ZNF462Zinc finger protein 462
Autism Reports / Total Reports
8 / 13Rare Variants / Common Variants
34 / 0Aliases
ZNF462, Zfp462Associated Syndromes
Weiss-Kruszka syndrome, IDChromosome Band
9q31.2Associated Disorders
ID, ASD, EPSGenetic Category
Rare Single Gene Mutation, Syndromic, FunctionalRelevance to Autism
Three de novo variants in the ZNF462 gene (one frameshift, two missense) have been identified in simplex ASD cases, with no de novo events in this gene observed in 1,786 unaffected siblings from the Simons Simplex Collection (P=4.03 x 10-3) (De Rubeis et al., 2014; Iossifov et al., 2014; Krumm et al., 2015). Weiss et al., 2017 reported eight subjects from six families with predicted loss of function variants in ZNF462 and overlapping phenotypes including developmental delay, ptosis, metopic ridging, craniosynostosis, and dysgenesis of the corpus callosum; two of the subjects identified in this report were additionally diagnosed with ASD, while another subject exhibited autistic features (hand flapping and inability to demonstrate joint attention or reciprocal play).
Molecular Function
The protein encoded by this gene may be involved in transcriptional regulation (by similarity).
External Links
SFARI Genomic Platforms
Reports related to ZNF462 (13 Reports)
| # | Type | Title | Author, Year | Autism Report | Associated Disorders |
|---|---|---|---|---|---|
| 1 | Primary | Synaptic, transcriptional and chromatin genes disrupted in autism | De Rubeis S , et al. (2014) | Yes | - |
| 2 | Support | The contribution of de novo coding mutations to autism spectrum disorder | Iossifov I et al. (2014) | Yes | - |
| 3 | Support | Excess of rare, inherited truncating mutations in autism | Krumm N , et al. (2015) | Yes | - |
| 4 | Recent Recommendation | Low load for disruptive mutations in autism genes and their biased transmission | Iossifov I , et al. (2015) | Yes | - |
| 5 | Recent Recommendation | Haploinsufficiency of ZNF462 is associated with craniofacial anomalies, corpus callosum dysgenesis, ptosis, and developmental delay | Weiss K , et al. (2017) | No | ASD or autistic features |
| 6 | Support | Genomic diagnosis for children with intellectual disability and/or developmental delay | Bowling KM , et al. (2017) | Yes | - |
| 7 | Support | ZNF462 and KLF12 are disrupted by a de novo translocation in a patient with syndromic intellectual disability and autism spectrum disorder | Cosemans N , et al. (2018) | Yes | - |
| 8 | Support | Whole genome sequencing and variant discovery in the ASPIRE autism spectrum disorder cohort | Callaghan DB , et al. (2019) | Yes | - |
| 9 | Support | Phenotype delineation of ZNF462 related syndrome | Kruszka P , et al. (2019) | No | ASD |
| 10 | Support | - | Bertoli-Avella AM et al. (2021) | No | ID, epilepsy/seizures |
| 11 | Support | - | Zhou X et al. (2022) | Yes | - |
| 12 | Support | - | Yelagandula R et al. (2023) | No | - |
| 13 | Support | - | et al. () | No | - |
Rare Variants (34)
| Status | Allele Change | Residue Change | Variant Type | Inheritance Pattern | Parental Transmission | Family Type | PubMed ID | Author, Year |
|---|---|---|---|---|---|---|---|---|
| - | - | copy_number_loss | De novo | - | Simplex | 28513610 | Weiss K , et al. (2017) | |
| - | - | translocation | De novo | - | Simplex | 29427787 | Cosemans N , et al. (2018) | |
| c.466G>T | p.Glu156Ter | stop_gained | De novo | - | - | 35982159 | Zhou X et al. (2022) | |
| c.7057-2A>G | - | splice_site_variant | De novo | - | - | 31361404 | Kruszka P , et al. (2019) | |
| c.2804C>T | p.Pro935Leu | missense_variant | De novo | - | - | 35982159 | Zhou X et al. (2022) | |
| c.4165C>T | p.Gln1389Ter | stop_gained | De novo | - | - | 31361404 | Kruszka P , et al. (2019) | |
| c.6619A>G | p.Arg2207Gly | missense_variant | De novo | - | - | 35982159 | Zhou X et al. (2022) | |
| c.7266G>A | p.Ala2422%3D | synonymous_variant | De novo | - | - | 35982159 | Zhou X et al. (2022) | |
| c.3252+1011del | - | frameshift_variant | De novo | - | Simplex | 28513610 | Weiss K , et al. (2017) | |
| c.3253-1468del | - | frameshift_variant | De novo | - | Simplex | 28513610 | Weiss K , et al. (2017) | |
| c.5680T>G | p.Cys1894Gly | missense_variant | De novo | - | - | 28554332 | Bowling KM , et al. (2017) | |
| c.2590C>T | p.Arg864Ter | stop_gained | Familial | Maternal | - | 31361404 | Kruszka P , et al. (2019) | |
