MED13LMediator complex subunit 13-like
Autism Reports / Total Reports
23 / 54Rare Variants / Common Variants
114 / 0Chromosome Band
12q24.21Associated Disorders
DD/NDD, ID, EP, EPS, ASDGenetic Category
Rare Single Gene Mutation, SyndromicRelevance to Autism
Two de novo LoF variants in the MED13L gene (one splice-site, one nonsense) were identified in ASD probands from the Simons Simplex Collection (PMIDs 22542183, 25363768). A third de novo LoF variant in MED13L was identified in a patient from the Deciphering Developmental Disorders Study presenting with ASD and developmental delay (PMID 25533962). Variants in MED13L that result in haploinsufficiency are also associated with intellectual disability with or without congenital heart defects (PMIDs 23403903, 24781760, 25712080). Phenotypic characterization of 66 individuals with MED13L-related intellectual disability in Smol et al., 2018 determined that autistic features were present in 28% (16/58) of this cohort. Phenotypic evaluation of eight individuals with de novo MED13L variants in Trring et al., 2018 demonstrated that two individuals were diagnosed with autism, while a third individual presented with autistic features. Three de novo protein-truncating variants in MED13L were identified in ASD probands from the Autism Sequencing Consortium in Satterstrom et al., 2020; subsequent TADA analysis of de novo variants from the Simons Simplex Collection and the Autism Sequencing Consortium and protein-truncating variants from iPSYCH in this report identified MED13L as a candidate gene with a false discovery rate (FDR) 0.01. Additional de novo loss-of-function variants and potentially damaging missense variants in the MED13L gene were reported in ASD probands from the MSSNG cohort and the SPARK cohort in Zhou et al., 2022; a two-stage analysis of rare de novo and inherited coding variants in 42,607 ASD cases, including 35,130 new cases from the SPARK cohort, in this report identified MED13L as a gene reaching exome-wide significance (P < 2.5E-06).
Molecular Function
The protein encoded by this gene is a subunit of the Mediator complex, a large complex of proteins that functions as a transcriptional coactivator for most RNA polymerase II-transcribed genes. The encoded protein is involved in early development of the heart and brain. Defects in this gene are a cause of transposition of the great arteries, dextro-looped (DTGA) [MIM:608808].
External Links
SFARI Genomic Platforms
Reports related to MED13L (54 Reports)
| # | Type | Title | Author, Year | Autism Report | Associated Disorders |
|---|---|---|---|---|---|
| 1 | Primary | De novo gene disruptions in children on the autistic spectrum | Iossifov I , et al. (2012) | Yes | - |
| 2 | Support | Efficient strategy for the molecular diagnosis of intellectual disability using targeted high-throughput sequencing | Redin C , et al. (2014) | No | - |
| 3 | Support | De novo mutations in moderate or severe intellectual disability | Hamdan FF , et al. (2014) | No | Speech delay, motor delay |
| 4 | Recent Recommendation | The contribution of de novo coding mutations to autism spectrum disorder | Iossifov I et al. (2014) | Yes | - |
| 5 | Support | Large-scale discovery of novel genetic causes of developmental disorders | Deciphering Developmental Disorders Study (2014) | Yes | - |
| 6 | Support | Novel de novo heterozygous loss-of-function variants in MED13L and further delineation of the MED13L haploinsufficiency syndrome | Cafiero C , et al. (2015) | No | - |
| 7 | Recent Recommendation | Redefining the MED13L syndrome | Adegbola A , et al. (2015) | No | Autistic features |
| 8 | Support | Integrated analysis of whole-exome sequencing and transcriptome profiling in males with autism spectrum disorders | Codina-Sol M , et al. (2015) | Yes | - |
| 9 | Recent Recommendation | Low load for disruptive mutations in autism genes and their biased transmission | Iossifov I , et al. (2015) | Yes | - |
| 10 | Support | Meta-analysis of 2,104 trios provides support for 10 new genes for intellectual disability | Lelieveld SH et al. (2016) | No | - |
| 11 | Support | De novo mutations in genes of mediator complex causing syndromic intellectual disability: mediatorpathy or transcriptomopathy? | Caro-Llopis A , et al. (2016) | No | Autistic behavior |
| 12 | Support | Mutations in Human Accelerated Regions Disrupt Cognition and Social Behavior | Doan RN , et al. (2016) | Yes | - |
