MBD4methyl-CpG binding domain protein 4
Autism Reports / Total Reports
3 / 7Rare Variants / Common Variants
4 / 8Aliases
MBD4, MED1Associated Syndromes
-Chromosome Band
3q21.3Associated Disorders
-Relevance to Autism
Genetic association and rare variants have been found in the MBD4 gene associated with autism in a Caucasian and African-American cohort (Cukier et al., 2010).
Molecular Function
The encoded protein forms a complex with MLH1, binds to methyl-CpG-containing DNA, has homology to bacterial DNA repair glycosylases/lyases, and displays endonuclease activity.
External Links
SFARI Genomic Platforms
Reports related to MBD4 (7 Reports)
| # | Type | Title | Author, Year | Autism Report | Associated Disorders |
|---|---|---|---|---|---|
| 1 | Highly Cited | The thymine glycosylase MBD4 can bind to the product of deamination at methylated CpG sites | Hendrich B , et al. (1999) | No | - |
| 2 | Highly Cited | Enhanced CpG mutability and tumorigenesis in MBD4-deficient mice | Millar CB , et al. (2002) | No | - |
| 3 | Recent Recommendation | DNA demethylation in zebrafish involves the coupling of a deaminase, a glycosylase, and gadd45 | Rai K , et al. (2008) | No | - |
| 4 | Recent Recommendation | DNA demethylation in hormone-induced transcriptional derepression | Kim MS , et al. (2009) | No | - |
| 5 | Primary | Novel variants identified in methyl-CpG-binding domain genes in autistic individuals | Cukier HN , et al. (2009) | Yes | - |
| 6 | Support | The contribution of de novo coding mutations to autism spectrum disorder | Iossifov I et al. (2014) | Yes | - |
| 7 | Support | Inherited and De Novo Genetic Risk for Autism Impacts Shared Networks | Ruzzo EK , et al. (2019) | Yes | - |
Rare Variants (4)
| Status | Allele Change | Residue Change | Variant Type | Inheritance Pattern | Parental Transmission | Family Type | PubMed ID | Author, Year |
|---|---|---|---|---|---|---|---|---|
| c.1400A>G | p.Asn467Ser | missense_variant | - | - | - | 19921286 | Cukier HN , et al. (2009) | |
| c.1295G>A | p.Arg432His | missense_variant | De novo | - | Simplex | 25363768 | Iossifov I et al. (2014) | |
| delAAGA | p.Glu314fsTer316 | frameshift_variant | Familial | Maternal | Simplex | 19921286 | Cukier HN , et al. (2009) | |
| c.1426del | p.Leu476TrpfsTer9 | frameshift_variant | Familial | Paternal | Multiplex | 31398340 | Ruzzo EK , et al. (2019) |
Common Variants (8)
| Status | Allele Change | Residue Change | Variant Type | Inheritance Pattern | Paternal Transmission | Family Type | PubMed ID | Author, Year |
|---|---|---|---|---|---|---|---|---|
| c.1183+68T>G;c.1201+50T>G;c.247+1415T>G | T to G | intron_variant | - | - | - | 19921286 | Cukier HN , et al. (2009) | |
| c.817G>A | p.Ala273Thr | missense_variant | - | - | - | 19921286 | Cukier HN , et al. (2009) | |
| c.335+27T>C;c.247+115T>C | - | intron_variant | - | - | - | 19921286 | Cukier HN , et al. (2009) | |
| c.336-46C>G;c.247+454C>G | C to G | intron_variant | - | - | - | 19921286 | Cukier HN , et al. (2009) | |
| c.1024T>C;c.247+1188T>C | p.Ser342Pro | missense_variant | - | - | - | 19921286 | Cukier HN , et al. (2009) | |
| c.1036G>A;c.247+1200G>A | p.Glu346Lys | missense_variant | - | - | - | 19921286 | Cukier HN , et al. (2009) | |
| c.1073T>C;c.247+1237T>C | p.Ile358Thr | missense_variant | - | - | - | 19921286 | Cukier HN , et al. (2009) | |
| c.1395C>T;c.1413C>T;c.459C>T | p.(=) | synonymous_variant | - | - | - | 19921286 | Cukier HN , et al. (2009) |
SFARI Gene score
Strong Candidate
There is minimal evidence for MBD4 in autism. In one study, Cukier et al. (2010) sequenced the gene in 226 autistic individuals. They identified two novel changes in the gene: one frameshift mutation that was maternally inherited, and one missense mutation in two cases that was not seen in 244 controls. MBD4 is also known to bind to the enhancer region of ERG2, a gene that is co-regulated with MECP2 (a category S gene).
