literature
Pituitary hormone deficiency v0.18 ROBO1 Natasha Brown gene: ROBO1 was added
gene: ROBO1 was added to Pituitary hormone deficiency. Sources: Literature
Mode of inheritance for gene: ROBO1 was set to BOTH monoallelic and biallelic (but BIALLELIC mutations cause a more SEVERE disease form), autosomal or pseudoautosomal
Publications for gene: ROBO1 were set to PMID: 30530901; 30692597; 33270637; 28402530
Phenotypes for gene: ROBO1 were set to pituitary stalk interruption syndrome; pituitary anomalies; pituitary hormone deficiency
Review for gene: ROBO1 was set to GREEN
Added comment: PMID: 30692597 novel hmz splice, single case; severe phenotype combined pituitary hormone deficiency, psychomotor developmental delay, severe intellectual disability, sensorineural hearing loss, strabismus, dysmorphism; parents reported to be unaffected.
PMID: 30530901 Two affected from one family with 343.7 kb deletion of 3p12.3 encompassing ROBO1
PMID: 33270637 Larger cohort study found four individiuals (2x LOF; 2x missense) all het variants however those with missense variants also had other variants in different genes, evidence for pathogenicity of missense variants less clear.
PMID: 28402530 In five unexplained cases of pit stalk interruption, found: p.Ala977Glnfs*40 in two affected sibs; p.Tyr1114Ter in a sporadic case, and p.Cys240Ser, affected child and paternal aunt. All heterozygous.
Sources: Literature
Intellectual disability syndromic and non-syndromic v0.4139 ARFGEF1 Zornitza Stark Marked gene: ARFGEF1 as ready
Intellectual disability syndromic and non-syndromic v0.4139 ARFGEF1 Zornitza Stark Gene: arfgef1 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4139 ARFGEF1 Zornitza Stark Classified gene: ARFGEF1 as Green List (high evidence)
Intellectual disability syndromic and non-syndromic v0.4139 ARFGEF1 Zornitza Stark Gene: arfgef1 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4138 ARFGEF1 Zornitza Stark gene: ARFGEF1 was added
gene: ARFGEF1 was added to Intellectual disability syndromic and non-syndromic. Sources: Literature
Mode of inheritance for gene: ARFGEF1 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: ARFGEF1 were set to 34113008
Phenotypes for gene: ARFGEF1 were set to Intellectual disability; Epilepsy
Review for gene: ARFGEF1 was set to GREEN
Added comment: 13 individuals reported with variants in this gene and a neurodevelopmental disorder characterised by variable ID, seizures present in around half. Variants were inherited from mildly affected parents in 40% of families.
Sources: Literature
Genetic Epilepsy v0.1230 ARFGEF1 Zornitza Stark Marked gene: ARFGEF1 as ready
Genetic Epilepsy v0.1230 ARFGEF1 Zornitza Stark Gene: arfgef1 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1230 ARFGEF1 Zornitza Stark Classified gene: ARFGEF1 as Green List (high evidence)
Genetic Epilepsy v0.1230 ARFGEF1 Zornitza Stark Gene: arfgef1 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1229 ARFGEF1 Zornitza Stark gene: ARFGEF1 was added
gene: ARFGEF1 was added to Genetic Epilepsy. Sources: Expert Review
Mode of inheritance for gene: ARFGEF1 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: ARFGEF1 were set to 34113008
Phenotypes for gene: ARFGEF1 were set to Intellectual disability; Epilepsy
Review for gene: ARFGEF1 was set to GREEN
Added comment: 13 individuals reported with variants in this gene and a neurodevelopmental disorder characterised by variable ID, seizures present in around half. Variants were inherited from mildly affected parents in 40% of families.
Sources: Expert Review
Mendeliome v0.9245 ARFGEF1 Zornitza Stark Marked gene: ARFGEF1 as ready
Mendeliome v0.9245 ARFGEF1 Zornitza Stark Gene: arfgef1 has been classified as Green List (High Evidence).