| 13 | Support | De novo genic mutations among a Chinese autism spectrum disorder cohort | Wang T , et al. (2016) | Yes | - |
| 14 | Support | Targeted sequencing identifies 91 neurodevelopmental-disorder risk genes with autism and developmental-disability biases | Stessman HA , et al. (2017) | Yes | - |
| 15 | Support | MED13L haploinsufficiency syndrome: A de novo frameshift and recurrent intragenic deletions due to parental mosaicism | Yamamoto T , et al. (2017) | No | DD, ID |
| 16 | Support | Genomic diagnosis for children with intellectual disability and/or developmental delay | Bowling KM , et al. (2017) | No | - |
| 17 | Support | Genotype-phenotype evaluation of MED13L defects in the light of a novel truncating and a recurrent missense mutation | Asadollahi R , et al. (2017) | No | Hypotonia, dysmorphic features |
| 18 | Support | Using medical exome sequencing to identify the causes of neurodevelopmental disorders: Experience of 2 clinical units and 216 patients | Chrot E , et al. (2017) | No | - |
| 19 | Support | High Rate of Recurrent De Novo Mutations in Developmental and Epileptic Encephalopathies | Hamdan FF , et al. (2017) | No | DD/ID |
| 20 | Support | Exome Pool-Seq in neurodevelopmental disorders | Popp B , et al. (2017) | No | Hypotonia |
| 21 | Support | Integrative Analyses of De Novo Mutations Provide Deeper Biological Insights into Autism Spectrum Disorder | Takata A , et al. (2018) | Yes | - |
| 22 | Recent Recommendation | MED13L-related intellectual disability: involvement of missense variants and delineation of the phenotype | Smol T , et al. (2018) | No | Autistic features |
| 23 | Support | Is MED13L-related intellectual disability a recognizable syndrome? | Trring PM , et al. (2018) | No | ASD or autistic features |
| 24 | Support | Clinical genome sequencing in an unbiased pediatric cohort | Thiffault I , et al. (2018) | No | Congenital heart defects |
| 25 | Support | Diagnostic value of partial exome sequencing in developmental disorders | Gieldon L , et al. (2018) | No | Epilepsy/seizures, autistic features |
| 26 | Support | Inherited and multiple de novo mutations in autism/developmental delay risk genes suggest a multifactorial model | Guo H , et al. (2018) | Yes | - |
| 27 | Support | Whole genome sequencing and variant discovery in the ASPIRE autism spectrum disorder cohort | Callaghan DB , et al. (2019) | Yes | - |
| 28 | Support | Diagnostic Yields of Trio-WES Accompanied by CNVseq for Rare Neurodevelopmental Disorders | Gao C , et al. (2019) | No | - |
| 29 | Support | Characterization of intellectual disability and autism comorbidity through gene panel sequencing | Aspromonte MC , et al. (2019) | Yes | - |
| 30 | Support | Increased diagnostic and new genes identification outcome using research reanalysis of singleton exome sequencing | Bruel AL , et al. (2019) | No | - |
| 31 | Support | Impact of on-site clinical genetics consultations on diagnostic rate in children and young adults with autism spectrum disorder | Munnich A , et al. (2019) | Yes | - |
| 32 | Support | Exome sequencing of 457 autism families recruited online provides evidence for autism risk genes | Feliciano P et al. (2019) | Yes | - |
| 33 | Support | Large-Scale Exome Sequencing Study Implicates Both Developmental and Functional Changes in the Neurobiology of Autism | Satterstrom FK et al. (2020) | Yes | - |
| 34 | Support | Report of a de novo c.2605C > T (p.Pro869Ser) change in the MED13L gene and review of the literature for MED13L-related intellectual disability | Yi Z et al. (2020) | No | DD, ID, autistic features |
| 35 | Support | - | Alonso-Gonzalez A et al. (2021) | Yes | - |
| 36 | Support | - | Valentino F et al. (2021) | No | - |
| 37 | Support | - | Pode-Shakked B et al. (2021) | No | - |
| 38 | Support | - | Xiang J et al. (2021) | No | - |
| 39 | Support | - | Chang KT et al. (2022) | No | - |
| 40 | Support | - | Brea-Fernández AJ et al. (2022) | No | - |
| 41 | Support | - | Carvalho LML et al. (2022) | No | - |
| 42 | Support | - | Hu C et al. (2022) | Yes | - |
| 43 | Support | - | Levchenko O et al. (2022) | No | - |
| 44 | Support | - | Zhou X et al. (2022) | Yes | - |
| 45 | Support | - | Spataro N et al. (2023) | No | - |
| 46 | Recent Recommendation | - | Timberlake AT et al. (2023) | No | ASD |
| 47 | Support | - | Wang J et al. (2023) | Yes | - |
| 48 | Support | - | Tuncay IO et al. (2023) | Yes | - |
