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Microcephaly v1.285 FLVCR1 Bryony Thompson gene: FLVCR1 was added
gene: FLVCR1 was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: FLVCR1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: FLVCR1 were set to 39306721
Phenotypes for gene: FLVCR1 were set to neurodevelopmental disorder MONDO:0700092, FLVCR1-related
Review for gene: FLVCR1 was set to GREEN
gene: FLVCR1 was marked as current diagnostic
Added comment: A study with 30 patients from 23 unrelated families with biallelic ultra-rare missense and predicted loss-of-function variants in FLVCR1 with a novel FLVCR1-related phenotype characterised by severe developmental disorders with profound developmental delay, microcephaly, brain malformations, epilepsy, spasticity, and premature death. Optic disk atrophy, limb and digital malformations, and macrocytic anaemia can be present.
Sources: Literature
Microcephaly v1.268 FDXR Zornitza Stark Phenotypes for gene: FDXR were changed from Auditory neuropathy and optic atrophy, MIM# 617717 to Auditory neuropathy and optic atrophy, MIM# 617717; Neurodevelopmental disorder with mitochondrial abnormalities, optic atrophy, and developmental regression, MIM# 620887
Microcephaly v1.265 FDXR Zornitza Stark edited their review of gene: FDXR: Added comment: Multiple reports of individuals with extra-ocular features, including ID and regression; microcephaly.; Changed rating: GREEN; Changed publications: 30250212, 28965846, 29040572, 33348459, 37046037, 37481223; Changed phenotypes: Auditory neuropathy and optic atrophy, MIM# 617717, Neurodevelopmental disorder with mitochondrial abnormalities, optic atrophy, and developmental regression, MIM# 620887
Microcephaly v1.238 VARS Zornitza Stark gene: VARS was added
gene: VARS was added to Microcephaly. Sources: Expert Review
Mode of inheritance for gene: VARS was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: VARS were set to 30755616; 30755602; 26539891; 29691655; 30275004
Phenotypes for gene: VARS were set to Neurodevelopmental disorder with microcephaly, seizures, and cortical atrophy; OMIM #617802
Review for gene: VARS was set to GREEN
Added comment: 20 individuals from 14 families. Microcephaly is part of the phenotype.
Sources: Expert Review
Microcephaly v1.233 ATRX Zornitza Stark Phenotypes for gene: ATRX were changed from Mental retardation-hypotonic facies syndrome, X-linked, MIM# 309580; Alpha-thalassemia/mental retardation syndrome, MIM# 301040 to ATR-X-related syndrome MONDO:0016980
Microcephaly v1.232 ATRX Zornitza Stark edited their review of gene: ATRX: Changed phenotypes: ATR-X-related syndrome MONDO:0016980
Microcephaly v1.172 CLDN5 Suliman Khan gene: CLDN5 was added
gene: CLDN5 was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: CLDN5 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: CLDN5 were set to PMID: 36477332
Phenotypes for gene: CLDN5 were set to seizures; developmental delay; microcephaly; brain calcifications
Penetrance for gene: CLDN5 were set to Complete
Mode of pathogenicity for gene: CLDN5 was set to Loss-of-function variants (as defined in pop up message) DO NOT cause this phenotype - please provide details in the comments
Review for gene: CLDN5 was set to GREEN
Added comment: PMID: 36477332 identified de novo heterozygous missense variants in CLDN5 in fifteen unrelated patients who presented with a shared constellation of features including developmental delay, seizures (primarily infantile onset focal epilepsy), microcephaly and a recognizable pattern of pontine atrophy and brain calcifications.
Sources: Literature
Microcephaly v1.172 CENPF Mark Williams reviewed gene: CENPF: Rating: GREEN; Mode of pathogenicity: None; Publications: PMID: 35488810, 31953238, 26820108; Phenotypes: Stromme syndrome, microcephaly, intestinal atresia, intellectual disability, developmental delay; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Microcephaly v1.154 DOHH Zornitza Stark Phenotypes for gene: DOHH were changed from Neurodevelopmental disorder, DOHH-related (MONDO#0700092) to Neurodevelopmental disorder with microcephaly, cerebral atrophy, and visual impairment, MIM# 620066
Microcephaly v1.153 DOHH Zornitza Stark reviewed gene: DOHH: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Neurodevelopmental disorder with microcephaly, cerebral atrophy, and visual impairment, MIM# 620066; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Microcephaly v1.141 KIF15 Krithika Murali gene: KIF15 was added
gene: KIF15 was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: KIF15 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: KIF15 were set to 28150392
Phenotypes for gene: KIF15 were set to ?Braddock-Carey syndrome 2 - MIM#619981
Review for gene: KIF15 was set to AMBER
Added comment: PMID 28150392 Sleiman et al 2017 report one individual with homozygous R501* variant (NMD-predicted) from a consanguineous family. The child had thrombocytopenia, PRS, microcephaly -3SD by age 6, dysmorphic facies, bilateral external auditory canal atresia and deafness, microphthalmia, clinodactyly, short stature. Variant absent from gnomAD. Parents confirmed to be carriers and unaffected siblings were carriers/homozygous wild-type.

No other SNVs reported in ClinVar. Variant is absent from gnomAD. Authors note phenotypic similarities with Braddock-Carey syndrome (21q22 contiguous deletion also involving RUNX1).
Sources: Literature
Microcephaly v1.138 TAF8 Zornitza Stark Phenotypes for gene: TAF8 were changed from Neurodevelopmental disorder, MONDO:0700092, TAF8-related to Neurodevelopmental disorder with severe motor impairment, absent language, cerebral hypomyelination, and brain atrophy, MIM# 619972
Microcephaly v1.137 TAF8 Zornitza Stark edited their review of gene: TAF8: Changed phenotypes: Neurodevelopmental disorder with severe motor impairment, absent language, cerebral hypomyelination, and brain atrophy, MIM# 619972
Microcephaly v1.120 DROSHA Lucy Spencer gene: DROSHA was added
gene: DROSHA was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: DROSHA was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: DROSHA were set to 35405010
Phenotypes for gene: DROSHA were set to Neurodevelopmental disorder (MONDO#0700092), DROSHA-related
Review for gene: DROSHA was set to AMBER
Added comment: 2 individuals with profound intellectual disability, epilepsy, white matter atrophy, microcephaly, and dysmorphic features, who carry damaging de novo heterozygous variants in DROSHA. Both variants are missense, absent from gnomad. Both individuals noted to have Rett-like features.

Functional studies in patient fibroblasts showed one of the missense altered the expression of mature miRNA. Fruit fly models with homozygous LOF variants die during larval stages. introduction of the missense seen in the patients was able to partially rescue this phenotype suggesting LOF is not the mechanism.
Sources: Literature
Microcephaly v1.116 NDUFA2 Krithika Murali gene: NDUFA2 was added
gene: NDUFA2 was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: NDUFA2 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: NDUFA2 were set to 28857146; 32154054; 18513682
Phenotypes for gene: NDUFA2 were set to Mitochondrial complex I deficiency, nuclear type 13 - MIM#618235
Review for gene: NDUFA2 was set to AMBER
Added comment: 4 unrelated patients reported in the published literature. 2 reported to have postnatal-onset microcephaly.

PMID 28857146 - report 2 unrelated patients with cystic leukoencephalopathy.

Patient 1 - born at term, unremarkable antenatal history. Presented at 8 months with encephalopathy, hepatomegaly, hyperammonemia. Exhibited developmental regression until 12 months of age and also had moderate ID, dystonia, spasticity and focal epilepsy. Initially had homozygous SLC22A5 variant associated with primary carnitine deficiency. MRI-B age 2 showed white matter + cystic changes and corpus callosum anomalies. Complex 1 deficiency suspected based on white matter anomalies. Patient-derived fibroblasts showed decrease in complex 1 enzyme activity. WES identified homozygous NDUFA2 variant with parental testing confirming carrier status.

Patient 2 - compound het NDUFA2 variants. Phenotypic features include - failure to thrive, developmental regression, upper motor neuron signs, white matter abnormalities + cystic changes on MRI-Brain, severe GDD and microcephaly.

PMID: 32154054 - report a patient with developmental regression and postnatal onset progressive microcephaly. Other features included UMN signs, spastic equinovarus deformity of the feet. At age 4 developed generalised seizures in context of VZV infection. Abnormal MRI-B including white matter changes, bilateral cavitating lesions and corpus callosum anomalies. Homozygous NDUFA2 variant identified.

PMID: 18513682 - report a patient with an isolated complex I deficiency expressed in skin fibroblasts as well as muscle tissue. Normal antenatal course reported - D5 of life diagnosed with hypertrophic cardiomyopathy was diagnosed. Other phenotypic features included developmental delay, regression, MRI anomalies (cerebral atrophy, hypoplasia corpus callosum), seizures.
Sources: Literature
Microcephaly v1.98 RBL2 Elena Savva gene: RBL2 was added
gene: RBL2 was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: RBL2 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: RBL2 were set to PMID: 33980986; 32105419; 9806916
Phenotypes for gene: RBL2 were set to Severe motor and cognitive impairment; Intellectual disability; Brunet-Wagner neurodevelopmental syndrome MIM#619690
Review for gene: RBL2 was set to AMBER
Added comment: PMID: 33980986: 2 unrelated patients (3 total) with infantile hypotonia, severe developmental delay and microcephaly. Functional studies on patient fibroblasts supports loss of protein and mRNA expression. Patients were homozygous for a PTC, and a CNV (exon 4-5 del)

PMID: 32105419: affecting siblings with severe intellectual disability, stereotypies and dysmorphic features. Chet PTC/CNV (exon 13-17 del).

3 unrelated families - 2/3 corpus callosum hypoplasia/cerebral atrophy, 2/3 epilepsy, 2/3 microcephaly

PMID: 9806916: mouse model in support
Sources: Literature
Microcephaly v1.80 AP3B2 Zornitza Stark gene: AP3B2 was added
gene: AP3B2 was added to Microcephaly. Sources: Expert Review
Mode of inheritance for gene: AP3B2 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: AP3B2 were set to 27431290; 27866705; 32705489
Phenotypes for gene: AP3B2 were set to Developmental and epileptic encephalopathy 48, MIM# 617276
Review for gene: AP3B2 was set to GREEN
Added comment: More than 9 unrelated families reported. Disorder is characterised by ID, epilepsy, optic atrophy and microcephaly in some.
Sources: Expert Review
Microcephaly v1.74 FOXR1 Paul De Fazio gene: FOXR1 was added
gene: FOXR1 was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: FOXR1 was set to MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Publications for gene: FOXR1 were set to 34723967
Phenotypes for gene: FOXR1 were set to Postnatal microcephaly, progressive brain atrophy and global developmental delay
Review for gene: FOXR1 was set to AMBER
gene: FOXR1 was marked as current diagnostic
Added comment: 1 patient described with a de novo missense variant. Phenotypes include: postnatal microcephaly, progressive brain atrophy, skeletal abnormalities, brain abnormalities, ophthalmic abnormalities, neuromuscular abnormalities, and dysmorphic features. A variant in ATP1A3 was considered to have contributed to the final phenotype.

In vitro functional evidence is supportive of pathogenicity (variant causes protein instability and abnormal nuclear aggregation).

A mouse knockout has comparable phenotypes, and a severe survival deficit.

Rated amber (1 patient, functional evidence, mouse model).
Sources: Literature
Microcephaly v1.67 MYH10 Krithika Murali gene: MYH10 was added
gene: MYH10 was added to Microcephaly. Sources: Expert list,Literature
Mode of inheritance for gene: MYH10 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: MYH10 were set to 24825879; 24901346; 25356899; 22495309; 25003005
Phenotypes for gene: MYH10 were set to Microcephaly; Intellectual Disability
Review for gene: MYH10 was set to GREEN
Added comment: De novo variants were identified in 5 unrelated individuals with moderate-severe ID and developmental delay.

Other reported phenotypic features include microcephaly (4/5), IUGR/failure to thrive (4/5), cerebral atrophy (3/5), hydrocephalus (2/5), congenital bilateral hip dysplasia (2/5), cerebellar atrophy (1/5), congenital diaphragmatic hernia (1/5), cranial nerve palsy (1/5), nystagmus (1/5), dysplastic kidney (1/5).