Mendeliome v0.9245 ARFGEF1 Zornitza Stark Classified gene: ARFGEF1 as Green List (high evidence)
Mendeliome v0.9245 ARFGEF1 Zornitza Stark Gene: arfgef1 has been classified as Green List (High Evidence).
Mendeliome v0.9244 ARFGEF1 Zornitza Stark gene: ARFGEF1 was added
gene: ARFGEF1 was added to Mendeliome. Sources: Expert Review
Mode of inheritance for gene: ARFGEF1 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: ARFGEF1 were set to 34113008
Phenotypes for gene: ARFGEF1 were set to Intellectual disability; Epilepsy
Review for gene: ARFGEF1 was set to GREEN
Added comment: 13 individuals reported with variants in this gene and a neurodevelopmental disorder characterised by variable ID, seizures present in around half. Variants were inherited from mildly affected parents in 40% of families.
Sources: Expert Review
Genetic Epilepsy v0.1228 AP4B1 Zornitza Stark Marked gene: AP4B1 as ready
Genetic Epilepsy v0.1228 AP4B1 Zornitza Stark Gene: ap4b1 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1228 AP4B1 Zornitza Stark Classified gene: AP4B1 as Green List (high evidence)
Genetic Epilepsy v0.1228 AP4B1 Zornitza Stark Gene: ap4b1 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1227 AP4B1 Zornitza Stark gene: AP4B1 was added
gene: AP4B1 was added to Genetic Epilepsy. Sources: Expert Review
Mode of inheritance for gene: AP4B1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: AP4B1 were set to 21620353; 22290197; 24700674; 24781758; 32166732
Phenotypes for gene: AP4B1 were set to Spastic paraplegia 47, autosomal recessive, MIM# 614066
Review for gene: AP4B1 was set to GREEN
Added comment: Autosomal recessive neurodegenerative disorder characterised by neonatal hypotonia that progresses to hypertonia and spasticity and severe ID with poor or absent speech development. Microcephaly is an early, presenting feature. Seizures reported in at least 3 families.

>5 unrelated families reported.
Sources: Expert Review
Mendeliome v0.9243 NPR3 Zornitza Stark Marked gene: NPR3 as ready
Mendeliome v0.9243 NPR3 Zornitza Stark Gene: npr3 has been classified as Green List (High Evidence).
Mendeliome v0.9243 NPR3 Zornitza Stark Phenotypes for gene: NPR3 were changed from to Boudin-Mortier syndrome, MIM#619543; Tall stature, skeletal abnormalities, aortic dilatation
Mendeliome v0.9242 NPR3 Zornitza Stark Publications for gene: NPR3 were set to
Mendeliome v0.9241 NPR3 Zornitza Stark Mode of inheritance for gene: NPR3 was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Mendeliome v0.9240 NPR3 Zornitza Stark reviewed gene: NPR3: Rating: GREEN; Mode of pathogenicity: None; Publications: 30032985; Phenotypes: Boudin-Mortier syndrome, MIM#619543, Tall stature, skeletal abnormalities, aortic dilatation; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Aortopathy_Connective Tissue Disorders v1.55 NPR3 Zornitza Stark Phenotypes for gene: NPR3 were changed from Tall stature, skeletal abnormalities, aortic dilatation to Boudin-Mortier syndrome, MIM#619543; Tall stature, skeletal abnormalities, aortic dilatation
Aortopathy_Connective Tissue Disorders v1.54 NPR3 Zornitza Stark edited their review of gene: NPR3: Changed phenotypes: Boudin-Mortier syndrome, MIM#619543, Tall stature, skeletal abnormalities, aortic dilatation
Intellectual disability syndromic and non-syndromic v0.4137 PRR12 Zornitza Stark Phenotypes for gene: PRR12 were changed from intellectual disability; iris abnormalities to Neuroocular syndrome, MIM#619539; Intellectual disability; Iris abnormalities; Complex microphthalmia