| 49 | Support | - | Cirnigliaro M et al. (2023) | Yes | - |
| 50 | Support | - | Siavrien E et al. (2023) | No | - |
| 51 | Support | - | Sanchis-Juan A et al. (2023) | No | - |
| 52 | Support | - | Sheth F et al. (2023) | Yes | DD, ID |
| 53 | Support | - | Ana Karen Sandoval-Talamantes et al. (2023) | Yes | - |
| 54 | Support | - | Luigi Vetri et al. (2024) | No | - |
Rare Variants (114)
| Status | Allele Change | Residue Change | Variant Type | Inheritance Pattern | Parental Transmission | Family Type | PubMed ID | Author, Year |
|---|---|---|---|---|---|---|---|---|
| - | - | copy_number_loss | De novo | - | - | 29511999 | Smol T , et al. (2018) | |
| - | - | copy_number_loss | Unknown | - | - | 36980980 | Spataro N et al. (2023) | |
| - | - | copy_number_loss | De novo | - | - | 29959045 | Trring PM , et al. (2018) | |
| - | - | copy_number_gain | De novo | - | - | 25758992 | Adegbola A , et al. (2015) | |
| - | - | copy_number_loss | De novo | - | - | 25758992 | Adegbola A , et al. (2015) | |
| G>CT | - | intergenic_variant | - | - | Unknown | 27667684 | Doan RN , et al. (2016) | |
| - | - | copy_number_loss | De novo | - | Simplex | 37512036 | Siavrien E et al. (2023) | |
| c.173T>A | p.Leu58Ter | stop_gained | De novo | - | - | 29511999 | Smol T , et al. (2018) | |
| - | - | copy_number_gain | Familial | Maternal | - | 25758992 | Adegbola A , et al. (2015) | |
| c.1009+1G>C | - | splice_site_variant | De novo | - | - | 29511999 | Smol T , et al. (2018) | |
| c.2345-3C>G | - | splice_site_variant | De novo | - | - | 29511999 | Smol T , et al. (2018) | |
| c.6225+1G>A | - | splice_site_variant | De novo | - | - | 29511999 | Smol T , et al. (2018) | |
| - | - | copy_number_gain | Unknown | - | Simplex | 37541188 | Sanchis-Juan A et al. (2023) | |
| c.5920C>T | p.Arg1974Ter | stop_gained | De novo | - | - | 35982159 | Zhou X et al. (2022) | |
| c.2065C>T | p.Gln689Ter | stop_gained | Unknown | - | - | 29511999 | Smol T , et al. (2018) | |
| c.5173C>T | p.Gln1725Ter | stop_gained | De novo | - | - | 29158550 | Popp B , et al. (2017) | |
| c.5281C>T | p.Pro1761Ser | stop_gained | De novo | - | - | 29511999 | Smol T , et al. (2018) | |
| c.5764C>T | p.Gln1922Ter | stop_gained | De novo | - | - | 29511999 | Smol T , et al. (2018) | |
| c.72+1G>T | - | splice_site_variant | De novo | - | - | 34356170 | Valentino F et al. (2021) | |
| c.5210A>G | p.Lys1737Arg | missense_variant | Unknown | - | - | 35741772 | Hu C et al. (2022) | |
| c.685G>C | p.Asp229His | missense_variant | De novo | - | - | 35982159 | Zhou X et al. (2022) | |
| c.2071C>T | p.Gln691Ter | stop_gained | De novo | - | - | 29959045 | Trring PM , et al. (2018) | |
| c.5684G>A | p.Arg1895Lys | stop_gained | De novo | - | - | 29959045 | Trring PM , et al. (2018) | |
| c.4150A>G | p.Thr1384Ala | missense_variant | De novo | - | - | 35982159 | Zhou X et al. (2022) | |
| c.5593C>T | p.Arg1865Trp | missense_variant | De novo | - | - | 35982159 | Zhou X et al. (2022) | |
| c.4956-2A>T | - | splice_site_variant | De novo | - | Simplex | 37393044 | Wang J et al. (2023) | |
| c.2600C>T | p.Thr867Ile | missense_variant | De novo | - | - | 29511999 | Smol T , et al. (2018) | |
| c.2605C>T | p.Pro869Ser | missense_variant | De novo | - | - | 29511999 | Smol T , et al. (2018) | |
| c.2930C>T | p.Ala977Val | missense_variant | De novo | - | - | 29511999 | Smol T , et al. (2018) | |
| c.2344G>T | p.Asp782Tyr | stop_gained | De novo | - | - | 28191889 | Stessman HA , et al. (2017) | |
| c.6008C>T | p.Ser2003Leu | missense_variant | De novo | - | - | 29511999 | Smol T , et al. (2018) | |
| c.6488C>T | p.Ser2163Leu | missense_variant | De novo | - | - | 29511999 | Smol T , et al. (2018) | |
| c.6488C>T | p.Ser2163Leu | missense_variant | Unknown | - | - | 29511999 | Smol T , et al. (2018) | |
| c.6530C>A | p.Ser2177Tyr | missense_variant | De novo | - | - | 29511999 | Smol T , et al. (2018) | |
| c.5861_5890+1del | - | frameshift_variant | De novo | - | - | 29959045 | Trring PM , et al. (2018) | |
| c.4137G>A | p.Pro1379%3D | synonymous_variant | De novo | - | - | 35982159 | Zhou X et al. (2022) | |
| - | - | copy_number_loss | Familial | Maternal | Multiplex | 28371282 | Yamamoto T , et al. (2017) | |
| c.2524C>T | p.Arg842Ter | stop_gained | De novo | - | - | 27500536 | Caro-Llopis A , et al. (2016) | |
| c.5588+1G>A | - | splice_site_variant | De novo | - | Multiplex | 29511999 | Smol T , et al. (2018) | |