| c.3253-1215G>A | - | missense_variant | Unknown | - | Simplex | 31038196 | Callaghan DB , et al. (2019) | |
| c.6124C>A | p.Arg2042Ser | missense_variant | De novo | - | Multiplex | 35982159 | Zhou X et al. (2022) | |
| c.5426C>T | p.Ala1809Val | missense_variant | De novo | - | Simplex | 25961944 | Krumm N , et al. (2015) | |
| c.2253_2254dup | p.Pro752LeufsTer12 | frameshift_variant | De novo | - | Simplex | 38041506 | et al. () | |
| c.2695G>T | p.Glu899Ter | stop_gained | Unknown | Not maternal | - | 31361404 | Kruszka P , et al. (2019) | |
| c.2075_2077del | p.Lys692del | inframe_deletion | De novo | - | Simplex | 35982159 | Zhou X et al. (2022) | |
| c.882dup | p.Ser295GlnfsTer64 | frameshift_variant | De novo | - | - | 31361404 | Kruszka P , et al. (2019) | |
| c.5848C>A | p.Pro1950Thr | missense_variant | De novo | - | Simplex | 25363768 | Iossifov I et al. (2014) | |
| c.2049dup | p.Pro684SerfsTer14 | frameshift_variant | De novo | - | - | 31361404 | Kruszka P , et al. (2019) | |
| c.2542del | p.Cys848ValfsTer66 | frameshift_variant | De novo | - | - | 31361404 | Kruszka P , et al. (2019) | |
| c.3854del | p.Pro1285GlnfsTer7 | frameshift_variant | De novo | - | - | 31361404 | Kruszka P , et al. (2019) | |
| c.1234_1235insAA | p.Ser412Ter | frameshift_variant | Unknown | - | - | 31361404 | Kruszka P , et al. (2019) | |
| c.1615C>T | p.Gln539Ter | stop_gained | De novo | - | Simplex | 33875846 | Bertoli-Avella AM et al. (2021) | |
| c.1855C>T | p.Gln619Ter | stop_gained | De novo | - | Simplex | 33875846 | Bertoli-Avella AM et al. (2021) | |
| c.6174_6175del | p.Cys2059LeufsTer7 | frameshift_variant | De novo | - | - | 35982159 | Zhou X et al. (2022) | |
| c.4016dup | p.Ser1340GlufsTer28 | frameshift_variant | De novo | - | - | 31361404 | Kruszka P , et al. (2019) | |
| c.763C>T | p.Arg255Ter | stop_gained | Familial | Paternal | Simplex | 31361404 | Kruszka P , et al. (2019) | |
| c.3787C>T | p.Arg1263Ter | stop_gained | Familial | Paternal | Multiplex | 28513610 | Weiss K , et al. (2017) | |
| c.831_834del | p.Arg277SerfsTer26 | frameshift_variant | De novo | - | - | 31361404 | Kruszka P , et al. (2019) | |
| c.3436_3437del | p.Arg1146GlufsTer41 | frameshift_variant | De novo | - | - | 31361404 | Kruszka P , et al. (2019) | |
| c.3549del | p.His1183GlnfsTer22 | frameshift_variant | De novo | - | Simplex | 25363760 | De Rubeis S , et al. (2014) | |
| c.2979_2980delinsA | p.Val994TrpfsTer147 | frameshift_variant | De novo | - | Simplex | 28513610 | Weiss K , et al. (2017) |
Common Variants
No common variants reported.
SFARI Gene score
High Confidence, Syndromic
Score Delta: Score remained at 1S
criteria met
See SFARI Gene'scoring criteriaWe considered a rigorous statistical comparison between cases and controls, yielding genome-wide statistical significance, with independent replication, to be the strongest possible evidence for a gene. These criteria were relaxed slightly for category 2.
The syndromic category includes mutations that are associated with a substantial degree of increased risk and consistently linked to additional characteristics not required for an ASD diagnosis. If there is independent evidence implicating a gene in idiopathic ASD, it will be listed as "#S" (e.g., 2S, 3S, etc.). If there is no such independent evidence, the gene will be listed simply as "S."
4/1/2021
Score remained at 1
Description
Three de novo variants in the ZNF462 gene (one frameshift, two missense) have been identified in simplex ASD cases, with no de novo events in this gene observed in 1,786 unaffected siblings from the Simons Simplex Collection (P=4.03 x 10-3) (De Rubeis et al., 2014; Iossifov et al., 2014; Krumm et al., 2015). Weiss et al., 2017 reported eight subjects from six families with predicted loss of function variants in ZNF462 and overlapping phenotypes including developmental delay, ptosis, metopic ridging, craniosynostosis, and dysgenesis of the corpus callosum; two of the subjects identified in this report were additionally diagnosed with ASD, while another subject exhibited autistic features (hand flapping and inability to demonstrate joint attention or reciprocal play). Kruszka et al., 2019 presented 14 novel individuals with loss-of-function variants in the ZNF462 gene, two of whom presented with autism spectrum disorder.