Intellectual disability syndromic and non-syndromic v0.4136 PRR12 Zornitza Stark edited their review of gene: PRR12: Changed phenotypes: Neuroocular syndrome, MIM#619539, Intellectual disability, Iris abnormalities, Complex microphthalmia
Mendeliome v0.9240 PRR12 Zornitza Stark Phenotypes for gene: PRR12 were changed from Intellectual disability; Iris abnormalities; Complex microphthalmia to Neuroocular syndrome, MIM#619539; Intellectual disability; Iris abnormalities; Complex microphthalmia
Mendeliome v0.9239 PRR12 Zornitza Stark edited their review of gene: PRR12: Changed phenotypes: Neuroocular syndrome, MIM#619539, Intellectual disability, Iris abnormalities, Complex microphthalmia
Anophthalmia_Microphthalmia_Coloboma v1.8 PRR12 Zornitza Stark Phenotypes for gene: PRR12 were changed from Complex microphthalmia to Neuroocular syndrome, MIM#619539; Complex microphthalmia
Anophthalmia_Microphthalmia_Coloboma v1.7 PRR12 Zornitza Stark edited their review of gene: PRR12: Changed phenotypes: Neuroocular syndrome, MIM#619539, Complex microphthalmia
Mendeliome v0.9239 KCNC3 Zornitza Stark Marked gene: KCNC3 as ready
Mendeliome v0.9239 KCNC3 Zornitza Stark Gene: kcnc3 has been classified as Green List (High Evidence).
Mendeliome v0.9239 KCNC3 Zornitza Stark Phenotypes for gene: KCNC3 were changed from to Spinocerebellar ataxia 13, MIM# 605259
Mendeliome v0.9238 KCNC3 Zornitza Stark Publications for gene: KCNC3 were set to
Mendeliome v0.9237 KCNC3 Zornitza Stark Mode of inheritance for gene: KCNC3 was changed from Unknown to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Mendeliome v0.9236 KCNC3 Zornitza Stark reviewed gene: KCNC3: Rating: GREEN; Mode of pathogenicity: None; Publications: 16501573, 25497598, 25981959, 25981959; Phenotypes: Spinocerebellar ataxia 13, MIM# 605259; Mode of inheritance: MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Cerebral Palsy v0.152 KCNC3 Zornitza Stark Marked gene: KCNC3 as ready
Cerebral Palsy v0.152 KCNC3 Zornitza Stark Gene: kcnc3 has been classified as Green List (High Evidence).
Cerebral Palsy v0.152 KCNC3 Zornitza Stark Classified gene: KCNC3 as Green List (high evidence)
Cerebral Palsy v0.152 KCNC3 Zornitza Stark Gene: kcnc3 has been classified as Green List (High Evidence).
Cerebral Palsy v0.151 KCNC3 Zornitza Stark gene: KCNC3 was added
gene: KCNC3 was added to Cerebral Palsy. Sources: Expert list
Mode of inheritance for gene: KCNC3 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: KCNC3 were set to 16501573; 25497598; 25981959; 25981959
Phenotypes for gene: KCNC3 were set to Spinocerebellar ataxia 13, MIM# 605259
Review for gene: KCNC3 was set to GREEN
Added comment: ID and ataxia, variable age of onset, including in childhood. Reported in ataxic CP cohort.
Sources: Expert list
Cerebral Palsy v0.151 KCNC3 Zornitza Stark gene: KCNC3 was added
gene: KCNC3 was added to Cerebral Palsy. Sources: Expert list
Mode of inheritance for gene: KCNC3 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: KCNC3 were set to 16501573; 25497598; 25981959; 25981959
Phenotypes for gene: KCNC3 were set to Spinocerebellar ataxia 13, MIM# 605259
Review for gene: KCNC3 was set to GREEN
Added comment: ID and ataxia, variable age of onset, including in childhood. Reported in ataxic CP cohort.