| c.6583C>T | p.His2195Tyr | missense_variant | De novo | - | - | 36980980 | Spataro N et al. (2023) | |
| c.2605C>T | p.Pro869Ser | missense_variant | De novo | - | Simplex | 32646507 | Yi Z et al. (2020) | |
| c.3392G>A | p.Cys1131Tyr | missense_variant | De novo | - | - | 29959045 | Trring PM , et al. (2018) | |
| c.5852T>C | p.Val1951Ala | missense_variant | De novo | - | - | 30091983 | Gieldon L , et al. (2018) | |
| c.2722A>G | p.Thr908Ala | missense_variant | De novo | - | - | 31452935 | Feliciano P et al. (2019) | |
| c.6485C>T | p.Thr2162Met | missense_variant | De novo | - | - | 28554332 | Bowling KM , et al. (2017) | |
| c.5614C>T | p.Arg1872Cys | missense_variant | De novo | - | - | 31452935 | Feliciano P et al. (2019) | |
| c.5364+1dup | - | splice_site_variant | De novo | - | Simplex | 22542183 | Iossifov I , et al. (2012) | |
| c.2594T>A | p.Phe865Tyr | missense_variant | De novo | - | - | 30008475 | Thiffault I , et al. (2018) | |
| c.4076G>A | p.Trp1359Ter | stop_gained | De novo | - | Simplex | 25363768 | Iossifov I et al. (2014) | |
| c.4420A>T | p.Lys1474Ter | stop_gained | De novo | - | Simplex | 25712080 | Cafiero C , et al. (2015) | |
| c.3392G>A | p.Cys1131Tyr | missense_variant | De novo | - | - | 27479843 | Lelieveld SH et al. (2016) | |
| c.311-42655G>C | - | intron_variant | Familial | Both parents | - | 37492102 | Tuncay IO et al. (2023) | |
| c.311-42838A>T | - | intron_variant | Familial | Both parents | - | 37492102 | Tuncay IO et al. (2023) | |
| c.2117G>A | p.Gly706Glu | missense_variant | De novo | - | - | 31209962 | Aspromonte MC , et al. (2019) | |
| c.6260del | p.Pro2087GlnfsTer4 | frameshift_variant | De novo | - | - | 31178897 | Gao C , et al. (2019) | |
| c.2399dup | p.Thr801AsnfsTer9 | frameshift_variant | De novo | - | - | 29158550 | Popp B , et al. (2017) | |
| c.1903dup | p.Ser635LysfsTer8 | frameshift_variant | De novo | - | - | 29511999 | Smol T , et al. (2018) | |
| c.5695G>A | p.Gly1899Arg | missense_variant | De novo | - | - | 27500536 | Caro-Llopis A , et al. (2016) | |
| c.5364+1G>T | - | splice_site_variant | De novo | - | Simplex | 31981491 | Satterstrom FK et al. (2020) | |
| c.3550T>C | p.Leu1184%3D | synonymous_variant | De novo | - | Simplex | 35982159 | Zhou X et al. (2022) | |
| c.1152dup | p.Ile385HisfsTer18 | frameshift_variant | Unknown | - | - | 29511999 | Smol T , et al. (2018) | |
| c.2928G>A | p.Trp976Ter | stop_gained | De novo | - | Simplex | 31981491 | Satterstrom FK et al. (2020) | |
| c.6301G>T | p.Val2101Leu | missense_variant | Familial | Paternal | - | 27824329 | Wang T , et al. (2016) | |
| c.6317C>T | p.Ala2106Val | missense_variant | Familial | Maternal | - | 27824329 | Wang T , et al. (2016) | |
| c.4456del | p.Gln1486SerfsTer25 | frameshift_variant | De novo | - | - | 29511999 | Smol T , et al. (2018) | |
| c.6289dup | p.Leu2097ProfsTer11 | frameshift_variant | De novo | - | - | 29511999 | Smol T , et al. (2018) | |
| c.6280C>T | p.Pro2094Ser | missense_variant | De novo | - | Simplex | 29346770 | Takata A , et al. (2018) | |
| c.1718C>T | p.Pro573Leu | missense_variant | De novo | - | Simplex | 29100083 | Hamdan FF , et al. (2017) | |
| c.257del | p.Phe86SerfsTer9 | frameshift_variant | De novo | - | - | 28371282 | Yamamoto T , et al. (2017) | |
| c.2746G>T | p.Glu916Ter | stop_gained | De novo | - | Multiplex | 37506195 | Cirnigliaro M et al. (2023) | |
| c.830_845del | p.Arg277GlnfsTer5 | frameshift_variant | De novo | - | - | 29511999 | Smol T , et al. (2018) | |
| c.124dup | p.Asp42GlyfsTer13 | frameshift_variant | De novo | - | - | 28554332 | Bowling KM , et al. (2017) | |
| c.6277dup | p.Gln2093ProfsTer15 | frameshift_variant | De novo | - | - | 29959045 | Trring PM , et al. (2018) | |
| c.4670dup | p.Ala1558SerfsTer6 | frameshift_variant | De novo | - | - | 38256219 | Luigi Vetri et al. (2024) | |
| c.2579A>G | p.Asp860Gly | missense_variant | De novo | - | Simplex | 28645799 | Asadollahi R , et al. (2017) | |
| c.2395_2396del | p.Gln799GlyfsTer10 | frameshift_variant | De novo | - | - | 27824329 | Wang T , et al. (2016) | |
| c.1708_1709del | p.Ser570PhefsTer27 | frameshift_variant | De novo | - | - | 29511999 | Smol T , et al. (2018) | |
| c.2340_2343del | p.Thr781MetfsTer19 | frameshift_variant | De novo | - | - | 29511999 | Smol T , et al. (2018) | |
| c.6488C>T | p.Ser2163Leu | missense_variant | De novo | - | - | 35322241 | Brea-Fernández AJ et al. (2022) | |