Defects in heart development, body wall closure and other birth defects noted in mouse models.
Sources: Expert list, Literature
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
Microcephaly v1.51 HMGB1 Chirag Patel Phenotypes for gene: HMGB1 were changed from 0 ALDH5A1 1 ALDH7A1 0 ALG1 0 ALG11 1 ALG12 1 ALG13 1 ALG14 1 ALG3 1 ALG6 1 ALG8 1 ALG9 1 ALKBH8 1 ALMS1 0 AMER1 0 AMPD2 0 AMT 0 ANK2 2 ANKRD11 0 ANKRD17 2 AP1B1 1 AP1G1 1 AP1S1 0 AP1S2 0 AP2M1 1 AP3B1 0 AP3B2 1 AP4B1 1 AP4E1 1 AP4M1 1 AP4S1 1 APC2 1 APOPT1 1 ARCN1 1 ARF1 1 ARFGEF2 0 ARG1 0 ARHGEF9 1 ARID1A 1 ARID1B 1 ARID2 2 ARL13B 1 ARL6 1 ARMC9 1 ARSA 0 ARSB 1 ARSE 1 ARV1 0 ARX 0 ASAH1 0 ASH1L 1 ASL 1 ASNS 1 ASPA 0 ASPM 1 ASS1 0 ASTN1 1 ASXL1 0 ASXL2 0 ASXL3 1 ATAD1 1 ATAD3A 1 ATG7 1 ATIC 1 ATM 0 ATN1 1 ATP13A2 0 ATP1A1 1 ATP1A2 1 ATP1A3 2 ATP6AP1 1 ATP6AP2 0 ATP6V0A2 0 ATP6V1A 1 ATP6V1B2 0 ATP7A 0 ATP8A2 1 ATR 0 ATRX 0 AUH 0 AUTS2 1 B3GALNT2 1 B3GLCT 0 B4GALNT1 0 B4GALT1 1 B4GALT7 1 B9D2 1 BAZ2B 1 BBS1 0 BBS10 0 BBS12 0 BBS2 0 BBS4 1 BBS5 1 BBS7 1 BBS9 1 BCAP31 0 BCAS3 1 BCKDHA 0 BCKDHB 0 BCKDK 0 BCL11A 0 BCL11B 1 BCOR 1 BCORL1 1 BCS1L 0 BICRA 3 BLM 0 BMP4 0 BOLA3 0 BPTF 1 BRAF 0 BRAT1 1 BRD4 2 BRF1 1 BRIP1 1 BRPF1 1 BRSK2 1 BRWD3 0 BSCL2 0 BSND 1 BTD 0 BUB1B 0 C12orf4 0 C12orf57 0 C12orf65 0 C2CD3 1 C2orf69 1 C5orf42 1 CA2 1 CA8 1 CACNA1A 0 CACNA1B 1 CACNA1C 0 CACNA1D 1 CACNA1E 1 CACNA1G 2 CACNA1I 1 CACNA2D2 1 CAD 1 CAMK2A 0 CAMK2B 1 CAMK4 1 CAMTA1 2 CAPN15 1 CARS 1 CARS2 1 CASK 0 CBL 0 CBS 0 CBY1 1 CC2D1A 1 CC2D2A 0 CCBE1 1 CCDC22 0 CCDC47 1 CCDC88A 1 CCDC88C 2 CCND2 0 CDC42 0 CDC42BPB 1 CDH11 2 CDH15 0 CDH2 1 CDK10 0 CDK13 1 CDK19 1 CDK5RAP2 1 CDK8 1 CDKL5 0 CDON 0 CELF2 1 CENPF 0 CENPJ 0 CEP104 1 CEP120 1 CEP135 1 CEP152 1 CEP164 1 CEP290 0 CEP41 0 CEP55 1 CEP57 1 CEP83 1 CEP85L 1 CHAMP1 0 CHD1 1 CHD2 0 CHD3 1 CHD4 1 CHD5 1 CHD7 0 CHD8 0 CHKB 0 CHMP1A 1 CIC 0 CIT 0 CKAP2L 0 CLCN3 1 CLCN4 1 CLCN6 1 CLCNKB 1 CLN3 0 CLN5 1 CLN6 0 CLN8 0 CLP1 1 CLPB 1 CLTC 1 CNKSR2 0 CNNM2 0 CNOT1 3 CNOT2 1 CNOT3 2 CNPY3 1 CNTNAP1 1 CNTNAP2 0 COASY 1 COG1 0 COG4 1 COG5 1 COG6 1 COG7 0 COG8 1 COL4A1 0 COL4A2 0 COL4A3BP 0 COLEC11 0 COPB2 2 COQ4 0 COQ8A 0 COX10 1 COX15 0 CPS1 0 CRADD 1 CRB2 0 CREBBP 1 CSDE1 1 CSNK1G1 2 CSNK2A1 0 CSNK2B 0 CSPP1 1 CSTB 0 CTBP1 1 CTCF 1 CTDP1 0 CTNNA2 1 CTNNB1 0 CTSA 0 CTSD 0 CTU2 1 CUL3 2 CUL4B 0 CUX1 1 CUX2 1 CWC27 0 CWF19L1 1 CXorf56 1 CYB5R3 0 CYC1 0 CYFIP2 1 D2HGDH 0 DAG1 0 DARS 1 DARS2 0 DBT 0 DCAF17 0 DCHS1 0 DCPS 1 DCX 0 DDB1 2 DDC 0 DDHD2 0 DDX11 1 DDX23 2 DDX3X 0 DDX59 1 DDX6 1 DEAF1 1 DEGS1 1 DENND5A 1 DEPDC5 0 DHCR24 0 DHCR7 0 DHDDS 1 DHFR 1 DHPS 1 DHTKD1 0 DHX30 1 DHX37 2 DIAPH1 0 DIS3L2 0 DKC1 0 DLD 0 DLG3 1 DLG4 2 DLL1 1 DMD 0 DMXL2 1 DNAJC12 1 DNAJC19 0 DNM1 1 DNM1L 1 DNMT3A 1 DNMT3B 0 DOCK3 1 DOCK6 1 DOCK7 1 DOCK8 0 DOLK 1 DPAGT1 1 DPF2 0 DPH1 1 DPM1 0 DPM2 1 DPYD 1 DPYS 1 DPYSL5 1 DYM 1 DYNC1H1 0 DYNC1I2 1 DYRK1A 1 EARS2 1 EBF3 1 EBP 1 EDEM3 2 EED 1 EEF1A2 1 EEF2 1 EFTUD2 1 EHMT1 1 EIF2AK2 2 EIF2AK3 0 EIF2S3 1 EIF3F 1 EIF4A3 1 EIF5A 1 ELAC2 0 ELOVL4 0 ELP2 0 EMC1 1 EMC10 2 EML1 1 EP300 0 EPG5 1 ERCC1 1 ERCC2 0 ERCC3 0 ERCC5 1 ERCC6 0 ERCC6L2 0 ERCC8 0 ERLIN2 1 ESCO2 0 ETFA 1 ETFB 1 ETFDH 1 ETHE1 0 EXOC7 1 EXOSC3 0 EXOSC8 1 EXT2 1 EXTL3 1 EZH2 1 FAM111A 0 FAM126A 0 FAM20C 0 FAM50A 1 FAR1 1 FARS2 1 FARSA 1 FARSB 1 FAT4 0 FBRSL1 1 FBXL3 2 FBXL4 0 FBXO11 1 FBXO28 1 FBXO31 2 FBXW11 2 FBXW7 1 FDFT1 1 FGD1 1 FGF12 0 FGF13 1 FGF14 1 FGFR1 1 FGFR3 1 FH 0 FIG4 0 FITM2 1 FKRP 0 FKTN 0 FLNA 0 FLVCR2 0 FMN2 0 FMR1 0 FOLR1 1 FOXG1 0 FOXP1 2 FOXP2 1 FOXRED1 0 FRAS1 1 FRMPD4 1 FRRS1L 1 FTCD 1 FTSJ1 0 FUCA1 0 FUT8 1 GABBR2 1 GABRA1 1 GABRA2 1 GABRA5 1 GABRB2 0 GABRB3 1 GABRG2 1 GAD1 1 GALC 0 GALE 0 GALNT2 1 GALT 1 GAMT 0 GATA6 1 GATAD2B 1 GATM 1 GCDH 0 GCH1 0 GDI1 0 GEMIN5 1 GFAP 0 GFER 1 GFM1 0 GJC2 0 GK 0 GLB1 0 GLDC 0 GLI2 0 GLI3 0 GLIS3 1 GLS 1 GLUL 0 GLYCTK 0 GM2A 0 GMPPA 0 GMPPB 0 GNAI1 2 GNAO1 1 GNAS 1 GNB1 1 GNB2 3 GNB5 1 GNE 1 GNPAT 0 GNPTAB 0 GNPTG 1 GNS 0 GOLGA2 2 GOT2 1 GPAA1 1 GPC3 0 GPC4 1 GPT2 1 GRIA1 1 GRIA2 2 GRIA3 1 GRIA4 0 GRID2 0 GRIK2 1 GRIN1 1 GRIN2A 1 GRIN2B 1 GRIN2D 1 GRM1 0 GRM7 1 GSS 1 GTF2H5 0 GTF3C3 1 GTPBP2 1 GTPBP3 0 GUSB 1 H3F3A 1 H3F3B 1 HACE1 1 HADHA 0 HADHB 1 HCCS 0 HCFC1 0 HCN1 0 HDAC4 2 HDAC8 1 HECW2 2 HEPACAM 0 HERC1 0 HERC2 2 HESX1 0 HEXA 0 HEXB 0 HGSNAT 1 HIBCH 0 HID1 1 HIRA 1 HIST1H1E 1 HIST1H4C 2 HIVEP2 1 HK1 2 HLCS 0 HMGB1 1 HMGCL 0 HNMT 1 HNRNPH1 1 HNRNPH2 0 HNRNPK 0 HNRNPR 1 HNRNPU 1 HOXA1 0 HPD 0 HPDL 2 HPRT1 0 HRAS 1 HS2ST1 3 HSD17B10 0 HSD17B4 1 HSPD1 0 HSPG2 1 HTRA2 0 HUWE1 1 IARS 1 IBA57 1 IDH2 0 IDS 0 IDUA 0 IER3IP1 1 IFIH1 0 IFT172 0 IFT27 1 IFT74 1 IGF1 1 IGF1R 1 IKBKG 0 IL1RAPL1 0 IMPDH2 2 INPP5E 1 INPP5K 0 INTS1 1 IQSEC1 1 IQSEC2 1 IREB2 1 IRF2BPL 1 ISCA1 1 ISCA2 1 ISPD 0 ITPA 0 ITPR1 0 IVD 0 JAM3 1 JARID2 1 JMJD1C 2 KANSL1 1 KARS 1 KAT5 2 KAT6A 0 KAT6B 0 KAT8 1 KATNB1 1 KCNA2 1 KCNB1 1 KCNC1 0 KCNH1 1 KCNJ10 0 KCNJ11 0 KCNJ6 1 KCNK4 1 KCNK9 1 KCNMA1 1 KCNN2 1 KCNN3 1 KCNQ2 0 KCNQ3 1 KCNQ5 1 KCNT1 0 KCNT2 1 KCTD3 0 KCTD7 0 KDM1A 1 KDM3B 2 KDM4B 2 KDM5B 1 KDM5C 1 KDM6A 0 KDM6B 1 KIAA0586 0 KIAA1109 0 KIDINS220 1 KIF11 2 KIF14 1 KIF1A 2 KIF1BP 1 KIF21B 1 KIF2A 1 KIF5A 0 KIF5C 1 KIF7 0 KLF7 1 KLHL7 0 KMT2A 1 KMT2B 1 KMT2C 1 KMT2D 2 KMT2E 1 KMT5B 1 KNL1 1 KPTN 1 KRAS 0 L1CAM 0 L2HGDH 0 LAMA1 0 LAMA2 1 LAMB1 1 LAMB2 1 LAMC3 0 LAMP2 0 LARGE1 0 LARP7 1 LARS 2 LARS2 0 LIAS 1 LIG4 0 LINGO4 1 LINS1 0 LIPT1 1 LMBRD1 1 LMBRD2 2 LMNB1 2 LMNB2 2 LONP1 0 LRP2 0 LRPPRC 0 LSS 1 LTBP1 1 LYRM7 1 LZTFL1 1 LZTR1 1 MAB21L1 2 MAB21L2 1 MACF1 1 MADD 3 MAF 0 MAGEL2 1 MAN1B1 1 MAN2B1 1 MANBA 1 MAOA 1 MAP1B 1 MAP2K1 0 MAP2K2 0 MAPK1 2 MAPK8IP3 2 MAPKAPK5 1 MAPRE2 1 MASP1 1 MAST1 1 MAST3 1 MAT1A 0 MBD5 1 MBOAT7 0 MBTPS2 0 MCCC1 0 MCCC2 0 MCM3AP 1 MCOLN1 1 MCPH1 1 MDH2 0 MECP2 1 MED12 0 MED12L 1 MED13 1 MED13L 0 MED17 1 MED23 0 MED25 1 MED27 2 MEF2C 1 MEGF8 2 MEIS2 0 METTL23 2 METTL5 1 MFF 0 MFSD2A 1 MFSD8 1 MGAT2 1 MICU1 1 MID1 0 MIR17HG 2 MKKS 0 MKS1 0 MLC1 0 MLYCD 1 MMAA 0 MMAB 0 MMACHC 0 MMADHC 0 MN1 2 MOCS1 1 MOCS2 0 MOGS 1 MORC2 2 MPDU1 1 MPDZ 1 MPLKIP 1 MPP5 1 MPV17 1 MRPS22 0 MRPS34 1 MSL3 1 MSMO1 1 MTFMT 0 MTHFR 0 MTHFS 1 MTO1 1 MTOR 0 MTR 1 MTRR 1 MUT 0 MVK 0 MYCN 0 MYO5A 0 MYT1L 2 NAA10 0 NAA15 1 NACC1 0 NAGA 0 NAGLU 0 NALCN 0 NANS 0 NARS 2 NBEA 1 NCAPD2 2 NCAPG2 1 NCDN 2 NCKAP1 1 NDE1 1 NDP 0 NDST1 0 NDUFA1 0 NDUFA2 1 NDUFAF1 1 NDUFS1 1 NDUFS4 1 NDUFS7 0 NDUFS8 0 NDUFV1 0 NEDD4L 1 NEMF 2 NEU1 0 NEUROD2 1 NEXMIF 1 NF1 0 NFASC 1 NFIA 0 NFIB 1 NFIX 0 NFU1 1 NGLY1 0 NHS 0 NIPBL 1 NKAP 1 NKX2-1 0 NLGN3 0 NONO 0 NOVA2 1 NPC1 0 NPC2 0 NPHP1 0 NPHP3 1 NR2F1 1 NR4A2 2 NRAS 0 NRROS 1 NRXN1 0 NSD1 0 NSD2 1 NSDHL 1 NSUN2 0 NT5C2 1 NTNG2 1 NTRK1 0 NTRK2 1 NUBPL 0 NUDT2 1 NUP188 1 NUP214 2 NUS1 1 OCLN 0 OCRL 0 ODC1 1 OFD1 0 OGT 1 OPA3 0 OPHN1 0 OSGEP 1 OTC 0 OTUD5 2 OTUD6B 0 OTX2 0 OXR1 1 P4HTM 1 PACS1 1 PACS2 1 PAFAH1B1 1 PAH 0 PAK1 1 PAK3 1 PAM16 1 PARN 0 PARP6 1 PAX6 0 PAX8 0 PBX1 0 PC 0 PCCA 0 PCCB 0 PCDH12 1 PCDH19 0 PCDHGC4 1 PCGF2 1 PCNT 0 PCYT2 1 PDE10A 1 PDE4D 0 PDE6D 1 PDGFRB 0 PDHA1 0 PDHB 1 PDHX 0 PDP1 1 PDSS1 1 PDSS2 0 PEPD 0 PET100 1 PEX1 0 PEX10 0 PEX11B 0 PEX12 0 PEX13 0 PEX14 0 PEX16 0 PEX19 0 PEX2 0 PEX26 0 PEX3 0 PEX5 0 PEX6 0 PEX7 0 PGAP1 0 PGAP2 1 PGAP3 1 PGK1 1 PGM2L1 1 PGM3 1 PHACTR1 1 PHF21A 2 PHF6 0 PHF8 1 PHGDH 0 PHIP 1 PI4KA 1 PIBF1 2 PIDD1 1 PIGA 1 PIGB 2 PIGC 1 PIGG 1 PIGH 1 PIGK 1 PIGL 1 PIGN 1 PIGO 1 PIGP 2 PIGQ 1 PIGS 1 PIGT 1 PIGU 1 PIGV 1 PIGW 0 PIK3C2A 1 PIK3CA 0 PIK3R2 1 PISD 1 PITRM1 1 PLA2G6 0 PLAA 0 PLCB1 1 PLK4 1 PLP1 0 PLPBP 1 PMM2 0 PMPCA 1 PMPCB 1 PNKP 1 PNPLA6 0 PNPT1 1 POGZ 1 POLA1 1 POLG 0 POLR1C 1 POLR2A 1 POLR3A 0 POLR3B 0 POLRMT 1 POMGNT1 0 POMGNT2 0 POMK 1 POMT1 0 POMT2 0 PORCN 0 POU3F3 1 PPIL1 1 PPM1D 1 PPP1CB 1 PPP1R12A 1 PPP1R15B 0 PPP1R21 1 PPP2CA 1 PPP2R1A 1 PPP2R5D 1 PPP3CA 0 PPT1 0 PQBP1 1 PRICKLE2 1 PRKAR1A 1 PRKAR1B 1 PRMT7 0 PRODH 0 PRPS1 0 PRR12 1 PRSS12 0 PRUNE1 1 PSAP 1 PSMD12 0 PSPH 0 PTCH1 0 PTCHD1 0 PTDSS1 0 PTEN 0 PTF1A 0 PTPN11 0 PTPN23 1 PTPN4 1 PTRHD1 1 PTS 0 PUF60 1 PUM1 1 PURA 1 PUS1 0 PUS3 1 PUS7 1 PYCR1 0 PYCR2 0 QARS 1 QDPR 0 QRICH1 1 RAB11B 1 RAB18 0 RAB23 0 RAB39B 0 RAB3GAP1 1 RAB3GAP2 0 RAC1 1 RAC3 1 RAD21 1 RAF1 0 RAI1 1 RALA 1 RALGAPA1 1 RAP1B 2 RARB 1 RARS 1 RARS2 0 RBBP8 0 RBM10 1 RELN 0 RERE 1 RFT1 1 RFX3 1 RFX4 1 RFX7 1 RHEB 1 RHOBTB2 1 RIT1 0 RLIM 1 RMND1 0 RNASEH2A 0 RNASEH2B 0 RNASEH2C 0 RNASET2 0 RNF125 0 RNF13 1 RNF220 1 RNU4ATAC 1 RNU7-1 2 ROGDI 1 ROR2 0 RORA 1 RPGRIP1L 0 RPIA 1 RPL10 1 RPS6KA3 0 RRM2B 0 RSRC1 1 RTEL1 0 RTN4IP1 1 RTTN 1 SAMD9 0 SAMHD1 0 SARS2 1 SATB1 2 SATB2 1 SBF1 1 SC5D 0 SCAF4 1 SCAMP5 2 SCAPER 1 SCN1A 1 SCN1B 1 SCN2A 0 SCN3A 1 SCN8A 0 SCO2 0 SDCCAG8 1 SDHA 0 SDHAF1 1 SEPSECS 1 SERAC1 0 SET 0 SETBP1 0 SETD1A 1 SETD1B 1 SETD2 1 SETD5 1 SFXN4 1 SGPL1 0 SGSH 1 SHANK2 0 SHANK3 1 SHH 0 SHMT2 2 SHOC2 1 SIAH1 1 SIK1 0 SIL1 1 SIN3A 0 SIN3B 1 SIX3 0 SKI 0 SLC12A2 3 SLC12A5 0 SLC12A6 0 SLC13A5 1 SLC16A2 1 SLC17A5 0 SLC18A2 1 SLC19A3 0 SLC1A1 1 SLC1A2 1 SLC1A4 1 SLC25A1 0 SLC25A12 0 SLC25A15 0 SLC25A22 0 SLC2A1 0 SLC33A1 0 SLC35A1 0 SLC35A2 0 SLC35C1 0 SLC39A14 0 SLC39A8 1 SLC46A1 1 SLC4A4 0 SLC5A6 1 SLC6A1 1 SLC6A17 0 SLC6A19 0 SLC6A3 0 SLC6A8 0 SLC6A9 1 SLC9A6 1 SLX4 0 SMAD4 0 SMARCA2 1 SMARCA4 0 SMARCA5 1 SMARCB1 0 SMARCC2 1 SMARCD1 1 SMARCE1 0 SMC1A 0 SMC3 0 SMG8 2 SMG9 1 SMOC1 1 SMPD1 1 SMPD4 1 SMS 0 SNAP25 1 SNAP29 0 SNRPB 1 SNX14 0 SNX27 1 SON 1 SOS1 1 SOS2 1 SOX10 0 SOX11 0 SOX2 1 SOX4 1 SOX5 1 SOX6 2 SOX9 0 SPART 1 SPATA5 1 SPECC1L 0 SPEN 2 SPG11 1 SPOP 1 SPR 0 SPRED1 1 SPTAN1 1 SPTBN1 1 SPTBN2 0 SPTBN4 2 SRCAP 2 SRD5A3 0 SSR4 0 ST3GAL3 0 ST3GAL5 2 STAG1 0 STAG2 1 STAMBP 1 STIL 1 STRA6 0 STRADA 1 STT3A 2 STX1B 0 STXBP1 0 SUCLA2 1 SUCLG1 0 SUFU 1 SUMF1 1 SUOX 0 SUPT16H 1 SURF1 0 SUZ12 2 SVBP 2 SYN1 0 SYNCRIP 2 SYNGAP1 1 SYNJ1 0 SYP 0 SYT1 2 SZT2 0 TAF1 1 TAF2 2 TAF6 1 TANC2 2 TANGO2 0 TAOK1 1 TASP1 1 TAT 0 TAZ 0 TBC1D20 1 TBC1D23 0 TBC1D24 0 TBCD 1 TBCE 0 TBCK 0 TBL1XR1 0 TBR1 1 TBX1 1 TCF20 1 TCF4 0 TCF7L2 2 TCN2 1 TCTN2 0 TCTN3 1 TDP2 1 TECPR2 1 TELO2 1 TENM3 1 TERT 2 TET3 1 TFE3 2 TGIF1 1 TH 0 THOC2 1 THOC6 0 THRA 0 TIMM50 1 TINF2 1 TLK2 1 TMCO1 0 TMEM106B 1 TMEM165 1 TMEM216 0 TMEM222 2 TMEM237 1 TMEM240 0 TMEM5 0 TMEM67 1 TMEM70 0 TMEM94 1 TMTC3 1 TMX2 1 TNPO2 1 TNR 1 TNRC6B 2 TOE1 1 TOGARAM1 1 TP73 1 TPP1 1 TPP2 1 TRAF7 1 TRAIP 1 TRAK1 1 TRAPPC11 1 TRAPPC12 1 TRAPPC4 1 TRAPPC6B 1 TRAPPC9 2 TREX1 0 TRIM8 1 TRIO 1 TRIP12 1 TRIT1 1 TRMT1 1 TRMT10A 1 TRNT1 1 TRPM3 1 TRRAP 1 TSC1 0 TSC2 0 TSEN15 1 TSEN2 0 TSEN54 0 TSFM 0 TSHB 0 TSPAN7 0 TSPOAP1 1 TTC19 0 TTC37 0 TTC5 2 TTC8 1 TTI2 1 TUBA1A 0 TUBB 1 TUBB2A 1 TUBB2B 0 TUBB3 0 TUBB4A 0 TUBG1 0 TUBGCP2 1 TUBGCP6 1 TUSC3 1 TWIST1 0 UBA5 0 UBE2A 1 UBE3A 0 UBE3B 1 UBE4A 1 UBR1 1 UBR7 1 UBTF 1 UFC1 1 UFM1 1 UFSP2 2 UGDH 1 UGP2 1 UMPS 1 UNC80 1 UPB1 2 UPF3B 2 USP18 1 USP7 2 USP9X 1 VAMP2 2 VARS 1 VARS2 1 VIPAS39 1 VLDLR 0 VPS11 1 VPS13B 0 VPS33B 1 VPS41 1 VPS4A 3 VPS53 0 VRK1 0 WAC 1 WARS2 1 WASF1 2 WASHC4 3 WDFY3 1 WDPCP 1 WDR11 2 WDR26 1 WDR37 1 WDR4 2 WDR45 0 WDR45B 1 WDR62 1 WDR73 0 WDR81 1 WNT1 1 WNT5A 2 WWOX 0 XPA 2 XRCC4 0 XYLT1 2 YARS 1 YIF1B 2 YWHAG 1 YY1 0 ZBTB18 0 ZBTB20 0 ZBTB24 1 ZC4H2 0 ZDHHC9 0 ZEB2 1 ZFHX4 1 ZFYVE26 0 ZIC1 1 ZIC2 0 ZMIZ1 2 ZMYM2 2 ZMYND11 1 ZNF142 1 ZNF148 1 ZNF292 2 ZNF335 1 ZNF462 2 ZNF526 1 ZNF699 1 ZNF711 1 ZSWIM6 1 AASS 1 ACADSB 1 ACAT1 1 ADAM22 1 AKAP6 1 ALDOA 1 ALX1 1 ALX3 1 ALX4 1 AP2S1 1 ARF3 2 ARHGAP31 1 ARHGAP35 1 ARNT2 1 ATP6V0A1 1 ATP9A 1 ATXN2L 1 B3GALT6 1 B9D1 1 BBIP1 1 C16orf62 1 C8orf37 1 CACNB4 1 CAPZA2 1 CCDC174 1 CCDC78 1 CD96 1 CDK16 1 CDK6 1 CDKN1C 1 CEP63 1 CEP89 1 CHRM1 1 CHST14 1 CLCN2 1 CNKSR1 1 COPB1 1 COQ2 1 COQ9 1 COX14 1 COX20 1 COX7B 1 CPE 1 CRBN 1 CTC1 1 CTNND1 1 CTNND2 1 DDOST 1 DHX32 1 DLAT 1 DPH2 1 DPP6 2 DSCAM 1 EEF1B2 1 EEF1D 1 EIF2A 1 EMG1 1 EMX2 1 EPHA7 1 ERGIC3 2 EXOC2 2 EXOSC2 1 FANCB 1 FANCD2 1 FANCG 1 FASTKD2 1 FEM1B 1 FGFR2 1 FIBP 1 FOXP4 1 FRMD4A 1 FRY 1 FTO 1 FUK 1 GBA 1 GEMIN4 1 GIGYF1 1 GMNN 1 GNAI2 1 GNAQ 1 GORAB 1 GPHN 1 GSX2 1 GTF2E2 2 HARS 2 HAX1 1 HEATR5B 1 HIST1H4J 1 HNRNPD 1 HSPA9 1 HTT 1 HYLS1 1 ICE1 1 IMPA1 1 INPP4A 1 IQSEC3 2 ITCH 1 ITFG2 2 ITGA7 1 JAKMIP1 1 KCNJ1 1 KLHL15 1 LAS1L 1 LINGO1 1 LIPT2 1 LMAN2L 1 LNPK 1 LRRC32 1 LYST 1 MAGT1 1 MMGT1 1 MRPL3 2 MSL2 1 NBN 1 NDUFA10 1 NDUFA11 1 NDUFA9 1 NDUFAF2 1 NDUFAF3 1 NDUFAF4 1 NDUFAF5 1 NDUFAF6 1 NDUFB3 1 NDUFB9 1 NDUFS2 1 NDUFS3 1 NDUFS6 1 NDUFV2 1 NECAP1 1 NHP2 1 NMNAT1 1 NR2F2 1 NSF 1 PAX1 1 PDCD6IP 1 PDE2A 1 PHC1 1 PIEZO2 1 PIGY 1 PJA1 1 PLCH1 1 PLEKHG2 1 PLOD3 1 PLXNA2 1 PPP2R5C 1 PRKACB 2 PRKD1 2 PRRT2 1 PSAT1 1 PSMB1 1 PSMC3 1 PSMC5 1 PTRH2 1 RAB11A 1 RAB14 1 RAP1GDS1 1 RIC1 1 RMRP 1 RNF113A 1 RNF2 1 RPS23 1 RSPRY1 1 RUSC2 1 SACS 1 SEC31A 1 SEMA3E 1 SEMA5A 1 SHROOM4 1 SLC2A2 1 SLC35A3 2 SLC45A1 1 SLC5A5 1 SLC9A7 1 SMARCD2 1 SNORD118 1 SNRPN 1 SOX3 2 SRRM2 1 STN1 1 TACO1 1 TAF13 1 TAF1C 1 TARS 1 TBC1D2B 2 TBC1D7 1 TGFB1 1 THRB 1 TKFC 1 TKT 2 TMEM231 1 TMLHE 1 TNIK 1 TOP2B 1 TRAPPC2L 1 TRIP13 1 TTI1 2 TUBGCP4 1 TUFM 1 U2AF2 1 UPF1 1 UQCC2 1 USP27X 1 VPS37A 1 VPS50 1 VPS51 1 WFS1 2 YAP1 1 ZBTB11 1 ZBTB16 1 ZC3H14 4 ZFHX3 2 ZNF407 2 ZNF668 1 ABCC6 2 ABCG5 1 ACOX2 1 ACTA1 1 ADA2 1 ADAMTSL2 1 ADCY5 1 ADGRB3 1 ADGRG6 2 ADRA2B 1 AFG3L2 1 AGGF1 1 AGK 1 AGL 1 AGO3 1 AGPS 1 AGT 1 AGTR2 1 AKR1C2 1 ALDOB 1 ALG2 1 ALS2 1 ANK3 1 ANKH 1 APTX 1 AR 1 ARHGEF6 1 ASMT 1 ATL1 1 ATP10A 1 ATP2A2 1 ATP2B3 1 ATP2C2 1 ATXN10 1 AVP 1 AVPR1A 1 AVPR2 1 B3GAT3 1 BDNF 1 BICD2 1 BIN1 1 BMPER 1 C19orf12 1 C3orf58 1 CA5A 1 CACNG2 1 CANT1 1 CCDC8 1 CDC6 1 CDK5R1 1 CDT1 1 CFH 1 CFHR1 1 CFHR3 1 CHRNA4 1 CISD2 1 CLCNKA 1 CLIC2 1 CLIP2 1 CLPP 1 CMAS 1 CNTN3 1 CNTN4 1 CNTN6 1 CNTNAP5 1 COA3 1 COL18A1 1 COL1A2 1 COLEC10 1 COQ5 1 CORO1A 1 COX4I2 1 COX6B1 1 CP 1 CPA6 1 CRKL 1 CRLF1 1 CRTAP 1 CTSF 1 CUBN 1 CYFIP1 1 CYP27A1 1 CYP2U1 1 DDR2 1 DISP1 1 DLGAP2 1 DLK1 2 DNAJA1 1 DNAJC3 1 DNAJC6 1 DOCK4 1 DOK7 1 DPM3 1 DPP10 1 DSCR3 1 DSE 1 DTYMK 1 DUOXA2 1 DYNC2H1 1 EDC3 1 EDNRB 1 EFNB1 1 EFNB2 1 EIF2AK1 1 EIF2B1 1 EIF2B2 1 EIF2B3 1 EIF2B4 1 EIF2B5 1 ELMOD1 1 EOGT 1 EOMES 1 EPB41L1 1 EPM2A 1 ERCC4 1 ERF 1 ERMARD 1 ETS1 1 EVC 1 EVC2 1 FA2H 1 FAAH2 1 FAM160B1 1 FBLN5 1 FBN1 1 FDXR 1 FGF3 1 FLNB 1 FLVCR1 1 FTL 1 FZD3 1 G6PC3 1 GABRG1 1 GAN 1 GATA1 1 GBA2 1 GBE1 1 GCK 1 GCSH 1 GHR 1 GJA1 1 GJB1 1 GLRA1 1 GLUD1 1 GNA14 1 GOSR2 1 GPSM2 1 GRPR 1 GSPT2 1 GTF2I 1 GTF2IRD1 1 GYS2 1 H19 1 HADH 1 HAL 1 HARS2 1 HOXD10 1 IFT140 1 IGBP1 1 IGF2 1 IMMP2L 1 INS 1 INSR 1 INTS8 1 IRX5 1 IYD 1 JAG1 1 JPH3 1 KANK1 1 KATNAL2 1 KCNC3 1 KCND3 1 KCTD13 1 KIF16B 1 KIF1B 1 KIF21A 1 KIF4A 1 KIRREL3 1 KLF8 1 KLLN 1 KYNU 1 LBR 1 LGI4 1 LHX3 1 LMNA 1 LRP5 1 LSM1 1 LSM11 2 MACROD2 1 MAP4K4 2 MARS2 2 MCM4 1 MEPCE 1 MET 1 METAP1 1 MFN2 1 MGME1 1 MGP 1 MID2 1 MLH1 1 MNX1 1 MPI 1 MPZ 1 MRAP 1 MRPS16 1 MSH6 1 MTM1 1 MTMR2 1 MTPAP 1 MYH3 1 MYMK 1 MYO7A 1 MYT1 1 NAGS 1 NDN 1 NEGR1 1 NGF 1 NHEJ1 1 NHLRC1 1 NIN 1 NLGN1 1 NLGN4X 1 NOP10 1 NOTCH3 1 NRXN2 1 NTNG1 1 NUP62 1 ORC1 1 ORC4 1 ORC6 1 OTUD7A 2 PANK2 1 PAX2 1 PAX3 1 PAX7 1 PCBD1 1 PCDH10 1 PCDH15 1 PCDH9 1 PCLO 1 PDE11A 1 PDGFB 1 PHKA2 1 PHKG2 1 PIGF 2 PIK3R1 1 PINK1 1 PIP5K1B 1 PNP 1 POC1A 1 POLD1 1 POLD2 1 PON3 1 POP1 1 POU1F1 1 PPM1K 1 PPOX 1 PRDM8 1 PREPL 1 PRF1 1 PRICKLE1 1 PRKDC 1 PRKN 1 PRKRA 1 PRRX1 1 PRX 1 PYGL 1 RAB27A 1 RAB40AL 1 RALGAPB 1 RANBP2 1 RAPSN 1 RASA1 2 RAX 1 RBFOX1 1 RBL2 1 RBM28 1 RBM8A 1 RBPJ 1 RECQL4 1 RET 1 RFX6 1 RIMS1 1 RIN2 1 RING1 1 RNF135 2 RPL11 1 RPS19 1 RPS28 1 RUBCN 1 SALL1 1 SAMD9L 1 SBDS 1 SCN11A 1 SCN9A 1 SCO1 1 SECISBP2 1 SELENOI 1 SELENON 1 SF3B4 1 SGCA 1 SH3TC2 1 SHANK1 1 SLC12A1 1 SLC19A2 1 SLC1A3 1 SLC20A2 1 SLC22A5 1 SLC25A13 1 SLC25A19 1 SLC25A20 1 SLC25A24 1 SLC25A4 2 SLC29A3 1 SLC2A10 1 SLC39A4 1 SLC44A1 2 SLC5A2 1 SLC6A4 1 SLC7A7 1 SLC9A9 1 SMCHD1 1 SMG6 1 SNIP1 1 SNRPA 1 SNRPE 2 SOBP 1 SOST 1 SP7 1 SPAST 1 SPEG 1 SPG7 2 SPINK5 1 SPRTN 1 SPTLC1 1 SRPX2 1 ST7 1 STAC3 1 STAT5B 1 STK3 1 STT3B 1 STX11 1 SYT14 1 TAF8 1 TDGF1 2 TECR 1 TFAP2A 1 TFAP2B 1 TFG 1 TG 1 TGFBR1 1 TGFBR2 1 THAP1 1 TIMM8A 1 TMEM260 1 TP63 1 TPH2 1 TPK1 1 TRAPPC6A 1 TREM2 1 TRHR 1 TRIM32 1 TRIM37 1 TSEN34 1 TSHR 1 TTC21B 1 TTR 1 TUBA8 1 TWNK 1 TXNL4A 1 UBE2U 1 UBR4 2 UCHL1 1 UGT1A1 1 UNC13A 1 UNC13D 1 UQCRB 1 UQCRC2 1 UQCRQ 1 UROC1 1 VAMP1 1 VANGL1 1 VPS45 1 WASHC5 1 WDR13 1 WDR19 1 WDR34 1 WIPI2 1 WRAP53 1 XIST 1 XPNPEP3 1 ZCCHC12 1 ZDHHC15 1 ZFP57 1 ZMYM3 1 ZNF41 1 ZNF423 1 ZNF507 1 ZNF674 1 ZNF804A 1 ZNF81 2 ZNHIT6 1 DIP2B 2 DMPK 2 Add a gene STRs in panel DM1 1 FRAXE 1 FRA12A 1 Add a STR Regions in panel Add a Region Intellectual disability syndromic and non-syndromic Gene: HMGB1 Green List (high evidence) You reviewed HMGB1 (high mobility group box 1) EnsemblGeneIds (GRCh38): ENSG00000189403 EnsemblGeneIds (GRCh37): ENSG00000189403 OMIM: 163905, Gene2Phenotype HMGB1 is in 3 panels Reviews (1) Details History Review feedback Review gene Rating: Rating Mode of Inheritance: Mode of Inheritance Mode of pathogenicity: Mode of pathogenicity Publications (PMID: 1234; 4321): Publications (PMID: 1234; 4321) Phenotypes (separate using a semi-colon -; ): Phenotypes (separate using a semi-colon -; ) Current diagnostic: Current diagnostic Comments: Comments 1 review Your review Chirag Patel (Genetic Health Queensland) Green List (high evidence) 13q12.3 microdeletion syndrome is a rare cause of syndromic ID. Previous studies identified four genes within the ~300 Kb minimal critical region including two candidate protein coding genes: KATNAL1 and HMGB1. Uguen et al. (2021) report 6 patients with LOF variants involving HMGB1 with features similar to 13q12.3 microdeletion syndrome (i.e. developmental delay, language delay, microcephaly, obesity and dysmorphic features). In silico analyses suggest that HMGB1 is likely to be intolerant to LOF, and previous in vitro data are in line with the role of HMGB1 in neurodevelopment. They suggest that haploinsufficiency of the HMGB1 gene may play a critical role in the pathogenesis of the 13q12.3 microdeletion syndrome. Sources: Literature Created: 17 Sep 2021, 4:56 a.m. Mode of inheritance MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted Phenotypes Developmental delay and microcephaly, no OMIM # to Developmental delay and microcephaly, no OMIM #
Microcephaly v1.49 HMGB1 Chirag Patel gene: HMGB1 was added
gene: HMGB1 was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: HMGB1 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: HMGB1 were set to PMID: 34164801
Phenotypes for gene: HMGB1 were set to 0 ALDH5A1 1 ALDH7A1 0 ALG1 0 ALG11 1 ALG12 1 ALG13 1 ALG14 1 ALG3 1 ALG6 1 ALG8 1 ALG9 1 ALKBH8 1 ALMS1 0 AMER1 0 AMPD2 0 AMT 0 ANK2 2 ANKRD11 0 ANKRD17 2 AP1B1 1 AP1G1 1 AP1S1 0 AP1S2 0 AP2M1 1 AP3B1 0 AP3B2 1 AP4B1 1 AP4E1 1 AP4M1 1 AP4S1 1 APC2 1 APOPT1 1 ARCN1 1 ARF1 1 ARFGEF2 0 ARG1 0 ARHGEF9 1 ARID1A 1 ARID1B 1 ARID2 2 ARL13B 1 ARL6 1 ARMC9 1 ARSA 0 ARSB 1 ARSE 1 ARV1 0 ARX 0 ASAH1 0 ASH1L 1 ASL 1 ASNS 1 ASPA 0 ASPM 1 ASS1 0 ASTN1 1 ASXL1 0 ASXL2 0 ASXL3 1 ATAD1 1 ATAD3A 1 ATG7 1 ATIC 1 ATM 0 ATN1 1 ATP13A2 0 ATP1A1 1 ATP1A2 1 ATP1A3 2 ATP6AP1 1 ATP6AP2 0 ATP6V0A2 0 ATP6V1A 1 ATP6V1B2 0 ATP7A 0 ATP8A2 1 ATR 0 ATRX 0 AUH 0 AUTS2 1 B3GALNT2 1 B3GLCT 0 B4GALNT1 0 B4GALT1 1 B4GALT7 1 B9D2 1 BAZ2B 1 BBS1 0 BBS10 0 BBS12 0 BBS2 0 BBS4 1 BBS5 1 BBS7 1 BBS9 1 BCAP31 0 BCAS3 1 BCKDHA 0 BCKDHB 0 BCKDK 0 BCL11A 0 BCL11B 1 BCOR 1 BCORL1 1 BCS1L 0 BICRA 3 BLM 0 BMP4 0 BOLA3 0 BPTF 1 BRAF 0 BRAT1 1 BRD4 2 BRF1 1 BRIP1 1 BRPF1 1 BRSK2 1 BRWD3 0 BSCL2 0 BSND 1 BTD 0 BUB1B 0 C12orf4 0 C12orf57 0 C12orf65 0 C2CD3 1 C2orf69 1 C5orf42 1 CA2 1 CA8 1 CACNA1A 0 CACNA1B 1 CACNA1C 0 CACNA1D 1 CACNA1E 1 CACNA1G 2 CACNA1I 1 CACNA2D2 1 CAD 1 CAMK2A 0 CAMK2B 1 CAMK4 1 CAMTA1 2 CAPN15 1 CARS 1 CARS2 1 CASK 0 CBL 0 CBS 0 CBY1 1 CC2D1A 1 CC2D2A 0 CCBE1 1 CCDC22 0 CCDC47 1 CCDC88A 1 CCDC88C 2 CCND2 0 CDC42 0 CDC42BPB 1 CDH11 2 CDH15 0 CDH2 1 CDK10 0 CDK13 1 CDK19 1 CDK5RAP2 1 CDK8 1 CDKL5 0 CDON 0 CELF2 1 CENPF 0 CENPJ 0 CEP104 1 CEP120 1 CEP135 1 CEP152 1 CEP164 1 CEP290 0 CEP41 0 CEP55 1 CEP57 1 CEP83 1 CEP85L 1 CHAMP1 0 CHD1 1 CHD2 0 CHD3 1 CHD4 1 CHD5 1 CHD7 0 CHD8 0 CHKB 0 CHMP1A 1 CIC 0 CIT 0 CKAP2L 0 CLCN3 1 CLCN4 1 CLCN6 1 CLCNKB 1 CLN3 0 CLN5 1 CLN6 0 CLN8 0 CLP1 1 CLPB 1 CLTC 1 CNKSR2 0 CNNM2 0 CNOT1 3 CNOT2 1 CNOT3 2 CNPY3 1 CNTNAP1 1 CNTNAP2 0 COASY 1 COG1 0 COG4 1 COG5 1 COG6 1 COG7 0 COG8 1 COL4A1 0 COL4A2 0 COL4A3BP 0 COLEC11 0 COPB2 2 COQ4 0 COQ8A 0 COX10 1 COX15 0 CPS1 0 CRADD 1 CRB2 0 CREBBP 1 CSDE1 1 CSNK1G1 2 CSNK2A1 0 CSNK2B 0 CSPP1 1 CSTB 0 CTBP1 1 CTCF 1 CTDP1 0 CTNNA2 1 CTNNB1 0 CTSA 0 CTSD 0 CTU2 1 CUL3 2 CUL4B 0 CUX1 1 CUX2 1 CWC27 0 CWF19L1 1 CXorf56 1 CYB5R3 0 CYC1 0 CYFIP2 1 D2HGDH 0 DAG1 0 DARS 1 DARS2 0 DBT 0 DCAF17 0 DCHS1 0 DCPS 1 DCX 0 DDB1 2 DDC 0 DDHD2 0 DDX11 1 DDX23 2 DDX3X 0 DDX59 1 DDX6 1 DEAF1 1 DEGS1 1 DENND5A 1 DEPDC5 0 DHCR24 0 DHCR7 0 DHDDS 1 DHFR 1 DHPS 1 DHTKD1 0 DHX30 1 DHX37 2 DIAPH1 0 DIS3L2 0 DKC1 0 DLD 0 DLG3 1 DLG4 2 DLL1 1 DMD 0 DMXL2 1 DNAJC12 1 DNAJC19 0 DNM1 1 DNM1L 1 DNMT3A 1 DNMT3B 0 DOCK3 1 DOCK6 1 DOCK7 1 DOCK8 0 DOLK 1 DPAGT1 1 DPF2 0 DPH1 1 DPM1 0 DPM2 1 DPYD 1 DPYS 1 DPYSL5 1 DYM 1 DYNC1H1 0 DYNC1I2 1 DYRK1A 1 EARS2 1 EBF3 1 EBP 1 EDEM3 2 EED 1 EEF1A2 1 EEF2 1 EFTUD2 1 EHMT1 1 EIF2AK2 2 EIF2AK3 0 EIF2S3 1 EIF3F 1 EIF4A3 1 EIF5A 1 ELAC2 0 ELOVL4 0 ELP2 0 EMC1 1 EMC10 2 EML1 1 EP300 0 EPG5 1 ERCC1 1 ERCC2 0 ERCC3 0 ERCC5 1 ERCC6 0 ERCC6L2 0 ERCC8 0 ERLIN2 1 ESCO2 0 ETFA 1 ETFB 1 ETFDH 1 ETHE1 0 EXOC7 1 EXOSC3 0 EXOSC8 1 EXT2 1 EXTL3 1 EZH2 1 FAM111A 0 FAM126A 0 FAM20C 0 FAM50A 1 FAR1 1 FARS2 1 FARSA 1 FARSB 1 FAT4 0 FBRSL1 1 FBXL3 2 FBXL4 0 FBXO11 1 FBXO28 1 FBXO31 2 FBXW11 2 FBXW7 1 FDFT1 1 FGD1 1 FGF12 0 FGF13 1 FGF14 1 FGFR1 1 FGFR3 1 FH 0 FIG4 0 FITM2 1 FKRP 0 FKTN 0 FLNA 0 FLVCR2 0 FMN2 0 FMR1 0 FOLR1 1 FOXG1 0 FOXP1 2 FOXP2 1 FOXRED1 0 FRAS1 1 FRMPD4 1 FRRS1L 1 FTCD 1 FTSJ1 0 FUCA1 0 FUT8 1 GABBR2 1 GABRA1 1 GABRA2 1 GABRA5 1 GABRB2 0 GABRB3 1 GABRG2 1 GAD1 1 GALC 0 GALE 0 GALNT2 1 GALT 1 GAMT 0 GATA6 1 GATAD2B 1 GATM 1 GCDH 0 GCH1 0 GDI1 0 GEMIN5 1 GFAP 0 GFER 1 GFM1 0 GJC2 0 GK 0 GLB1 0 GLDC 0 GLI2 0 GLI3 0 GLIS3 1 GLS 1 GLUL 0 GLYCTK 0 GM2A 0 GMPPA 0 GMPPB 0 GNAI1 2 GNAO1 1 GNAS 1 GNB1 1 GNB2 3 GNB5 1 GNE 1 GNPAT 0 GNPTAB 0 GNPTG 1 GNS 0 GOLGA2 2 GOT2 1 GPAA1 1 GPC3 0 GPC4 1 GPT2 1 GRIA1 1 GRIA2 2 GRIA3 1 GRIA4 0 GRID2 0 GRIK2 1 GRIN1 1 GRIN2A 1 GRIN2B 1 GRIN2D 1 GRM1 0 GRM7 1 GSS 1 GTF2H5 0 GTF3C3 1 GTPBP2 1 GTPBP3 0 GUSB 1 H3F3A 1 H3F3B 1 HACE1 1 HADHA 0 HADHB 1 HCCS 0 HCFC1 0 HCN1 0 HDAC4 2 HDAC8 1 HECW2 2 HEPACAM 0 HERC1 0 HERC2 2 HESX1 0 HEXA 0 HEXB 0 HGSNAT 1 HIBCH 0 HID1 1 HIRA 1 HIST1H1E 1 HIST1H4C 2 HIVEP2 1 HK1 2 HLCS 0 HMGB1 1 HMGCL 0 HNMT 1 HNRNPH1 1 HNRNPH2 0 HNRNPK 0 HNRNPR 1 HNRNPU 1 HOXA1 0 HPD 0 HPDL 2 HPRT1 0 HRAS 1 HS2ST1 3 HSD17B10 0 HSD17B4 1 HSPD1 0 HSPG2 1 HTRA2 0 HUWE1 1 IARS 1 IBA57 1 IDH2 0 IDS 0 IDUA 0 IER3IP1 1 IFIH1 0 IFT172 0 IFT27 1 IFT74 1 IGF1 1 IGF1R 1 IKBKG 0 IL1RAPL1 0 IMPDH2 2 INPP5E 1 INPP5K 0 INTS1 1 IQSEC1 1 IQSEC2 1 IREB2 1 IRF2BPL 1 ISCA1 1 ISCA2 1 ISPD 0 ITPA 0 ITPR1 0 IVD 0 JAM3 1 JARID2 1 JMJD1C 2 KANSL1 1 KARS 1 KAT5 2 KAT6A 0 KAT6B 0 KAT8 1 KATNB1 1 KCNA2 1 KCNB1 1 KCNC1 0 KCNH1 1 KCNJ10 0 KCNJ11 0 KCNJ6 1 KCNK4 1 KCNK9 1 KCNMA1 1 KCNN2 1 KCNN3 1 KCNQ2 0 KCNQ3 1 KCNQ5 1 KCNT1 0 KCNT2 1 KCTD3 0 KCTD7 0 KDM1A 1 KDM3B 2 KDM4B 2 KDM5B 1 KDM5C 1 KDM6A 0 KDM6B 1 KIAA0586 0 KIAA1109 0 KIDINS220 1 KIF11 2 KIF14 1 KIF1A 2 KIF1BP 1 KIF21B 1 KIF2A 1 KIF5A 0 KIF5C 1 KIF7 0 KLF7 1 KLHL7 0 KMT2A 1 KMT2B 1 KMT2C 1 KMT2D 2 KMT2E 1 KMT5B 1 KNL1 1 KPTN 1 KRAS 0 L1CAM 0 L2HGDH 0 LAMA1 0 LAMA2 1 LAMB1 1 LAMB2 1 LAMC3 0 LAMP2 0 LARGE1 0 LARP7 1 LARS 2 LARS2 0 LIAS 1 LIG4 0 LINGO4 1 LINS1 0 LIPT1 1 LMBRD1 1 LMBRD2 2 LMNB1 2 LMNB2 2 LONP1 0 LRP2 0 LRPPRC 0 LSS 1 LTBP1 1 LYRM7 1 LZTFL1 1 LZTR1 1 MAB21L1 2 MAB21L2 1 MACF1 1 MADD 3 MAF 0 MAGEL2 1 MAN1B1 1 MAN2B1 1 MANBA 1 MAOA 1 MAP1B 1 MAP2K1 0 MAP2K2 0 MAPK1 2 MAPK8IP3 2 MAPKAPK5 1 MAPRE2 1 MASP1 1 MAST1 1 MAST3 1 MAT1A 0 MBD5 1 MBOAT7 0 MBTPS2 0 MCCC1 0 MCCC2 0 MCM3AP 1 MCOLN1 1 MCPH1 1 MDH2 0 MECP2 1 MED12 0 MED12L 1 MED13 1 MED13L 0 MED17 1 MED23 0 MED25 1 MED27 2 MEF2C 1 MEGF8 2 MEIS2 0 METTL23 2 METTL5 1 MFF 0 MFSD2A 1 MFSD8 1 MGAT2 1 MICU1 1 MID1 0 MIR17HG 2 MKKS 0 MKS1 0 MLC1 0 MLYCD 1 MMAA 0 MMAB 0 MMACHC 0 MMADHC 0 MN1 2 MOCS1 1 MOCS2 0 MOGS 1 MORC2 2 MPDU1 1 MPDZ 1 MPLKIP 1 MPP5 1 MPV17 1 MRPS22 0 MRPS34 1 MSL3 1 MSMO1 1 MTFMT 0 MTHFR 0 MTHFS 1 MTO1 1 MTOR 0 MTR 1 MTRR 1 MUT 0 MVK 0 MYCN 0 MYO5A 0 MYT1L 2 NAA10 0 NAA15 1 NACC1 0 NAGA 0 NAGLU 0 NALCN 0 NANS 0 NARS 2 NBEA 1 NCAPD2 2 NCAPG2 1 NCDN 2 NCKAP1 1 NDE1 1 NDP 0 NDST1 0 NDUFA1 0 NDUFA2 1 NDUFAF1 1 NDUFS1 1 NDUFS4 1 NDUFS7 0 NDUFS8 0 NDUFV1 0 NEDD4L 1 NEMF 2 NEU1 0 NEUROD2 1 NEXMIF 1 NF1 0 NFASC 1 NFIA 0 NFIB 1 NFIX 0 NFU1 1 NGLY1 0 NHS 0 NIPBL 1 NKAP 1 NKX2-1 0 NLGN3 0 NONO 0 NOVA2 1 NPC1 0 NPC2 0 NPHP1 0 NPHP3 1 NR2F1 1 NR4A2 2 NRAS 0 NRROS 1 NRXN1 0 NSD1 0 NSD2 1 NSDHL 1 NSUN2 0 NT5C2 1 NTNG2 1 NTRK1 0 NTRK2 1 NUBPL 0 NUDT2 1 NUP188 1 NUP214 2 NUS1 1 OCLN 0 OCRL 0 ODC1 1 OFD1 0 OGT 1 OPA3 0 OPHN1 0 OSGEP 1 OTC 0 OTUD5 2 OTUD6B 0 OTX2 0 OXR1 1 P4HTM 1 PACS1 1 PACS2 1 PAFAH1B1 1 PAH 0 PAK1 1 PAK3 1 PAM16 1 PARN 0 PARP6 1 PAX6 0 PAX8 0 PBX1 0 PC 0 PCCA 0 PCCB 0 PCDH12 1 PCDH19 0 PCDHGC4 1 PCGF2 1 PCNT 0 PCYT2 1 PDE10A 1 PDE4D 0 PDE6D 1 PDGFRB 0 PDHA1 0 PDHB 1 PDHX 0 PDP1 1 PDSS1 1 PDSS2 0 PEPD 0 PET100 1 PEX1 0 PEX10 0 PEX11B 0 PEX12 0 PEX13 0 PEX14 0 PEX16 0 PEX19 0 PEX2 0 PEX26 0 PEX3 0 PEX5 0 PEX6 0 PEX7 0 PGAP1 0 PGAP2 1 PGAP3 1 PGK1 1 PGM2L1 1 PGM3 1 PHACTR1 1 PHF21A 2 PHF6 0 PHF8 1 PHGDH 0 PHIP 1 PI4KA 1 PIBF1 2 PIDD1 1 PIGA 1 PIGB 2 PIGC 1 PIGG 1 PIGH 1 PIGK 1 PIGL 1 PIGN 1 PIGO 1 PIGP 2 PIGQ 1 PIGS 1 PIGT 1 PIGU 1 PIGV 1 PIGW 0 PIK3C2A 1 PIK3CA 0 PIK3R2 1 PISD 1 PITRM1 1 PLA2G6 0 PLAA 0 PLCB1 1 PLK4 1 PLP1 0 PLPBP 1 PMM2 0 PMPCA 1 PMPCB 1 PNKP 1 PNPLA6 0 PNPT1 1 POGZ 1 POLA1 1 POLG 0 POLR1C 1 POLR2A 1 POLR3A 0 POLR3B 0 POLRMT 1 POMGNT1 0 POMGNT2 0 POMK 1 POMT1 0 POMT2 0 PORCN 0 POU3F3 1 PPIL1 1 PPM1D 1 PPP1CB 1 PPP1R12A 1 PPP1R15B 0 PPP1R21 1 PPP2CA 1 PPP2R1A 1 PPP2R5D 1 PPP3CA 0 PPT1 0 PQBP1 1 PRICKLE2 1 PRKAR1A 1 PRKAR1B 1 PRMT7 0 PRODH 0 PRPS1 0 PRR12 1 PRSS12 0 PRUNE1 1 PSAP 1 PSMD12 0 PSPH 0 PTCH1 0 PTCHD1 0 PTDSS1 0 PTEN 0 PTF1A 0 PTPN11 0 PTPN23 1 PTPN4 1 PTRHD1 1 PTS 0 PUF60 1 PUM1 1 PURA 1 PUS1 0 PUS3 1 PUS7 1 PYCR1 0 PYCR2 0 QARS 1 QDPR 0 QRICH1 1 RAB11B 1 RAB18 0 RAB23 0 RAB39B 0 RAB3GAP1 1 RAB3GAP2 0 RAC1 1 RAC3 1 RAD21 1 RAF1 0 RAI1 1 RALA 1 RALGAPA1 1 RAP1B 2 RARB 1 RARS 1 RARS2 0 RBBP8 0 RBM10 1 RELN 0 RERE 1 RFT1 1 RFX3 1 RFX4 1 RFX7 1 RHEB 1 RHOBTB2 1 RIT1 0 RLIM 1 RMND1 0 RNASEH2A 0 RNASEH2B 0 RNASEH2C 0 RNASET2 0 RNF125 0 RNF13 1 RNF220 1 RNU4ATAC 1 RNU7-1 2 ROGDI 1 ROR2 0 RORA 1 RPGRIP1L 0 RPIA 1 RPL10 1 RPS6KA3 0 RRM2B 0 RSRC1 1 RTEL1 0 RTN4IP1 1 RTTN 1 SAMD9 0 SAMHD1 0 SARS2 1 SATB1 2 SATB2 1 SBF1 1 SC5D 0 SCAF4 1 SCAMP5 2 SCAPER 1 SCN1A 1 SCN1B 1 SCN2A 0 SCN3A 1 SCN8A 0 SCO2 0 SDCCAG8 1 SDHA 0 SDHAF1 1 SEPSECS 1 SERAC1 0 SET 0 SETBP1 0 SETD1A 1 SETD1B 1 SETD2 1 SETD5 1 SFXN4 1 SGPL1 0 SGSH 1 SHANK2 0 SHANK3 1 SHH 0 SHMT2 2 SHOC2 1 SIAH1 1 SIK1 0 SIL1 1 SIN3A 0 SIN3B 1 SIX3 0 SKI 0 SLC12A2 3 SLC12A5 0 SLC12A6 0 SLC13A5 1 SLC16A2 1 SLC17A5 0 SLC18A2 1 SLC19A3 0 SLC1A1 1 SLC1A2 1 SLC1A4 1 SLC25A1 0 SLC25A12 0 SLC25A15 0 SLC25A22 0 SLC2A1 0 SLC33A1 0 SLC35A1 0 SLC35A2 0 SLC35C1 0 SLC39A14 0 SLC39A8 1 SLC46A1 1 SLC4A4 0 SLC5A6 1 SLC6A1 1 SLC6A17 0 SLC6A19 0 SLC6A3 0 SLC6A8 0 SLC6A9 1 SLC9A6 1 SLX4 0 SMAD4 0 SMARCA2 1 SMARCA4 0 SMARCA5 1 SMARCB1 0 SMARCC2 1 SMARCD1 1 SMARCE1 0 SMC1A 0 SMC3 0 SMG8 2 SMG9 1 SMOC1 1 SMPD1 1 SMPD4 1 SMS 0 SNAP25 1 SNAP29 0 SNRPB 1 SNX14 0 SNX27 1 SON 1 SOS1 1 SOS2 1 SOX10 0 SOX11 0 SOX2 1 SOX4 1 SOX5 1 SOX6 2 SOX9 0 SPART 1 SPATA5 1 SPECC1L 0 SPEN 2 SPG11 1 SPOP 1 SPR 0 SPRED1 1 SPTAN1 1 SPTBN1 1 SPTBN2 0 SPTBN4 2 SRCAP 2 SRD5A3 0 SSR4 0 ST3GAL3 0 ST3GAL5 2 STAG1 0 STAG2 1 STAMBP 1 STIL 1 STRA6 0 STRADA 1 STT3A 2 STX1B 0 STXBP1 0 SUCLA2 1 SUCLG1 0 SUFU 1 SUMF1 1 SUOX 0 SUPT16H 1 SURF1 0 SUZ12 2 SVBP 2 SYN1 0 SYNCRIP 2 SYNGAP1 1 SYNJ1 0 SYP 0 SYT1 2 SZT2 0 TAF1 1 TAF2 2 TAF6 1 TANC2 2 TANGO2 0 TAOK1 1 TASP1 1 TAT 0 TAZ 0 TBC1D20 1 TBC1D23 0 TBC1D24 0 TBCD 1 TBCE 0 TBCK 0 TBL1XR1 0 TBR1 1 TBX1 1 TCF20 1 TCF4 0 TCF7L2 2 TCN2 1 TCTN2 0 TCTN3 1 TDP2 1 TECPR2 1 TELO2 1 TENM3 1 TERT 2 TET3 1 TFE3 2 TGIF1 1 TH 0 THOC2 1 THOC6 0 THRA 0 TIMM50 1 TINF2 1 TLK2 1 TMCO1 0 TMEM106B 1 TMEM165 1 TMEM216 0 TMEM222 2 TMEM237 1 TMEM240 0 TMEM5 0 TMEM67 1 TMEM70 0 TMEM94 1 TMTC3 1 TMX2 1 TNPO2 1 TNR 1 TNRC6B 2 TOE1 1 TOGARAM1 1 TP73 1 TPP1 1 TPP2 1 TRAF7 1 TRAIP 1 TRAK1 1 TRAPPC11 1 TRAPPC12 1 TRAPPC4 1 TRAPPC6B 1 TRAPPC9 2 TREX1 0 TRIM8 1 TRIO 1 TRIP12 1 TRIT1 1 TRMT1 1 TRMT10A 1 TRNT1 1 TRPM3 1 TRRAP 1 TSC1 0 TSC2 0 TSEN15 1 TSEN2 0 TSEN54 0 TSFM 0 TSHB 0 TSPAN7 0 TSPOAP1 1 TTC19 0 TTC37 0 TTC5 2 TTC8 1 TTI2 1 TUBA1A 0 TUBB 1 TUBB2A 1 TUBB2B 0 TUBB3 0 TUBB4A 0 TUBG1 0 TUBGCP2 1 TUBGCP6 1 TUSC3 1 TWIST1 0 UBA5 0 UBE2A 1 UBE3A 0 UBE3B 1 UBE4A 1 UBR1 1 UBR7 1 UBTF 1 UFC1 1 UFM1 1 UFSP2 2 UGDH 1 UGP2 1 UMPS 1 UNC80 1 UPB1 2 UPF3B 2 USP18 1 USP7 2 USP9X 1 VAMP2 2 VARS 1 VARS2 1 VIPAS39 1 VLDLR 0 VPS11 1 VPS13B 0 VPS33B 1 VPS41 1 VPS4A 3 VPS53 0 VRK1 0 WAC 1 WARS2 1 WASF1 2 WASHC4 3 WDFY3 1 WDPCP 1 WDR11 2 WDR26 1 WDR37 1 WDR4 2 WDR45 0 WDR45B 1 WDR62 1 WDR73 0 WDR81 1 WNT1 1 WNT5A 2 WWOX 0 XPA 2 XRCC4 0 XYLT1 2 YARS 1 YIF1B 2 YWHAG 1 YY1 0 ZBTB18 0 ZBTB20 0 ZBTB24 1 ZC4H2 0 ZDHHC9 0 ZEB2 1 ZFHX4 1 ZFYVE26 0 ZIC1 1 ZIC2 0 ZMIZ1 2 ZMYM2 2 ZMYND11 1 ZNF142 1 ZNF148 1 ZNF292 2 ZNF335 1 ZNF462 2 ZNF526 1 ZNF699 1 ZNF711 1 ZSWIM6 1 AASS 1 ACADSB 1 ACAT1 1 ADAM22 1 AKAP6 1 ALDOA 1 ALX1 1 ALX3 1 ALX4 1 AP2S1 1 ARF3 2 ARHGAP31 1 ARHGAP35 1 ARNT2 1 ATP6V0A1 1 ATP9A 1 ATXN2L 1 B3GALT6 1 B9D1 1 BBIP1 1 C16orf62 1 C8orf37 1 CACNB4 1 CAPZA2 1 CCDC174 1 CCDC78 1 CD96 1 CDK16 1 CDK6 1 CDKN1C 1 CEP63 1 CEP89 1 CHRM1 1 CHST14 1 CLCN2 1 CNKSR1 1 COPB1 1 COQ2 1 COQ9 1 COX14 1 COX20 1 COX7B 1 CPE 1 CRBN 1 CTC1 1 CTNND1 1 CTNND2 1 DDOST 1 DHX32 1 DLAT 1 DPH2 1 DPP6 2 DSCAM 1 EEF1B2 1 EEF1D 1 EIF2A 1 EMG1 1 EMX2 1 EPHA7 1 ERGIC3 2 EXOC2 2 EXOSC2 1 FANCB 1 FANCD2 1 FANCG 1 FASTKD2 1 FEM1B 1 FGFR2 1 FIBP 1 FOXP4 1 FRMD4A 1 FRY 1 FTO 1 FUK 1 GBA 1 GEMIN4 1 GIGYF1 1 GMNN 1 GNAI2 1 GNAQ 1 GORAB 1 GPHN 1 GSX2 1 GTF2E2 2 HARS 2 HAX1 1 HEATR5B 1 HIST1H4J 1 HNRNPD 1 HSPA9 1 HTT 1 HYLS1 1 ICE1 1 IMPA1 1 INPP4A 1 IQSEC3 2 ITCH 1 ITFG2 2 ITGA7 1 JAKMIP1 1 KCNJ1 1 KLHL15 1 LAS1L 1 LINGO1 1 LIPT2 1 LMAN2L 1 LNPK 1 LRRC32 1 LYST 1 MAGT1 1 MMGT1 1 MRPL3 2 MSL2 1 NBN 1 NDUFA10 1 NDUFA11 1 NDUFA9 1 NDUFAF2 1 NDUFAF3 1 NDUFAF4 1 NDUFAF5 1 NDUFAF6 1 NDUFB3 1 NDUFB9 1 NDUFS2 1 NDUFS3 1 NDUFS6 1 NDUFV2 1 NECAP1 1 NHP2 1 NMNAT1 1 NR2F2 1 NSF 1 PAX1 1 PDCD6IP 1 PDE2A 1 PHC1 1 PIEZO2 1 PIGY 1 PJA1 1 PLCH1 1 PLEKHG2 1 PLOD3 1 PLXNA2 1 PPP2R5C 1 PRKACB 2 PRKD1 2 PRRT2 1 PSAT1 1 PSMB1 1 PSMC3 1 PSMC5 1 PTRH2 1 RAB11A 1 RAB14 1 RAP1GDS1 1 RIC1 1 RMRP 1 RNF113A 1 RNF2 1 RPS23 1 RSPRY1 1 RUSC2 1 SACS 1 SEC31A 1 SEMA3E 1 SEMA5A 1 SHROOM4 1 SLC2A2 1 SLC35A3 2 SLC45A1 1 SLC5A5 1 SLC9A7 1 SMARCD2 1 SNORD118 1 SNRPN 1 SOX3 2 SRRM2 1 STN1 1 TACO1 1 TAF13 1 TAF1C 1 TARS 1 TBC1D2B 2 TBC1D7 1 TGFB1 1 THRB 1 TKFC 1 TKT 2 TMEM231 1 TMLHE 1 TNIK 1 TOP2B 1 TRAPPC2L 1 TRIP13 1 TTI1 2 TUBGCP4 1 TUFM 1 U2AF2 1 UPF1 1 UQCC2 1 USP27X 1 VPS37A 1 VPS50 1 VPS51 1 WFS1 2 YAP1 1 ZBTB11 1 ZBTB16 1 ZC3H14 4 ZFHX3 2 ZNF407 2 ZNF668 1 ABCC6 2 ABCG5 1 ACOX2 1 ACTA1 1 ADA2 1 ADAMTSL2 1 ADCY5 1 ADGRB3 1 ADGRG6 2 ADRA2B 1 AFG3L2 1 AGGF1 1 AGK 1 AGL 1 AGO3 1 AGPS 1 AGT 1 AGTR2 1 AKR1C2 1 ALDOB 1 ALG2 1 ALS2 1 ANK3 1 ANKH 1 APTX 1 AR 1 ARHGEF6 1 ASMT 1 ATL1 1 ATP10A 1 ATP2A2 1 ATP2B3 1 ATP2C2 1 ATXN10 1 AVP 1 AVPR1A 1 AVPR2 1 B3GAT3 1 BDNF 1 BICD2 1 BIN1 1 BMPER 1 C19orf12 1 C3orf58 1 CA5A 1 CACNG2 1 CANT1 1 CCDC8 1 CDC6 1 CDK5R1 1 CDT1 1 CFH 1 CFHR1 1 CFHR3 1 CHRNA4 1 CISD2 1 CLCNKA 1 CLIC2 1 CLIP2 1 CLPP 1 CMAS 1 CNTN3 1 CNTN4 1 CNTN6 1 CNTNAP5 1 COA3 1 COL18A1 1 COL1A2 1 COLEC10 1 COQ5 1 CORO1A 1 COX4I2 1 COX6B1 1 CP 1 CPA6 1 CRKL 1 CRLF1 1 CRTAP 1 CTSF 1 CUBN 1 CYFIP1 1 CYP27A1 1 CYP2U1 1 DDR2 1 DISP1 1 DLGAP2 1 DLK1 2 DNAJA1 1 DNAJC3 1 DNAJC6 1 DOCK4 1 DOK7 1 DPM3 1 DPP10 1 DSCR3 1 DSE 1 DTYMK 1 DUOXA2 1 DYNC2H1 1 EDC3 1 EDNRB 1 EFNB1 1 EFNB2 1 EIF2AK1 1 EIF2B1 1 EIF2B2 1 EIF2B3 1 EIF2B4 1 EIF2B5 1 ELMOD1 1 EOGT 1 EOMES 1 EPB41L1 1 EPM2A 1 ERCC4 1 ERF 1 ERMARD 1 ETS1 1 EVC 1 EVC2 1 FA2H 1 FAAH2 1 FAM160B1 1 FBLN5 1 FBN1 1 FDXR 1 FGF3 1 FLNB 1 FLVCR1 1 FTL 1 FZD3 1 G6PC3 1 GABRG1 1 GAN 1 GATA1 1 GBA2 1 GBE1 1 GCK 1 GCSH 1 GHR 1 GJA1 1 GJB1 1 GLRA1 1 GLUD1 1 GNA14 1 GOSR2 1 GPSM2 1 GRPR 1 GSPT2 1 GTF2I 1 GTF2IRD1 1 GYS2 1 H19 1 HADH 1 HAL 1 HARS2 1 HOXD10 1 IFT140 1 IGBP1 1 IGF2 1 IMMP2L 1 INS 1 INSR 1 INTS8 1 IRX5 1 IYD 1 JAG1 1 JPH3 1 KANK1 1 KATNAL2 1 KCNC3 1 KCND3 1 KCTD13 1 KIF16B 1 KIF1B 1 KIF21A 1 KIF4A 1 KIRREL3 1 KLF8 1 KLLN 1 KYNU 1 LBR 1 LGI4 1 LHX3 1 LMNA 1 LRP5 1 LSM1 1 LSM11 2 MACROD2 1 MAP4K4 2 MARS2 2 MCM4 1 MEPCE 1 MET 1 METAP1 1 MFN2 1 MGME1 1 MGP 1 MID2 1 MLH1 1 MNX1 1 MPI 1 MPZ 1 MRAP 1 MRPS16 1 MSH6 1 MTM1 1 MTMR2 1 MTPAP 1 MYH3 1 MYMK 1 MYO7A 1 MYT1 1 NAGS 1 NDN 1 NEGR1 1 NGF 1 NHEJ1 1 NHLRC1 1 NIN 1 NLGN1 1 NLGN4X 1 NOP10 1 NOTCH3 1 NRXN2 1 NTNG1 1 NUP62 1 ORC1 1 ORC4 1 ORC6 1 OTUD7A 2 PANK2 1 PAX2 1 PAX3 1 PAX7 1 PCBD1 1 PCDH10 1 PCDH15 1 PCDH9 1 PCLO 1 PDE11A 1 PDGFB 1 PHKA2 1 PHKG2 1 PIGF 2 PIK3R1 1 PINK1 1 PIP5K1B 1 PNP 1 POC1A 1 POLD1 1 POLD2 1 PON3 1 POP1 1 POU1F1 1 PPM1K 1 PPOX 1 PRDM8 1 PREPL 1 PRF1 1 PRICKLE1 1 PRKDC 1 PRKN 1 PRKRA 1 PRRX1 1 PRX 1 PYGL 1 RAB27A 1 RAB40AL 1 RALGAPB 1 RANBP2 1 RAPSN 1 RASA1 2 RAX 1 RBFOX1 1 RBL2 1 RBM28 1 RBM8A 1 RBPJ 1 RECQL4 1 RET 1 RFX6 1 RIMS1 1 RIN2 1 RING1 1 RNF135 2 RPL11 1 RPS19 1 RPS28 1 RUBCN 1 SALL1 1 SAMD9L 1 SBDS 1 SCN11A 1 SCN9A 1 SCO1 1 SECISBP2 1 SELENOI 1 SELENON 1 SF3B4 1 SGCA 1 SH3TC2 1 SHANK1 1 SLC12A1 1 SLC19A2 1 SLC1A3 1 SLC20A2 1 SLC22A5 1 SLC25A13 1 SLC25A19 1 SLC25A20 1 SLC25A24 1 SLC25A4 2 SLC29A3 1 SLC2A10 1 SLC39A4 1 SLC44A1 2 SLC5A2 1 SLC6A4 1 SLC7A7 1 SLC9A9 1 SMCHD1 1 SMG6 1 SNIP1 1 SNRPA 1 SNRPE 2 SOBP 1 SOST 1 SP7 1 SPAST 1 SPEG 1 SPG7 2 SPINK5 1 SPRTN 1 SPTLC1 1 SRPX2 1 ST7 1 STAC3 1 STAT5B 1 STK3 1 STT3B 1 STX11 1 SYT14 1 TAF8 1 TDGF1 2 TECR 1 TFAP2A 1 TFAP2B 1 TFG 1 TG 1 TGFBR1 1 TGFBR2 1 THAP1 1 TIMM8A 1 TMEM260 1 TP63 1 TPH2 1 TPK1 1 TRAPPC6A 1 TREM2 1 TRHR 1 TRIM32 1 TRIM37 1 TSEN34 1 TSHR 1 TTC21B 1 TTR 1 TUBA8 1 TWNK 1 TXNL4A 1 UBE2U 1 UBR4 2 UCHL1 1 UGT1A1 1 UNC13A 1 UNC13D 1 UQCRB 1 UQCRC2 1 UQCRQ 1 UROC1 1 VAMP1 1 VANGL1 1 VPS45 1 WASHC5 1 WDR13 1 WDR19 1 WDR34 1 WIPI2 1 WRAP53 1 XIST 1 XPNPEP3 1 ZCCHC12 1 ZDHHC15 1 ZFP57 1 ZMYM3 1 ZNF41 1 ZNF423 1 ZNF507 1 ZNF674 1 ZNF804A 1 ZNF81 2 ZNHIT6 1 DIP2B 2 DMPK 2 Add a gene STRs in panel DM1 1 FRAXE 1 FRA12A 1 Add a STR Regions in panel Add a Region Intellectual disability syndromic and non-syndromic Gene: HMGB1 Green List (high evidence) You reviewed HMGB1 (high mobility group box 1) EnsemblGeneIds (GRCh38): ENSG00000189403 EnsemblGeneIds (GRCh37): ENSG00000189403 OMIM: 163905, Gene2Phenotype HMGB1 is in 3 panels Reviews (1) Details History Review feedback Review gene Rating: Rating Mode of Inheritance: Mode of Inheritance Mode of pathogenicity: Mode of pathogenicity Publications (PMID: 1234; 4321): Publications (PMID: 1234; 4321) Phenotypes (separate using a semi-colon -; ): Phenotypes (separate using a semi-colon -; ) Current diagnostic: Current diagnostic Comments: Comments 1 review Your review Chirag Patel (Genetic Health Queensland) Green List (high evidence) 13q12.3 microdeletion syndrome is a rare cause of syndromic ID. Previous studies identified four genes within the ~300 Kb minimal critical region including two candidate protein coding genes: KATNAL1 and HMGB1. Uguen et al. (2021) report 6 patients with LOF variants involving HMGB1 with features similar to 13q12.3 microdeletion syndrome (i.e. developmental delay, language delay, microcephaly, obesity and dysmorphic features). In silico analyses suggest that HMGB1 is likely to be intolerant to LOF, and previous in vitro data are in line with the role of HMGB1 in neurodevelopment. They suggest that haploinsufficiency of the HMGB1 gene may play a critical role in the pathogenesis of the 13q12.3 microdeletion syndrome. Sources: Literature Created: 17 Sep 2021, 4:56 a.m. Mode of inheritance MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted Phenotypes Developmental delay and microcephaly, no OMIM #
Review for gene: HMGB1 was set to GREEN
Added comment: 13q12.3 microdeletion syndrome is a rare cause of syndromic ID. Previous studies identified four genes within the ~300 Kb minimal critical region including two candidate protein coding genes: KATNAL1 and HMGB1. Uguen et al. (2021) report 6 patients with LOF variants involving HMGB1 with features similar to 13q12.3 microdeletion syndrome (i.e. developmental delay, language delay, microcephaly, obesity and dysmorphic features). In silico analyses suggest that HMGB1 is likely to be intolerant to LOF, and previous in vitro data are in line with the role of HMGB1 in neurodevelopment. They suggest that haploinsufficiency of the HMGB1 gene may play a critical role in the pathogenesis of the 13q12.3 microdeletion syndrome.
Sources: Literature
Microcephaly v1.33 NUF2 Zornitza Stark gene: NUF2 was added
gene: NUF2 was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: NUF2 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: NUF2 were set to 33721060
Phenotypes for gene: NUF2 were set to microcephaly; short stature; bilateral vocal cord paralysis; micrognathia; atrial septal defect
Review for gene: NUF2 was set to RED
Added comment: PMID: 33721060 - de novo missense variant identified in one male patient with microcephaly and short stature, with additional features, such as bilateral vocal cord paralysis, micrognathia and atrial septal defect.
Sources: Literature
Microcephaly v1.12 AFF3 Zornitza Stark gene: AFF3 was added
gene: AFF3 was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: AFF3 was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: AFF3 were set to 31388108; 33961779
Phenotypes for gene: AFF3 were set to KINSSHIP syndrome, MIM# 619297
Review for gene: AFF3 was set to GREEN
Added comment: 16 affected individuals reported with de novo missense variants. All variants occurred within the degron motif of the ALF domain. The highly conserved 9-amino acid motif mediates the interaction with SIAH E3 ubiquitin ligases and regulates their degradation. Thirteen of the probands carried variants affecting the same codon in exon 6, ala258.