Sources: Expert list
Cerebral Palsy v0.150 ITPR1 Zornitza Stark Marked gene: ITPR1 as ready
Cerebral Palsy v0.150 ITPR1 Zornitza Stark Gene: itpr1 has been classified as Green List (High Evidence).
Cerebral Palsy v0.150 ITPR1 Zornitza Stark Classified gene: ITPR1 as Green List (high evidence)
Cerebral Palsy v0.150 ITPR1 Zornitza Stark Gene: itpr1 has been classified as Green List (High Evidence).
Cerebral Palsy v0.149 ITPR1 Zornitza Stark gene: ITPR1 was added
gene: ITPR1 was added to Cerebral Palsy. Sources: Expert list
Mode of inheritance for gene: ITPR1 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: ITPR1 were set to 28826917; 25981959; 22986007
Phenotypes for gene: ITPR1 were set to Spinocerebellar ataxia 29, congenital nonprogressive MIM#117360
Review for gene: ITPR1 was set to GREEN
Added comment: Variants in this gene reported in individuals diagnosed with ataxic CP.
Sources: Expert list
Cerebral Palsy v0.148 IQSEC2 Zornitza Stark Marked gene: IQSEC2 as ready
Cerebral Palsy v0.148 IQSEC2 Zornitza Stark Gene: iqsec2 has been classified as Red List (Low Evidence).
Cerebral Palsy v0.148 IQSEC2 Zornitza Stark gene: IQSEC2 was added
gene: IQSEC2 was added to Cerebral Palsy. Sources: Expert list
Mode of inheritance for gene: IQSEC2 was set to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Publications for gene: IQSEC2 were set to 33368194; 20473311; 23674175
Phenotypes for gene: IQSEC2 were set to Mental retardation, X-linked 1/78, MIM# 309530, MONDO:0010656; Severe intellectual disability-progressive postnatal microcephaly- midline stereotypic hand movements syndrome MONDO:0018347
Review for gene: IQSEC2 was set to RED
Added comment: More than 20 unrelated families reported. Typical features are ID, microcephaly and hand stereotypies. Phenotypic overlap with Angelman-Rett-like syndromes rather than CP.
Sources: Expert list
Cerebral Palsy v0.147 HPCA Zornitza Stark Marked gene: HPCA as ready
Cerebral Palsy v0.147 HPCA Zornitza Stark Gene: hpca has been classified as Red List (Low Evidence).
Cerebral Palsy v0.147 HPCA Zornitza Stark changed review comment from: Isolated dystonia, variable age of onset, including in adolescence. Insufficient phenotypic overlap with CP.
Sources: Expert list; to: Four families reported. Isolated dystonia, variable age of onset, including in adolescence. Insufficient phenotypic overlap with CP.
Sources: Expert list
Cerebral Palsy v0.147 HPCA Zornitza Stark gene: HPCA was added
gene: HPCA was added to Cerebral Palsy. Sources: Expert list
Mode of inheritance for gene: HPCA was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: HPCA were set to 30145809; 25799108
Phenotypes for gene: HPCA were set to Dystonia 2, torsion, autosomal recessive, MIM#224500
Review for gene: HPCA was set to RED
Added comment: Isolated dystonia, variable age of onset, including in adolescence. Insufficient phenotypic overlap with CP.