| c.3719dup | p.Asn1241GlufsTer9 | frameshift_variant | De novo | - | Simplex | 30564305 | Guo H , et al. (2018) | |
| c.3914_3915del | p.His1305LeufsTer59 | frameshift_variant | Unknown | - | - | 29511999 | Smol T , et al. (2018) | |
| c.3945_3946del | p.Ile1315MetfsTer49 | frameshift_variant | De novo | - | - | 29511999 | Smol T , et al. (2018) | |
| c.5156_5157del | p.Arg1719LysfsTer20 | frameshift_variant | De novo | - | - | 29511999 | Smol T , et al. (2018) | |
| c.4273C>A | p.Pro1425Thr | missense_variant | Unknown | - | Simplex | 37541188 | Sanchis-Juan A et al. (2023) | |
| c.6611A>G | p.Asn2204Ser | missense_variant | Unknown | - | Multiplex | 31038196 | Callaghan DB , et al. (2019) | |
| c.631G>T | p.Val211Leu | missense_variant | Unknown | - | Extended multiplex | 37543562 | Sheth F et al. (2023) | |
| c.3942_3943del | p.Ile1315GlnfsTer49 | frameshift_variant | De novo | - | - | 31231135 | Bruel AL , et al. (2019) | |
| c.2019A>T | p.Leu673Phe | missense_variant | De novo | - | Simplex | 33431980 | Alonso-Gonzalez A et al. (2021) | |
| c.3292_3296delinsA | p.Ala1098ThrfsTer15 | frameshift_variant | De novo | - | - | 35982159 | Zhou X et al. (2022) | |
| c.5054dup | p.Thr1686HisfsTer28 | frameshift_variant | Unknown | - | Unknown | 35198885 | Chang KT et al. (2022) | |
| c.3279delinsAA | p.Asn1093LysfsTer32 | frameshift_variant | De novo | - | - | 30091983 | Gieldon L , et al. (2018) | |
| c.607dup | p.Ser203PhefsTer32 | frameshift_variant | De novo | - | Simplex | 25712080 | Cafiero C , et al. (2015) | |
| c.3765del | p.Cys1256ValfsTer2 | frameshift_variant | De novo | - | Simplex | 25712080 | Cafiero C , et al. (2015) | |
| c.5949_5950del | p.Gln1984AlafsTer31 | frameshift_variant | De novo | - | - | 25758992 | Adegbola A , et al. (2015) | |
| c.6331del | p.Gln2111SerfsTer18 | frameshift_variant | De novo | - | Simplex | 35887114 | Levchenko O et al. (2022) | |
| c.2318del | p.Ser773LeufsTer28 | frameshift_variant | De novo | - | Simplex | 35597848 | Carvalho LML et al. (2022) | |
| c.2504del | p.Pro835LeufsTer46 | frameshift_variant | De novo | - | Simplex | 28645799 | Asadollahi R , et al. (2017) | |
| c.6118_6125del | p.Gly2040AsnfsTer32 | frameshift_variant | De novo | - | Simplex | 25167861 | Redin C , et al. (2014) | |
| c.2320del | p.Ile774PhefsTer27 | frameshift_variant | De novo | - | Simplex | 34580403 | Pode-Shakked B et al. (2021) | |
| c.572del | p.Leu191Ter | frameshift_variant | Unknown | - | - | 38003033 | Ana Karen Sandoval-Talamantes et al. (2023) | |
| c.1654_1655insATAT | p.Ile552AsnfsTer47 | frameshift_variant | De novo | - | Simplex | 35982159 | Zhou X et al. (2022) | |
| c.1284_1285insTTTAAGCTTTT | p.Lys429PhefsTer7 | frameshift_variant | De novo | - | - | 34858471 | Xiang J et al. (2021) | |
| c.1708_1709del | p.Ser570PhefsTer27 | frameshift_variant | De novo | - | Simplex | 25356899 | Hamdan FF , et al. (2014) | |
| c.1708_1709del | p.Ser570PhefsTer27 | frameshift_variant | De novo | - | Simplex | 31406558 | Munnich A , et al. (2019) | |
| CTGTGT>CT | - | frameshift_variant | De novo | - | Simplex | 25533962 | Deciphering Developmental Disorders Study (2014) | |
| c.1708_1709del | p.Ser570PhefsTer27 | frameshift_variant | De novo | - | Simplex | 25969726 | Codina-Sol M , et al. (2015) | |
| c.329G>A | p.Trp110Ter | stop_gained | De novo | - | Simplex | 25533962 | Deciphering Developmental Disorders Study (2014) | |
| c.5588_1G>A | p.? | splice_site_variant | De novo (germline mosaicism) | - | Multiplex | 28708303 | Chrot E , et al. (2017) | |
| c.1416_1419del | p.Gln473LysfsTer11 | frameshift_variant | De novo | - | Simplex | 31981491 | Satterstrom FK et al. (2020) | |
| c.1690C>T | p.Arg564Ter | stop_gained | De novo | - | Simplex | 25533962 | Deciphering Developmental Disorders Study (2014) | |
| c.541_556delinsA | p.Val181_His186delinsAsn | inframe_indel | De novo | - | Simplex | 34580403 | Pode-Shakked B et al. (2021) | |
| c.5695G>A | p.Gly1899Arg | missense_variant | De novo | - | Simplex | 25533962 | Deciphering Developmental Disorders Study (2014) | |
| c.6005C>T | p.Ser2002Leu | missense_variant | De novo | - | Simplex | 25533962 | Deciphering Developmental Disorders Study (2014) | |
| c.4106del | p.Gly1369GlufsTer19 | frameshift_variant | De novo | - | Simplex | 25533962 | Deciphering Developmental Disorders Study (2014) |
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."