All probands presented with severe developmental epileptic encephalopathy along with mesomelic dysplasia (12/18) and failure to thrive (14/18). The skeletal features included short forearms, radial head dislocation/subluxation, triangular and/or short tibia, fibular hypoplasia, hip dislocation, and tarsal and/or metatarsal synostosis resembling Nievergelt/Savarirayan mesomelic skeletal dysplasia. Other features included microcephaly (9/18), global brain atrophy and/or ventriculomegaly (13/15), fibular hypoplasia (12/16), horseshoe or hypoplastic kidney (13/17), abnormalities of muscle tone (12/16), gastroesophageal reflux disease (6/16), and other gastrointestinal symptoms (14/17). The patients also shared common dysmorphic facial features such as a bulbous nasal tip (10/15), a wide mouth (10/16) often with a square upper lip, abnormalities of the teeth and gums (12/15), and hypertrichosis (12/15). The constellation of features recalled some features of CHOPS syndrome, which is caused by mutations in a related gene, AFF4.
Sources: Literature
Microcephaly v0.637 TTC5 Zornitza Stark Phenotypes for gene: TTC5 were changed from Intellectual disability; microcephaly to Neurodevelopmental disorder with cerebral atrophy and variable facial dysmorphism , MIM#619244; Intellectual disability; microcephaly
Microcephaly v0.636 TTC5 Zornitza Stark reviewed gene: TTC5: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Neurodevelopmental disorder with cerebral atrophy and variable facial dysmorphism , MIM#619244; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Microcephaly v0.527 ATRX Zornitza Stark Marked gene: ATRX as ready
Microcephaly v0.527 ATRX Zornitza Stark Gene: atrx has been classified as Green List (High Evidence).
Microcephaly v0.527 ATRX Zornitza Stark Phenotypes for gene: ATRX were changed from to Mental retardation-hypotonic facies syndrome, X-linked, MIM# 309580; Alpha-thalassemia/mental retardation syndrome, MIM# 301040
Microcephaly v0.526 ATRX Zornitza Stark Mode of inheritance for gene: ATRX 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)
Microcephaly v0.525 ATRX Zornitza Stark reviewed gene: ATRX: Rating: GREEN; Mode of pathogenicity: None; Publications: ; Phenotypes: Mental retardation-hypotonic facies syndrome, X-linked, MIM# 309580, Alpha-thalassemia/mental retardation syndrome, MIM# 301040; Mode of inheritance: X-LINKED: hemizygous mutation in males, monoallelic mutations in females may cause disease (may be less severe, later onset than males)
Microcephaly v0.508 VPS4A Elena Savva changed review comment from: Comment when marking as ready: PMID: 33186543 - 2x de novo hetorozygous missense variants in the AAA (large ATPase) domain. 1x homozygous missense in the MIT domain (milder phenotype and unaffected parents - possibly just a simple LoF mechanism for AR inheritance). Demonstrated defective CD71 trafficking in all 3 patients.