Sources: Expert list
Microcephaly v1.53 MINPP1 Zornitza Stark Phenotypes for gene: MINPP1 were changed from Pontocerebellar hypoplasia to Pontocerebellar hypoplasia, type 16, MIM# 619527
Microcephaly v1.52 MINPP1 Zornitza Stark edited their review of gene: MINPP1: Changed phenotypes: Pontocerebellar hypoplasia, type 16, MIM# 619527
Mendeliome v0.9236 MINPP1 Zornitza Stark Phenotypes for gene: MINPP1 were changed from Pontocerebellar hypoplasia to Pontocerebellar hypoplasia, type 16, MIM# 619527
Mendeliome v0.9235 MINPP1 Zornitza Stark edited their review of gene: MINPP1: Changed phenotypes: Pontocerebellar hypoplasia, type 16, MIM# 619527
Cerebral Palsy v0.146 MINPP1 Zornitza Stark Phenotypes for gene: MINPP1 were changed from Pontocerebellar hypoplasia to Pontocerebellar hypoplasia, type 16, MIM# 619527
Cerebral Palsy v0.145 MINPP1 Zornitza Stark edited their review of gene: MINPP1: Changed phenotypes: Pontocerebellar hypoplasia, type 16, MIM# 619527
Cerebellar and Pontocerebellar Hypoplasia v1.17 MINPP1 Zornitza Stark Phenotypes for gene: MINPP1 were changed from Pontocerebellar hypoplasia to Pontocerebellar hypoplasia, type 16, MIM# 619527
Cerebellar and Pontocerebellar Hypoplasia v1.16 MINPP1 Zornitza Stark edited their review of gene: MINPP1: Changed phenotypes: Pontocerebellar hypoplasia, type 16, MIM# 619527
Arthrogryposis v0.298 ZC4H2 Zornitza Stark Publications for gene: ZC4H2 were set to 23623388; 31885220
Arthrogryposis v0.297 ZC4H2 Zornitza Stark Mode of inheritance for gene: ZC4H2 was changed from X-LINKED: hemizygous mutation in males, biallelic mutations in females to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Arthrogryposis v0.296 ZC4H2 Zornitza Stark reviewed gene: ZC4H2: Rating: GREEN; Mode of pathogenicity: None; Publications: 23623388, 34322088, 33949289, 31885220, 31206972; Phenotypes: Wieacker-Wolff syndrome, MIM# 314580; Mode of inheritance: X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Mendeliome v0.9235 ZC4H2 Zornitza Stark Marked gene: ZC4H2 as ready
Mendeliome v0.9235 ZC4H2 Zornitza Stark Gene: zc4h2 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4136 ZC4H2 Zornitza Stark Marked gene: ZC4H2 as ready
Intellectual disability syndromic and non-syndromic v0.4136 ZC4H2 Zornitza Stark Gene: zc4h2 has been classified as Green List (High Evidence).
Intellectual disability syndromic and non-syndromic v0.4136 ZC4H2 Zornitza Stark Phenotypes for gene: ZC4H2 were changed from to Wieacker-Wolff syndrome, MIM# 314580
Intellectual disability syndromic and non-syndromic v0.4135 ZC4H2 Zornitza Stark Publications for gene: ZC4H2 were set to
Intellectual disability syndromic and non-syndromic v0.4134 ZC4H2 Zornitza Stark Mode of inheritance for gene: ZC4H2 was changed from Unknown to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Intellectual disability syndromic and non-syndromic v0.4133 ZC4H2 Zornitza Stark reviewed gene: ZC4H2: Rating: GREEN; Mode of pathogenicity: None; Publications: 23623388, 34322088, 33949289, 31885220, 31206972; Phenotypes: Wieacker-Wolff syndrome, MIM# 314580; Mode of inheritance: X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Mendeliome v0.9235 ZC4H2 Zornitza Stark Phenotypes for gene: ZC4H2 were changed from to Wieacker-Wolff syndrome, MIM# 314580
Mendeliome v0.9234 ZC4H2 Zornitza Stark Publications for gene: ZC4H2 were set to
Mendeliome v0.9233 ZC4H2 Zornitza Stark Mode of inheritance for gene: ZC4H2 was changed from Unknown to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Cerebral Palsy v0.145 ZC4H2 Zornitza Stark Publications for gene: ZC4H2 were set to 23623388
Cerebral Palsy v0.144 ZC4H2 Zornitza Stark changed review comment from: Intellectual disability and spasticity are key features. At least one family had a diagnosis of CP.; to: Intellectual disability and spasticity are key features, more than 40 families reported. At least one family had a diagnosis of CP.