1/1/2021
Score remained at 1
Description
Two de novo LoF variants in the MED13L gene (one splice-site, one nonsense) were identified in ASD probands from the Simons Simplex Collection (PMIDs 22542183, 25363768). A third de novo LoF variant in MED13L was identified in a patient from the Deciphering Developmental Disorders Study presenting with ASD and developmental delay (PMID 25533962). Variants in MED13L that result in haploinsufficiency are also associated with intellectual disability with or without congenital heart defects (PMIDs 23403903, 24781760, 25712080). Phenotypic characterization of 66 individuals with MED13L-related intellectual disability in Smol et al., 2018 determined that autistic features were present in 28% (16/58) of this cohort. Phenotypic evaluation of eight individuals with de novo MED13L variants in Trring et al., 2018 demonstrated that two individuals were diagnosed with autism, while a third individual presented with autistic features.
7/1/2020
Score remained at 1
Description
Two de novo LoF variants in the MED13L gene (one splice-site, one nonsense) were identified in ASD probands from the Simons Simplex Collection (PMIDs 22542183, 25363768). A third de novo LoF variant in MED13L was identified in a patient from the Deciphering Developmental Disorders Study presenting with ASD and developmental delay (PMID 25533962). Variants in MED13L that result in haploinsufficiency are also associated with intellectual disability with or without congenital heart defects (PMIDs 23403903, 24781760, 25712080). Phenotypic characterization of 66 individuals with MED13L-related intellectual disability in Smol et al., 2018 determined that autistic features were present in 28% (16/58) of this cohort. Phenotypic evaluation of eight individuals with de novo MED13L variants in Trring et al., 2018 demonstrated that two individuals were diagnosed with autism, while a third individual presented with autistic features.
1/1/2020
Score remained at 1
Description
Two de novo LoF variants in the MED13L gene (one splice-site, one nonsense) were identified in ASD probands from the Simons Simplex Collection (PMIDs 22542183, 25363768). A third de novo LoF variant in MED13L was identified in a patient from the Deciphering Developmental Disorders Study presenting with ASD and developmental delay (PMID 25533962). Variants in MED13L that result in haploinsufficiency are also associated with intellectual disability with or without congenital heart defects (PMIDs 23403903, 24781760, 25712080). Phenotypic characterization of 66 individuals with MED13L-related intellectual disability in Smol et al., 2018 determined that autistic features were present in 28% (16/58) of this cohort. Phenotypic evaluation of eight individuals with de novo MED13L variants in Trring et al., 2018 demonstrated that two individuals were diagnosed with autism, while a third individual presented with autistic features.
10/1/2019
Decreased from 2S to 1
New Scoring Scheme
Description
Two de novo LoF variants in the MED13L gene (one splice-site, one nonsense) were identified in ASD probands from the Simons Simplex Collection (PMIDs 22542183, 25363768). A third de novo LoF variant in MED13L was identified in a patient from the Deciphering Developmental Disorders Study presenting with ASD and developmental delay (PMID 25533962). Variants in MED13L that result in haploinsufficiency are also associated with intellectual disability with or without congenital heart defects (PMIDs 23403903, 24781760, 25712080). Phenotypic characterization of 66 individuals with MED13L-related intellectual disability in Smol et al., 2018 determined that autistic features were present in 28% (16/58) of this cohort. Phenotypic evaluation of eight individuals with de novo MED13L variants in Trring et al., 2018 demonstrated that two individuals were diagnosed with autism, while a third individual presented with autistic features.
7/1/2019
Decreased from 2S to 2S
Description
Two de novo LoF variants in the MED13L gene (one splice-site, one nonsense) were identified in ASD probands from the Simons Simplex Collection (PMIDs 22542183, 25363768). A third de novo LoF variant in MED13L was identified in a patient from the Deciphering Developmental Disorders Study presenting with ASD and developmental delay (PMID 25533962). Variants in MED13L that result in haploinsufficiency are also associated with intellectual disability with or without congenital heart defects (PMIDs 23403903, 24781760, 25712080). Phenotypic characterization of 66 individuals with MED13L-related intellectual disability in Smol et al., 2018 determined that autistic features were present in 28% (16/58) of this cohort. Phenotypic evaluation of eight individuals with de novo MED13L variants in Trring et al., 2018 demonstrated that two individuals were diagnosed with autism, while a third individual presented with autistic features.
Reports Added
[Diagnostic Yields of Trio-WES Accompanied by CNVseq for Rare Neurodevelopmental Disorders.2019] [Characterization of intellectual disability and autism comorbidity through gene panel sequencing.2019] [Increased diagnostic and new genes identification outcome using research reanalysis of singleton exome sequencing.2019] [Impact of on-site clinical genetics consultations on diagnostic rate in children and young adults with autism spectrum disorder.2019]4/1/2019
Decreased from 2S to 2S
Description
Two de novo LoF variants in the MED13L gene (one splice-site, one nonsense) were identified in ASD probands from the Simons Simplex Collection (PMIDs 22542183, 25363768). A third de novo LoF variant in MED13L was identified in a patient from the Deciphering Developmental Disorders Study presenting with ASD and developmental delay (PMID 25533962). Variants in MED13L that result in haploinsufficiency are also associated with intellectual disability with or without congenital heart defects (PMIDs 23403903, 24781760, 25712080). Phenotypic characterization of 66 individuals with MED13L-related intellectual disability in Smol et al., 2018 determined that autistic features were present in 28% (16/58) of this cohort. Phenotypic evaluation of eight individuals with de novo MED13L variants in Trring et al., 2018 demonstrated that two individuals were diagnosed with autism, while a third individual presented with autistic features.