PMID: 33186545 - 6x probands with de novo missense variants in the AAA domain. 5 of the variants were at amino acid position 284 (changes to Trp and Gly). Demonstrated that the variants had a dominant-negative effect on VPS4A function. "The six probands with de novo substitutions affecting Glu206 or Arg284 had a consistent phenotype characterized by severe DD, profound ID, and dystonia. Children were very delayed in establishing head control and none achieved independent walking. Other common findings were cerebellar hypoplasia (five individuals out of six, the other showing uncharacterized severe cerebral atrophy) with a variable degree of corpus callosum hypoplasia. One individual also had bilateral polymicrogyria. Epilepsy was present in three and dystonia in five subjects. Eye involvement was also a common finding, including congenital cataract, retinal dystrophy, and in one case congenital Leber amaurosis. Four individuals were diagnosed with hepatosplenomegaly and/or steatosis. Three subjects had anemia, which was characterized as dyserythropoietic in two. Severe feeding difficulties were present in four individuals, requiring assisted feeding in three. Two had sensorineural deafness. Severe growth retardation, generally for all parameters, was present in most cases. Notably, severe microcephaly (typically with Z scores < −5) was universal. Overall, the disorder seems to have a poor prognosis as two affected individuals died in childhood or early adult life."; to: PMID: 33186543 - 2x de novo hetorozygous missense variants in the AAA (large ATPase) domain. 1x homozygous missense in the MIT domain (milder phenotype and unaffected parents - possibly just a simple LoF mechanism for AR inheritance). Demonstrated defective CD71 trafficking in all 3 patients.