Cerebral Palsy v0.144 ZC4H2 Zornitza Stark edited their review of gene: ZC4H2: Changed publications: 23623388, 34322088, 33949289, 31885220, 31206972
Mendeliome v0.9232 ZC4H2 Zornitza Stark reviewed gene: ZC4H2: Rating: GREEN; Mode of pathogenicity: None; Publications: 23623388, 34322088, 33949289, 31885220, 31206972; Phenotypes: Wieacker-Wolff syndrome, MIM# 314580; Mode of inheritance: X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Cerebral Palsy v0.144 ZC4H2 Zornitza Stark Marked gene: ZC4H2 as ready
Cerebral Palsy v0.144 ZC4H2 Zornitza Stark Gene: zc4h2 has been classified as Green List (High Evidence).
Cerebral Palsy v0.144 ZC4H2 Zornitza Stark Phenotypes for gene: ZC4H2 were changed from to Wieacker-Wolff syndrome, MIM# 314580
Cerebral Palsy v0.143 ZC4H2 Zornitza Stark Publications for gene: ZC4H2 were set to
Cerebral Palsy v0.142 ZC4H2 Zornitza Stark Mode of inheritance for gene: ZC4H2 was changed from Unknown to X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Cerebral Palsy v0.141 ZC4H2 Zornitza Stark reviewed gene: ZC4H2: Rating: GREEN; Mode of pathogenicity: None; Publications: 23623388; Phenotypes: Wieacker-Wolff syndrome, MIM# 314580; Mode of inheritance: X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Cerebral Palsy v0.141 SPG11 Zornitza Stark Marked gene: SPG11 as ready
Cerebral Palsy v0.141 SPG11 Zornitza Stark Gene: spg11 has been classified as Green List (High Evidence).
Cerebral Palsy v0.141 SPG11 Zornitza Stark Classified gene: SPG11 as Green List (high evidence)
Cerebral Palsy v0.141 SPG11 Zornitza Stark Gene: spg11 has been classified as Green List (High Evidence).
Cerebral Palsy v0.140 SPG11 Zornitza Stark gene: SPG11 was added
gene: SPG11 was added to Cerebral Palsy. Sources: Expert list
Mode of inheritance for gene: SPG11 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: SPG11 were set to 34183250; 33581793
Phenotypes for gene: SPG11 were set to Spastic paraplegia 11, autosomal recessive, MIM# 604360
Review for gene: SPG11 was set to GREEN
Added comment: Intellectual disability and spasticity, reported in CP cohort.

Recent review of >300 individuals with SPG11-related disease. Mean age at onset was 13.10 ± 3.65 years, with initial symptoms like gait disturbance (107/195, 54.87%) and intellectual disability (47/195, 24.10%). Cognitive decline (228/270, 84.44%) was the most common complex manifestation stepped by dysarthria (134/195, 68.72%), neuropathy (112/177, 63.28%), amyatrophy, sphincter disturbance (60/130, 46.15%) and ataxia (90/194, 46.39%).
Sources: Expert list
Cerebral Palsy v0.139 SMARCB1 Zornitza Stark Marked gene: SMARCB1 as ready
Cerebral Palsy v0.139 SMARCB1 Zornitza Stark Gene: smarcb1 has been classified as Red List (Low Evidence).
Cerebral Palsy v0.139 SMARCB1 Zornitza Stark gene: SMARCB1 was added
gene: SMARCB1 was added to Cerebral Palsy. Sources: Expert list
Mode of inheritance for gene: SMARCB1 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Phenotypes for gene: SMARCB1 were set to Coffin-Siris syndrome 3, MIM# 614608
Review for gene: SMARCB1 was set to RED
Added comment: Intellectual disability and dysmorphic features, no strong phenotypic overlap with CP.