1/1/2019
Decreased from 2S to 2S
Description
Two de novo LoF variants in the MED13L gene (one splice-site, one nonsense) were identified in ASD probands from the Simons Simplex Collection (PMIDs 22542183, 25363768). A third de novo LoF variant in MED13L was identified in a patient from the Deciphering Developmental Disorders Study presenting with ASD and developmental delay (PMID 25533962). Variants in MED13L that result in haploinsufficiency are also associated with intellectual disability with or without congenital heart defects (PMIDs 23403903, 24781760, 25712080). Phenotypic characterization of 66 individuals with MED13L-related intellectual disability in Smol et al., 2018 determined that autistic features were present in 28% (16/58) of this cohort. Phenotypic evaluation of eight individuals with de novo MED13L variants in Trring et al., 2018 demonstrated that two individuals were diagnosed with autism, while a third individual presented with autistic features.
7/1/2018
Decreased from 2 to 2S
Description
Two de novo LoF variants in the MED13L gene (one splice-site, one nonsense) were identified in ASD probands from the Simons Simplex Collection (PMIDs 22542183, 25363768). A third de novo LoF variant in MED13L was identified in a patient from the Deciphering Developmental Disorders Study presenting with ASD and developmental delay (PMID 25533962). Variants in MED13L that result in haploinsufficiency are also associated with intellectual disability with or without congenital heart defects (PMIDs 23403903, 24781760, 25712080). Phenotypic characterization of 66 individuals with MED13L-related intellectual disability in Smol et al., 2018 determined that autistic features were present in 28% (16/58) of this cohort. Phenotypic evaluation of eight individuals with de novo MED13L variants in Trring et al., 2018 demonstrated that two individuals were diagnosed with autism, while a third individual presented with autistic features.
10/1/2017
Decreased from 2 to 2
Description
Two de novo LoF variants in the MED13L gene (one splice-site, one nonsense) were identified in ASD probands from the Simons Simplex Collection (PMIDs 22542183, 25363768). A third de novo LoF variant in MED13L was identified in a patient from the Deciphering Developmental Disorders Study presenting with ASD and developmental delay (PMID 25533962). Variants in MED13L that result in haploinsufficiency are also associated with intellectual disability with or without congenital heart defects (PMIDs 23403903, 24781760, 25712080).
7/1/2017
Decreased from 2 to 2
Description
Two de novo LoF variants in the MED13L gene (one splice-site, one nonsense) were identified in ASD probands from the Simons Simplex Collection (PMIDs 22542183, 25363768). A third de novo LoF variant in MED13L was identified in a patient from the Deciphering Developmental Disorders Study presenting with ASD and developmental delay (PMID 25533962). Variants in MED13L that result in haploinsufficiency are also associated with intellectual disability with or without congenital heart defects (PMIDs 23403903, 24781760, 25712080).
4/1/2017
Decreased from 2 to 2
Description
Two de novo LoF variants in the MED13L gene (one splice-site, one nonsense) were identified in ASD probands from the Simons Simplex Collection (PMIDs 22542183, 25363768). A third de novo LoF variant in MED13L was identified in a patient from the Deciphering Developmental Disorders Study presenting with ASD and developmental delay (PMID 25533962). Variants in MED13L that result in haploinsufficiency are also associated with intellectual disability with or without congenital heart defects (PMIDs 23403903, 24781760, 25712080).
Reports Added
[De novo gene disruptions in children on the autistic spectrum.2012] [The contribution of de novo coding mutations to autism spectrum disorder2014] [Large-scale discovery of novel genetic causes of developmental disorders.2014] [Novel de novo heterozygous loss-of-function variants in MED13L and further delineation of the MED13L haploinsufficiency syndrome.2015] [Efficient strategy for the molecular diagnosis of intellectual disability using targeted high-throughput sequencing.2014] [Redefining the MED13L syndrome.2015] [Integrated analysis of whole-exome sequencing and transcriptome profiling in males with autism spectrum disorders.2015] [Low load for disruptive mutations in autism genes and their biased transmission.2015] [Meta-analysis of 2,104 trios provides support for 10 new genes for intellectual disability2016] [De novo mutations in genes of mediator complex causing syndromic intellectual disability: mediatorpathy or transcriptomopathy?2016] [Mutations in Human Accelerated Regions Disrupt Cognition and Social Behavior.2016] [De novo genic mutations among a Chinese autism spectrum disorder cohort.2016] [Targeted sequencing identifies 91 neurodevelopmental-disorder risk genes with autism and developmental-disability biases.2017] [MED13L haploinsufficiency syndrome: A de novo frameshift and recurrent intragenic deletions due to parental mosaicism.2017] [De novo mutations in moderate or severe intellectual disability.2014] [Genomic diagnosis for children with intellectual disability and/or developmental delay.2017]1/1/2017
Decreased from 2 to 2
Description
Two de novo LoF variants in the MED13L gene (one splice-site, one nonsense) were identified in ASD probands from the Simons Simplex Collection (PMIDs 22542183, 25363768). A third de novo LoF variant in MED13L was identified in a patient from the Deciphering Developmental Disorders Study presenting with ASD and developmental delay (PMID 25533962). Variants in MED13L that result in haploinsufficiency are also associated with intellectual disability with or without congenital heart defects (PMIDs 23403903, 24781760, 25712080).