PMID: 33186545 - 6x probands with de novo missense variants in the AAA domain. 5 of the variants were at amino acid position 284 (changes to Trp and Gly). Demonstrated that the variants had a dominant-negative effect on VPS4A function. "The six probands with de novo substitutions affecting Glu206 or Arg284 had a consistent phenotype characterized by severe DD, profound ID, and dystonia. Children were very delayed in establishing head control and none achieved independent walking. Other common findings were cerebellar hypoplasia (five individuals out of six, the other showing uncharacterized severe cerebral atrophy) with a variable degree of corpus callosum hypoplasia. One individual also had bilateral polymicrogyria. Epilepsy was present in three and dystonia in five subjects. Eye involvement was also a common finding, including congenital cataract, retinal dystrophy, and in one case congenital Leber amaurosis. Four individuals were diagnosed with hepatosplenomegaly and/or steatosis. Three subjects had anemia, which was characterized as dyserythropoietic in two. Severe feeding difficulties were present in four individuals, requiring assisted feeding in three. Two had sensorineural deafness. Severe growth retardation, generally for all parameters, was present in most cases. Notably, severe microcephaly (typically with Z scores < −5) was universal. Overall, the disorder seems to have a poor prognosis as two affected individuals died in childhood or early adult life."
Microcephaly v0.508 VPS4A Elena Savva Added comment: Comment when marking as ready: PMID: 33186543 - 2x de novo hetorozygous missense variants in the AAA (large ATPase) domain. 1x homozygous missense in the MIT domain (milder phenotype and unaffected parents - possibly just a simple LoF mechanism for AR inheritance). Demonstrated defective CD71 trafficking in all 3 patients.