Sources: Expert list
Genetic Epilepsy v0.1226 ACOX1 Zornitza Stark Marked gene: ACOX1 as ready
Genetic Epilepsy v0.1226 ACOX1 Zornitza Stark Gene: acox1 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1226 ACOX1 Zornitza Stark Phenotypes for gene: ACOX1 were changed from to Peroxisomal acyl-CoA oxidase deficiency, MIM# 264470; Mitchell syndrome, MIM# 618960
Genetic Epilepsy v0.1225 ACOX1 Zornitza Stark Publications for gene: ACOX1 were set to
Genetic Epilepsy v0.1224 ACOX1 Zornitza Stark Mode of inheritance for gene: ACOX1 was changed from Unknown to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Genetic Epilepsy v0.1223 ACOX1 Zornitza Stark reviewed gene: ACOX1: Rating: GREEN; Mode of pathogenicity: None; Publications: 32169171, 17458872; Phenotypes: Peroxisomal acyl-CoA oxidase deficiency, MIM# 264470, Mitchell syndrome, MIM# 618960; Mode of inheritance: BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Genetic Epilepsy v0.1223 ALX4 Zornitza Stark Marked gene: ALX4 as ready
Genetic Epilepsy v0.1223 ALX4 Zornitza Stark Gene: alx4 has been classified as Red List (Low Evidence).
Genetic Epilepsy v0.1223 ALX4 Zornitza Stark gene: ALX4 was added
gene: ALX4 was added to Genetic Epilepsy. Sources: Expert Review
Mode of inheritance for gene: ALX4 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: ALX4 were set to 33269135
Phenotypes for gene: ALX4 were set to Parietal foramina 2, MIM# 609597
Review for gene: ALX4 was set to RED
Added comment: Single case report of seizures in an individual with ALX4 variant and parietal foramina, unclear if related.
Sources: Expert Review
Genetic Epilepsy v0.1222 ADGRV1 Zornitza Stark Phenotypes for gene: ADGRV1 were changed from Myoclonic epilepsy; febrile seizures; epilepsy to Myoclonic epilepsy; febrile seizures; epilepsy; Rolandic epilepsy
Genetic Epilepsy v0.1221 ADGRV1 Zornitza Stark Publications for gene: ADGRV1 were set to 29266188; 29261713; 32962041
Genetic Epilepsy v0.1220 ADGRV1 Zornitza Stark Mode of inheritance for gene: ADGRV1 was changed from MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted to BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Genetic Epilepsy v0.1219 ADGRV1 Zornitza Stark Classified gene: ADGRV1 as Amber List (moderate evidence)
Genetic Epilepsy v0.1219 ADGRV1 Zornitza Stark Gene: adgrv1 has been classified as Amber List (Moderate Evidence).
Genetic Epilepsy v0.1218 ADGRV1 Zornitza Stark edited their review of gene: ADGRV1: Added comment: Two families reported with bi-allelic variants and Rolandic epilepsy.; Changed rating: AMBER; Changed publications: 29266188, 29261713, 32962041, 34160719; Changed phenotypes: Myoclonic epilepsy, febrile seizures, epilepsy, Rolandic epilepsy; Changed mode of inheritance: BOTH monoallelic and biallelic, autosomal or pseudoautosomal
Genetic Epilepsy v0.1218 ACTG1 Zornitza Stark Classified gene: ACTG1 as Green List (high evidence)
Genetic Epilepsy v0.1218 ACTG1 Zornitza Stark Gene: actg1 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1218 ACTG1 Zornitza Stark Classified gene: ACTG1 as Green List (high evidence)
Genetic Epilepsy v0.1218 ACTG1 Zornitza Stark Gene: actg1 has been classified as Green List (High Evidence).
Genetic Epilepsy v0.1218 ACTG1 Zornitza Stark Marked gene: ACTG1 as ready
Genetic Epilepsy v0.1218 ACTG1 Zornitza Stark Gene: actg1 has been classified as Green List (High Evidence).