10/1/2016
Decreased from 2 to 2
Description
Two de novo LoF variants in the MED13L gene (one splice-site, one nonsense) were identified in ASD probands from the Simons Simplex Collection (PMIDs 22542183, 25363768). A third de novo LoF variant in MED13L was identified in a patient from the Deciphering Developmental Disorders Study presenting with ASD and developmental delay (PMID 25533962). Variants in MED13L that result in haploinsufficiency are also associated with intellectual disability with or without congenital heart defects (PMIDs 23403903, 24781760, 25712080).
7/1/2016
Decreased from 2 to 2
Description
Two de novo LoF variants in the MED13L gene (one splice-site, one nonsense) were identified in ASD probands from the Simons Simplex Collection (PMIDs 22542183, 25363768). A third de novo LoF variant in MED13L was identified in a patient from the Deciphering Developmental Disorders Study presenting with ASD and developmental delay (PMID 25533962). Variants in MED13L that result in haploinsufficiency are also associated with intellectual disability with or without congenital heart defects (PMIDs 23403903, 24781760, 25712080).
1/1/2016
Decreased from 2 to 2
Description
Two de novo LoF variants in the MED13L gene (one splice-site, one nonsense) were identified in ASD probands from the Simons Simplex Collection (PMIDs 22542183, 25363768). A third de novo LoF variant in MED13L was identified in a patient from the Deciphering Developmental Disorders Study presenting with ASD and developmental delay (PMID 25533962). Variants in MED13L that result in haploinsufficiency are also associated with intellectual disability with or without congenital heart defects (PMIDs 23403903, 24781760, 25712080).
Reports Added
[De novo gene disruptions in children on the autistic spectrum.2012] [The contribution of de novo coding mutations to autism spectrum disorder2014] [Large-scale discovery of novel genetic causes of developmental disorders.2014] [Novel de novo heterozygous loss-of-function variants in MED13L and further delineation of the MED13L haploinsufficiency syndrome.2015] [Efficient strategy for the molecular diagnosis of intellectual disability using targeted high-throughput sequencing.2014] [Redefining the MED13L syndrome.2015] [Integrated analysis of whole-exome sequencing and transcriptome profiling in males with autism spectrum disorders.2015] [Low load for disruptive mutations in autism genes and their biased transmission.2015]4/1/2015
Decreased from 2 to 2
Description
Two de novo LoF variants in the MED13L gene (one splice-site, one nonsense) were identified in ASD probands from the Simons Simplex Collection (PMIDs 22542183, 25363768). A third de novo LoF variant in MED13L was identified in a patient from the Deciphering Developmental Disorders Study presenting with ASD and developmental delay (PMID 25533962). Variants in MED13L that result in haploinsufficiency are also associated with intellectual disability with or without congenital heart defects (PMIDs 23403903, 24781760, 25712080).
1/1/2015
Decreased from 3 to 2
Description
Two de novo LoF variants in the MED13L gene (one splice-site, one nonsense) were identified in ASD probands from the Simons Simplex Collection (PMIDs 22542183, 25363768). A third de novo LoF variant in MED13L was identified in a patient from the Deciphering Developmental Disorders Study presenting with ASD and developmental delay (PMID 25533962). Variants in MED13L that result in haploinsufficiency are also associated with intellectual disability with or without congenital heart defects (PMIDs 23403903, 24781760, 25712080).
10/1/2014
Increased from to 3
Description
Two de novo LoF variants in the MED13L gene (one splice-site, one nonsense) were identified in ASD probands from the Simons Simplex Collection (PMIDs 22542183, 25363768).
Krishnan Probability Score
Score 0.57189423822695
Ranking 740/25841 scored genes
[Show Scoring Methodology]
ExAC Score
Score 0.99999999867715
Ranking 104/18225 scored genes
[Show Scoring Methodology]
Iossifov Probability Score
Score 0.998
Ranking 9/239 scored genes
[Show Scoring Methodology]
Sanders TADA Score
Score 0.71654119428162
Ranking 1269/18665 scored genes
[Show Scoring Methodology]
Larsen Cumulative Evidence Score
Score 18
Ranking 112/461 scored genes
[Show Scoring Methodology]
Zhang D Score
Score 0.59306800301297
Ranking 102/20870 scored genes
[Show Scoring Methodology]
Interactome
- Protein Binding
- DNA Binding
- RNA Binding
- Protein Modification
- Direct Regulation
- ASD-Linked Genes
Interaction Table
| Interactor Symbol | Interactor Name | Interactor Organism | Interactor Type | Entrez ID | Uniprot ID |
|---|---|---|---|---|---|
| MED19 | Mediator of RNA polymerase II transcription subunit 19 | Human | Protein Binding | 219541 | A0JLT2 |