Score Delta: Score remained at 2
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.
4/1/2022
Decreased from 3 to 2
Description
There is minimal evidence for MBD4 in autism. In one study, Cukier et al. (2010) sequenced the gene in 226 autistic individuals. They identified two novel changes in the gene: one frameshift mutation that was maternally inherited, and one missense mutation in two cases that was not seen in 244 controls. MBD4 is also known to bind to the enhancer region of ERG2, a gene that is co-regulated with MECP2 (a category S gene).
10/1/2019
Decreased from 4 to 3
New Scoring Scheme
Description
There is minimal evidence for MBD4 in autism. In one study, Cukier et al. (2010) sequenced the gene in 226 autistic individuals. They identified two novel changes in the gene: one frameshift mutation that was maternally inherited, and one missense mutation in two cases that was not seen in 244 controls. MBD4 is also known to bind to the enhancer region of ERG2, a gene that is co-regulated with MECP2 (a category S gene).
Reports Added
[New Scoring Scheme]7/1/2019
Decreased from 4 to 4
Description
There is minimal evidence for MBD4 in autism. In one study, Cukier et al. (2010) sequenced the gene in 226 autistic individuals. They identified two novel changes in the gene: one frameshift mutation that was maternally inherited, and one missense mutation in two cases that was not seen in 244 controls. MBD4 is also known to bind to the enhancer region of ERG2, a gene that is co-regulated with MECP2 (a category S gene).
1/1/2016
Decreased from 4 to 4
Description
There is minimal evidence for MBD4 in autism. In one study, Cukier et al. (2010) sequenced the gene in 226 autistic individuals. They identified two novel changes in the gene: one frameshift mutation that was maternally inherited, and one missense mutation in two cases that was not seen in 244 controls. MBD4 is also known to bind to the enhancer region of ERG2, a gene that is co-regulated with MECP2 (a category S gene).
Reports Added
[Novel variants identified in methyl-CpG-binding domain genes in autistic individuals.2009] [The thymine glycosylase MBD4 can bind to the product of deamination at methylated CpG sites.1999] [Enhanced CpG mutability and tumorigenesis in MBD4-deficient mice.2002] [DNA demethylation in zebrafish involves the coupling of a deaminase, a glycosylase, and gadd45.2008] [DNA demethylation in hormone-induced transcriptional derepression.2009] [The contribution of de novo coding mutations to autism spectrum disorder2014]7/1/2014
Increased from No data to 4
Description
There is minimal evidence for MBD4 in autism. In one study, Cukier et al. (2010) sequenced the gene in 226 autistic individuals. They identified two novel changes in the gene: one frameshift mutation that was maternally inherited, and one missense mutation in two cases that was not seen in 244 controls. MBD4 is also known to bind to the enhancer region of ERG2, a gene that is co-regulated with MECP2 (a category S gene).
4/1/2014
Increased from No data to 4
Description
There is minimal evidence for MBD4 in autism. In one study, Cukier et al. (2010) sequenced the gene in 226 autistic individuals. They identified two novel changes in the gene: one frameshift mutation that was maternally inherited, and one missense mutation in two cases that was not seen in 244 controls. MBD4 is also known to bind to the enhancer region of ERG2, a gene that is co-regulated with MECP2 (a category S gene).
Krishnan Probability Score
Score 0.48511599242671
Ranking 7417/25841 scored genes
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ExAC Score
Score 1.6956103578176E-6
Ranking 14866/18225 scored genes
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Sanders TADA Score
Score 0.7897150520599
Ranking 2041/18665 scored genes
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Larsen Cumulative Evidence Score
Score 4
Ranking 314/461 scored genes
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Zhang D Score
Score 0.32504058139524
Ranking 2357/20870 scored genes
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