10/1/2019
Decreased from 4S to 1
New Scoring Scheme
Description
Three de novo variants in the ZNF462 gene (one frameshift, two missense) have been identified in simplex ASD cases, with no de novo events in this gene observed in 1,786 unaffected siblings from the Simons Simplex Collection (P=4.03 x 10-3) (De Rubeis et al., 2014; Iossifov et al., 2014; Krumm et al., 2015). Weiss et al., 2017 reported eight subjects from six families with predicted loss of function variants in ZNF462 and overlapping phenotypes including developmental delay, ptosis, metopic ridging, craniosynostosis, and dysgenesis of the corpus callosum; two of the subjects identified in this report were additionally diagnosed with ASD, while another subject exhibited autistic features (hand flapping and inability to demonstrate joint attention or reciprocal play). Kruszka et al., 2019 presented 14 novel individuals with loss-of-function variants in the ZNF462 gene, two of whom presented with autism spectrum disorder.
Reports Added
[New Scoring Scheme]7/1/2019
Decreased from 4S to 4S
Description
Three de novo variants in the ZNF462 gene (one frameshift, two missense) have been identified in simplex ASD cases, with no de novo events in this gene observed in 1,786 unaffected siblings from the Simons Simplex Collection (P=4.03 x 10-3) (De Rubeis et al., 2014; Iossifov et al., 2014; Krumm et al., 2015). Weiss et al., 2017 reported eight subjects from six families with predicted loss of function variants in ZNF462 and overlapping phenotypes including developmental delay, ptosis, metopic ridging, craniosynostosis, and dysgenesis of the corpus callosum; two of the subjects identified in this report were additionally diagnosed with ASD, while another subject exhibited autistic features (hand flapping and inability to demonstrate joint attention or reciprocal play). Kruszka et al., 2019 presented 14 novel individuals with loss-of-function variants in the ZNF462 gene, two of whom presented with autism spectrum disorder.
Reports Added
[Phenotype delineation of ZNF462 related syndrome.2019]4/1/2019
Decreased from 4S to 4S
Description
Three de novo variants in the ZNF462 gene (one frameshift, two missense) have been identified in simplex ASD cases, with no de novo events in this gene observed in 1,786 unaffected siblings from the Simons Simplex Collection (P=4.03 x 10-3) (De Rubeis et al., 2014; Iossifov et al., 2014; Krumm et al., 2015). Weiss et al., 2017 reported eight subjects from six families with predicted loss of function variants in ZNF462 and overlapping phenotypes including developmental delay, ptosis, metopic ridging, craniosynostosis, and dysgenesis of the corpus callosum; two of the subjects identified in this report were additionally diagnosed with ASD, while another subject exhibited autistic features (hand flapping and inability to demonstrate joint attention or reciprocal play).
4/1/2017
Increased from to 4S
Description
Three de novo variants in the ZNF462 gene (one frameshift, two missense) have been identified in simplex ASD cases, with no de novo events in this gene observed in 1,786 unaffected siblings from the Simons Simplex Collection (P=4.03 x 10-3) (De Rubeis et al., 2014; Iossifov et al., 2014; Krumm et al., 2015). Weiss et al., 2017 reported eight subjects from six families with predicted loss of function variants in ZNF462 and overlapping phenotypes including developmental delay, ptosis, metopic ridging, craniosynostosis, and dysgenesis of the corpus callosum; two of the subjects identified in this report were additionally diagnosed with ASD, while another subject exhibited autistic features (hand flapping and inability to demonstrate joint attention or reciprocal play).
Reports Added
[Synaptic, transcriptional and chromatin genes disrupted in autism.2014] [The contribution of de novo coding mutations to autism spectrum disorder2014] [Excess of rare, inherited truncating mutations in autism.2015] [Low load for disruptive mutations in autism genes and their biased transmission.2015] [Haploinsufficiency of ZNF462 is associated with craniofacial anomalies, corpus callosum dysgenesis, ptosis, and developmental delay.2017] [Genomic diagnosis for children with intellectual disability and/or developmental delay.2017]Krishnan Probability Score
Score 0.49386062083278
Ranking 3948/25841 scored genes
[Show Scoring Methodology]
ExAC Score
Score 0.9999999984001
Ranking 108/18225 scored genes
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Iossifov Probability Score
Score 0.984
Ranking 39/239 scored genes
[Show Scoring Methodology]
Sanders TADA Score
Score 0.80472618874794
Ranking 2293/18665 scored genes
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Zhang D Score
Score 0.32065936482321
Ranking 2424/20870 scored genes
[Show Scoring Methodology]