PMID: 33186545 - 6x probands with de novo missense variants in the AAA domain. 5 of the variants were at amino acid position 284 (changes to Trp and Gly). Demonstrated that the variants had a dominant-negative effect on VPS4A function. "The six probands with de novo substitutions affecting Glu206 or Arg284 had a consistent phenotype characterized by severe DD, profound ID, and dystonia. Children were very delayed in establishing head control and none achieved independent walking. Other common findings were cerebellar hypoplasia (five individuals out of six, the other showing uncharacterized severe cerebral atrophy) with a variable degree of corpus callosum hypoplasia. One individual also had bilateral polymicrogyria. Epilepsy was present in three and dystonia in five subjects. Eye involvement was also a common finding, including congenital cataract, retinal dystrophy, and in one case congenital Leber amaurosis. Four individuals were diagnosed with hepatosplenomegaly and/or steatosis. Three subjects had anemia, which was characterized as dyserythropoietic in two. Severe feeding difficulties were present in four individuals, requiring assisted feeding in three. Two had sensorineural deafness. Severe growth retardation, generally for all parameters, was present in most cases. Notably, severe microcephaly (typically with Z scores < −5) was universal. Overall, the disorder seems to have a poor prognosis as two affected individuals died in childhood or early adult life."
Microcephaly v0.507 VPS4A Kristin Rigbye gene: VPS4A was added
gene: VPS4A was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: VPS4A was set to MONOALLELIC, autosomal or pseudoautosomal, NOT imprinted
Publications for gene: VPS4A were set to 33186543; 33186545
Phenotypes for gene: VPS4A were set to Neurodevelopmental disorder
Review for gene: VPS4A was set to GREEN
Added comment: PMID: 33186543 - 2x de novo hetorozygous missense variants in the AAA (large ATPase) domain.
1x homozygous missense in the MIT domain (milder phenotype and unaffected parents - possibly just a simple LoF mechanism for AR inheritance).
Demonstrated defective CD71 trafficking in all 3 patients.

PMID: 33186545 - 6x probands with de novo missense variants in the AAA domain. 5 of the variants were at amino acid position 284 (changes to Trp and Gly).
Demonstrated that the variants had a dominant-negative effect on VPS4A function.

"The six probands with de novo substitutions affecting Glu206 or Arg284 had a consistent phenotype characterized by severe DD, profound ID, and dystonia. Children were very delayed in establishing head control and none achieved independent walking. Other common findings were cerebellar hypoplasia (five individuals out of six, the other showing uncharacterized severe cerebral atrophy) with a variable degree of corpus callosum hypoplasia. One individual also had bilateral polymicrogyria. Epilepsy was present in three and dystonia in five subjects. Eye involvement was also a common finding, including congenital cataract, retinal dystrophy, and in one case congenital Leber amaurosis. Four individuals were diagnosed with hepatosplenomegaly and/or steatosis. Three subjects had anemia, which was characterized as dyserythropoietic in two. Severe feeding difficulties were present in four individuals, requiring assisted feeding in three. Two had sensorineural deafness. Severe growth retardation, generally for all parameters, was present in most cases. Notably, severe microcephaly (typically with Z scores < −5) was universal. Overall, the disorder seems to have a poor prognosis as two affected individuals died in childhood or early adult life."
Sources: Literature
Microcephaly v0.504 MINPP1 Zornitza Stark gene: MINPP1 was added
gene: MINPP1 was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: MINPP1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: MINPP1 were set to 33257696
Phenotypes for gene: MINPP1 were set to Pontocerebellar hypoplasia
Review for gene: MINPP1 was set to GREEN
Added comment: 8 individuals from 6 unrelated families reported with bi-allelic LOF variants. All presented with almost complete absence of motor and cognitive development, progressive or congenital microcephaly, spastic tetraplegia or dystonia, and vision impairments. For most, the first symptoms included neonatal severe axial hypotonia and epilepsy that started during the first months or years of life. Prenatal symptoms of microcephaly associated with increased thalami echogenicity were detected in one, while the seven other individuals presented with progressive microcephaly. Some exhibited rapidly progressive phenotype and the affected children died in their infancy or middle-childhood. Strikingly, all the affected children had a unique brain MRI showing a mild to severe PCH, fluid-filled posterior fossa, with dilated lateral ventricles. In addition, severe atrophy at the level of the basal ganglia or thalami often associated with typical T2 hypersignal were identified in all the patients MRI.

Supportive functional data showing accumulation of highly phosphorylated inositols, mostly inositol hexakisphosphate (IP6), detected in HEK293 cells, fibroblasts, iPSCs and differentiating neurons lacking MINPP1. In mutant cells, higher IP6 level is expected to be associated with an increased chelation of intracellular cations, such as iron or calcium, resulting in decreased levels of available ions.
Sources: Literature
Microcephaly v0.487 SHMT2 Zornitza Stark gene: SHMT2 was added
gene: SHMT2 was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: SHMT2 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: SHMT2 were set to 33015733
Phenotypes for gene: SHMT2 were set to Congenital microcephaly; Infantile axial hypotonia; Spastic paraparesis; Global developmental delay; Intellectual disability; Abnormality of the corpus callosum; Abnormal cortical gyration; Hypertrophic cardiomyopathy; Abnormality of the face; Proximal placement of thumb; 2-3 toe syndactyly
Review for gene: SHMT2 was set to GREEN
Added comment: García‑Cazorla et al. (2020 - PMID: 33015733) report 5 individuals (from 4 families) with a novel brain and heart developmental syndrome caused by biallelic SHMT2 pathogenic variants.

All affected subjects presented similar phenotype incl. microcephaly at birth (5/5 with OFC < -2 SD though in 2/5 cases N OFC was observed later), DD and ID (1/5 mild-moderate, 1/5 moderate, 3/5 severe), motor dysfunction in the form of spastic (5/5) paraparesis, ataxia/dysmetria (3/4), intention tremor (in 3/?) and/or peripheral neuropathy (2 sibs). They exhibited corpus callosum hypoplasia (5/5) and perisylvian microgyria-like pattern (4/5). Cardiac problems were reported in all, with hypertrophic cardiomyopathy in 4/5 (from 3 families) and atrial-SD in the 5th individual (1/5). Common dysmorphic features incl. long palpebral/fissures, eversion of lateral third of lower eylids, arched eyebrows, long eyelashes, thin upper lip, short Vth finger, fetal pads, mild 2-3 toe syndactyly, proximally placed thumbs.

Biallelic variants were identified following exome sequencing in all (other investigations not mentioned). Identified variants were in all cases missense SNVs or in-frame del, which together with evidence from population databases and mouse model might suggest a hypomorphic effect of variants and intolerance/embryonic lethality for homozygous LoF ones.

SHMT2 encodes the mitohondrial form of serine hydroxymethyltransferase. The enzyme transfers one-carbon units from serine to tetrahydrofolate (THF) and generates glycine and 5,10,methylene-THF.

Mitochondrial defect was suggested by presence of ragged red fibers in myocardial biopsy of one patient. Quadriceps and myocardial biopsies of the same individual were overall suggestive of myopathic changes.

While plasma metabolites were within N range and SHMT2 protein levels not significantly altered in patient fibroblasts, the authors provide evidence for impaired enzymatic function eg. presence of the SHMT2 substrate (THF) in patient but not control (mitochondria-enriched) fibroblasts , decrease in glycine/serine ratios, impared folate metabolism. Patient fibroblasts displayed impaired oxidative capacity (reduced ATP levels in a medium without glucose, diminished oxygen consumption rates). Mitochondrial membrane potential and ROS levels were also suggestive of redox malfunction.

Shmt2 ko in mice was previously shown to be embryonically lethal attributed to severe mitochondrial respiration defects, although there was no observed brain metabolic defect.

The authors performed Shmt2 knockdown in motoneurons in Drosophila, demonstrating neuromuscular junction (# of satellite boutons) and motility defects (climbing distance/velocity).
Sources: Literature
Microcephaly v0.476 ATR Zornitza Stark Marked gene: ATR as ready
Microcephaly v0.476 ATR Zornitza Stark Gene: atr has been classified as Green List (High Evidence).
Microcephaly v0.476 ATR Zornitza Stark Phenotypes for gene: ATR were changed from to Seckel syndrome 1, MIM# 210600
Microcephaly v0.475 ATR Zornitza Stark Publications for gene: ATR were set to
Microcephaly v0.474 ATR Zornitza Stark Mode of inheritance for gene: ATR was changed from Unknown to BIALLELIC, autosomal or pseudoautosomal
Microcephaly v0.473 ATR Zornitza Stark reviewed gene: ATR: Rating: GREEN; Mode of pathogenicity: None; Publications: 12640452, 19620979, 30199583, 23111928; Phenotypes: Seckel syndrome 1, MIM# 210600; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Microcephaly v0.469 FDXR Zornitza Stark Phenotypes for gene: FDXR were changed from to Auditory neuropathy and optic atrophy, MIM# 617717
Microcephaly v0.465 FDXR Zornitza Stark reviewed gene: FDXR: Rating: RED; Mode of pathogenicity: None; Publications: 30250212; Phenotypes: Auditory neuropathy and optic atrophy, MIM# 617717; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Microcephaly v0.458 TRAPPC6B Zornitza Stark Phenotypes for gene: TRAPPC6B were changed from to Neurodevelopmental disorder with microcephaly, epilepsy, and brain atrophy, MIM# 617862
Microcephaly v0.455 TRAPPC6B Zornitza Stark reviewed gene: TRAPPC6B: Rating: GREEN; Mode of pathogenicity: None; Publications: 28626029, 28397838, 31687267; Phenotypes: Neurodevelopmental disorder with microcephaly, epilepsy, and brain atrophy, MIM# 617862; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Microcephaly v0.455 TRAPPC12 Zornitza Stark Phenotypes for gene: TRAPPC12 were changed from to Encephalopathy, progressive, early-onset, with brain atrophy and spasticity, MIM# 617669
Microcephaly v0.452 TRAPPC12 Zornitza Stark reviewed gene: TRAPPC12: Rating: GREEN; Mode of pathogenicity: None; Publications: 32369837, 28777934; Phenotypes: Encephalopathy, progressive, early-onset, with brain atrophy and spasticity, MIM# 617669; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Microcephaly v0.396 PRUNE1 Zornitza Stark gene: PRUNE1 was added
gene: PRUNE1 was added to Microcephaly. Sources: Expert list
Mode of inheritance for gene: PRUNE1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: PRUNE1 were set to 26539891; 28334956
Phenotypes for gene: PRUNE1 were set to Neurodevelopmental disorder with microcephaly, hypotonia, and variable brain anomalies , MIM#617481
Review for gene: PRUNE1 was set to GREEN
Added comment: 8 unrelated families reported with an autosomal recessive neurodevelopmental, and neurodegenerative disorder characterised by global developmental delay apparent from infancy and profound intellectual disability. Affected individuals have microcephaly with accompanying dysmorphic features, truncal hypotonia, peripheral spasticity, and lack of independent ambulation or speech acquisition. Brain imaging shows variable abnormalities, including cortical atrophy, thin corpus callosum, cerebellar hypoplasia, and delayed myelination
Sources: Expert list
Microcephaly v0.352 TBCD Zornitza Stark Phenotypes for gene: TBCD were changed from to Encephalopathy, progressive, early-onset, with brain atrophy and thin corpus callosum, MIM#617193
Microcephaly v0.273 DNM1L Naomi Baker changed review comment from: Most individuals reported with variants in DNM1L do not have microcephaly listed as a phenotype.

PMID: 17460227 - Reports a newborn girl with microcephaly (head circumference below the 0.4 percentile), abnormal brain development, optic atrophy and hypoplasia, persistent lactic acidemia, and a mildly elevated plasma concentration of very-long-chain fatty acids. She died suddenly at the age of 37 days. A monoallelic missense variant was identified.

PMID: 26992161 - A monoallelic missense variant reported in a 2 year old boy with a chronic neurological disorder, characterized by postnatal microcephaly (OFC 45.5 cm (<3rd centile)), developmental delay, and pain insensitivity.

PMID: 30801875 - Five patients presenting with severe epileptic encephalopathy; microcephaly (<3rd percentile) reported in one patient. Five de novo dominant DNM1L variants were identified.
Loss-of-function and dominant negative; to: Most individuals reported with variants in DNM1L do not have microcephaly listed as a phenotype.

PMID: 17460227 - Reports a newborn girl with microcephaly (head circumference below the 0.4 percentile), abnormal brain development, optic atrophy and hypoplasia, persistent lactic acidemia, and a mildly elevated plasma concentration of very-long-chain fatty acids. She died suddenly at the age of 37 days. A monoallelic missense variant was identified.

PMID: 26992161 - A monoallelic missense variant reported in a 2 year old boy with a chronic neurological disorder, characterized by postnatal microcephaly (OFC 45.5 cm (<3rd centile)), developmental delay, and pain insensitivity.

PMID: 30801875 - Five patients presenting with severe epileptic encephalopathy; microcephaly (<3rd percentile) reported in one patient. Five de novo dominant DNM1L variants were identified.

Both loss-of-function (variants within the GTPase domain) and dominant negative (variants within the middle domain) mechanisms have been reported.
Microcephaly v0.273 UFM1 Paul De Fazio gene: UFM1 was added
gene: UFM1 was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: UFM1 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: UFM1 were set to 28931644; 29868776; 31914610
Phenotypes for gene: UFM1 were set to Leukodystrophy, hypomyelinating, 14 MIM#617899
Review for gene: UFM1 was set to AMBER
gene: UFM1 was marked as current diagnostic
Added comment: Summary: Only 2 variants reported in this gene, one a founder promoter variant and one a missense variant found in 2 Sudanese families (3 hets in gnomAD). All affected individuals were reported with microcephaly but measurements only provided for two. A Drosophila model supports an association of this gene with microcephaly, but it's Drosophila.

PMID 28931644: Found a 3bp deletion in the promoter region of UFM1 in 16 Roma individuals with hypomyelination with atrophy of the basal ganglia and cerebellum who were negative for TUBB4A mutations. Functional studies showed an effect on gene expressin in neuronal cell lines but not other cell lines. All affected individuals had microcephaly but no measurements were provided.

PMID 29868776: 4 affected individuals from 2 Sudanese families reported with the same missense variant. All four were said to have microcephaly but measurments only provided for two: Proband from family 1 had a head circumference of 40cm at 2yo; proband from family 2 had head circumference of < -4SD at 13mo.

PMID 31914610: Used Drosophila embryos to show that UFM1 knockdown was associated with developmental processes that lead to microcephaly.
Sources: Literature
Microcephaly v0.273 CCDC88A Ain Roesley gene: CCDC88A was added
gene: CCDC88A was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: CCDC88A was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: CCDC88A were set to 30392057; 26917597
Phenotypes for gene: CCDC88A were set to PEHO syndrome-like (MIM#617507)
Penetrance for gene: CCDC88A were set to unknown
Review for gene: CCDC88A was set to AMBER
Added comment: PMID: 30392057
- consanguineous Saudi family with 2 affecteds. Homozygous for a nonsense variant
- microcephaly, dev delay, ID, epilepsy, dysmorphism and brain atropy
- no measurements provided

PMID: 26917597
- consanguineous family with 3 affecteds. Homozygous fs variant
- infantile hypotonia, dev delay, optic and brain atrophy, seizures and microcephaly (measurements not provided)
- functional studies on KO mice
Sources: Literature
Microcephaly v0.189 MED17 Zornitza Stark Phenotypes for gene: MED17 were changed from to Microcephaly, postnatal progressive, with seizures and brain atrophy, MIM# 613668
Microcephaly v0.186 MED17 Zornitza Stark reviewed gene: MED17: Rating: GREEN; Mode of pathogenicity: None; Publications: 20950787, 30345598, 26004231; Phenotypes: Microcephaly, postnatal progressive, with seizures and brain atrophy, MIM# 613668; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal
Microcephaly v0.184 ATRIP Zornitza Stark Marked gene: ATRIP as ready
Microcephaly v0.184 ATRIP Zornitza Stark Gene: atrip has been classified as Red List (Low Evidence).
Microcephaly v0.184 ATRIP Zornitza Stark Classified gene: ATRIP as Red List (low evidence)
Microcephaly v0.184 ATRIP Zornitza Stark Gene: atrip has been classified as Red List (Low Evidence).
Microcephaly v0.171 ATRIP Ain Roesley gene: ATRIP was added
gene: ATRIP was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: ATRIP was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: ATRIP were set to 23144622
Phenotypes for gene: ATRIP were set to Seckel Syndrome
Penetrance for gene: ATRIP were set to unknown
Review for gene: ATRIP was set to RED
Added comment: PMID: 23144622;
- 1x proband from a consanguineous family
- progressive severe microcephaly (-9 to -10SD)
- cHet for a nonsense and a splice
Sources: Literature
Microcephaly v0.133 EXOC7 Chirag Patel gene: EXOC7 was added
gene: EXOC7 was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: EXOC7 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: EXOC7 were set to PMID: 32103185
Phenotypes for gene: EXOC7 were set to brain atrophy; seizures; developmental delay; microcephaly
Review for gene: EXOC7 was set to GREEN
Added comment: 4 families with 8 affected individuals with brain atrophy, seizures, and developmental delay, and in more severe cases microcephaly and infantile death. Four novel homozygous or comp.heterozygous variants found in EXOC7, which segregated with disease in the families. They showed that EXOC7, a member of the mammalian exocyst complex, is highly expressed in developing human cortex. In addition, a zebrafish model of Exoc7 deficiency recapitulates the human disorder with increased apoptosis and decreased progenitor cells during telencephalon development, suggesting that the brain atrophy in human cases reflects neuronal degeneration.
Sources: Literature
Microcephaly v0.129 GOLGA2 Elena Savva gene: GOLGA2 was added
gene: GOLGA2 was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: GOLGA2 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: GOLGA2 were set to PMID: 30237576; 26742501
Phenotypes for gene: GOLGA2 were set to Neuromuscular disorder
Review for gene: GOLGA2 was set to GREEN
Added comment: PMID: 30237576 - One 11 year old patient with a homozygous PTC.
Patient had global dev delay, microcephaly, distal muscle weakness with joint contractures and elevated CK levels. Muscle biopsy showed dystrophin changes. MRI at 2 years old showed brain atrophy with thin corpus callosum and hypomyelination. No seizures or regression.

PMID: 26742501 - One infant with a homozygous PTC.
Patient had dev delay, seizures, microcephaly and muscular dystrophy. Zebrafish null model recapitulates the human phenotype with microcephaly and skeletal muscle disorganization.

Summary: 2 patients + animal model
Sources: Literature
Microcephaly v0.128 SMO Zornitza Stark gene: SMO was added
gene: SMO was added to Microcephaly. Sources: Literature
Mode of inheritance for gene: SMO was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: SMO were set to 32413283
Phenotypes for gene: SMO were set to Microcephaly, congenital heart disease, polydactyly, aganglionosis
Review for gene: SMO was set to GREEN
Added comment: Bi-allelic loss-of-function variations in SMO reported in seven individuals from five independent families. Wide phenotypic spectrum of developmental anomalies affecting the brain (hypothalamic hamartoma and microcephaly), heart (atrioventricular septal defect), skeleton (postaxial polydactyly, narrow chest, and shortening of long bones), and enteric nervous system (aganglionosis).
Sources: Literature
Microcephaly v0.121 VPS51 Zornitza Stark changed review comment from: Two families reported with bi-allelic variants in this gene and global developmental delay, impaired intellectual development with absent speech, microcephaly, and progressive atrophy of the cerebellar vermis and brainstem. Additional features, including seizures and visual impairment, are variable.
Sources: Expert list; to: Two families reported with bi-allelic variants in this gene and global developmental delay, impaired intellectual development with absent speech, microcephaly, and progressive atrophy of the cerebellar vermis and brainstem. Additional features, including seizures and visual impairment, are variable. Microcephaly -3/-4SD.
Sources: Expert list
Microcephaly v0.121 VPS51 Zornitza Stark gene: VPS51 was added
gene: VPS51 was added to Microcephaly. Sources: Expert list
Mode of inheritance for gene: VPS51 was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: VPS51 were set to 30624672; 31207318
Phenotypes for gene: VPS51 were set to Pontocerebellar hypoplasia, type 13, MIM# 618606
Review for gene: VPS51 was set to AMBER
Added comment: Two families reported with bi-allelic variants in this gene and global developmental delay, impaired intellectual development with absent speech, microcephaly, and progressive atrophy of the cerebellar vermis and brainstem. Additional features, including seizures and visual impairment, are variable.
Sources: Expert list
Microcephaly v0.43 SEC31A Tiong Tan gene: SEC31A was added
gene: SEC31A was added to Microcephaly_VCGS. Sources: Literature
Mode of inheritance for gene: SEC31A was set to BIALLELIC, autosomal or pseudoautosomal
Publications for gene: SEC31A were set to 30464055
Phenotypes for gene: SEC31A were set to ?Neurodevelopmental disorder with spastic quadriplegia, optic atrophy, seizures, and structural brain anomalies, OMIM #618651
Review for gene: SEC31A was set to AMBER
Added comment: Single family with two affected sibs with functional data (drosophila)
Sources: Literature
Microcephaly v0.0 ATRX Zornitza Stark gene: ATRX was added
gene: ATRX was added to Microcephaly_VCGS. Sources: Expert Review Green,Victorian Clinical Genetics Services
Mode of inheritance for gene: ATRX was set to Unknown
Microcephaly v0.0 ATR Zornitza Stark gene: ATR was added
gene: ATR was added to Microcephaly_VCGS. Sources: Expert Review Green,Victorian Clinical Genetics Services
Mode of inheritance for gene: ATR was set to Unknown