|Variant (CDS)||Variant (protein)||Variant Type||Variant Effect||Genomic Location (GRCh37)||ExAC Frequency|
|c.2678C>T||p.A893V (Ala > Val)||substitution||missense||chr14:23893979 (reverse strand)||0.000000|
This variant is considered a rare variant and is not detected in the ExAC population database (>60,000 samples).
Rare MYH7 Non-Truncating variants are significantly enriched in HCM (details). Missense variants in MYH7 have an overall etiological fraction (EF) of 0.92, but this variant occurs in the region enriched for HCM mutations (residues 181-937) and has an EF of 0.97.
OMGL: Detected in 0 / 3200 HCM patients.
LMM: Detected in 0 / 2912 HCM patients.
Rare MYH7 Non-Truncating variants are significantly enriched in DCM (details) and have an etiological fraction (EF) of 0.75.
OMGL: Detected in 0 / 559 DCM patients.
LMM: Detected in 2 / 756 DCM patients - classified as VUS favour pathogenic.
The EF is the estimated proportion of rare variants of this class that will be pathogenic in a cardiomyopathy proband, a prior probability based solely on variant frequency data in cases and controls, and should be further refined by additional evidence such as family segregation data, known association with disease, population frequency, protein domain analysis, functional studies and in silico algorithms to assess the significance of a variant.
For more information on the clinical significance of this variant, please see the ClinVar entry.
This variant has not been detected in the ExAC Aggregation Consortium (ExAC) database (>60,000 samples), the 1000 Genomes (1KG) database (2,500 samples) or the Exome Sequencing Project (ESP) database (6,500 samples).
The Exome Aggregation Consortium (ExAC) is a database of 60,706 unrelated individuals sequenced as part of various disease-specific and population genetic studies. There is partial overlap between ExAC and 1000 Genomes (1KG) (1,851 of the 2,504 samples in 1KG) and the Exome Sequencing Project (ESP) (3,936 of the 6,500 samples in ESP).
|Missense Variant Predictions|
75% of algorithms have predicted that this variant will adversely affect protein function
|damaging||moderately conservative||possibly damaging||possibly damaging|
1. Roddy Walsh, Kate L. Thomson, James S. Ware, Birgit H. Funke, Jessica Woodley, Karen J. McGuire, Francesco Mazzarotto, Edward Blair, Anneke Seller, Jenny C. Taylor, Eric V. Minikel, Exome Aggregation Consortium, Daniel G. MacArthur, Martin Farrall, Stuart A. Cook and Hugh Watkins. Reassessment of Mendelian gene pathogenicity using 7,855 cardiomyopathy cases and 60,706 reference samples. Genet Med. 2016 doi:10.1038/gim.2016.90.
2. Pugh TJ, Kelly MA, Gowrisankar S, Hynes E, Seidman MA, Baxter SM, Bowser M, Harrison B, Aaron D, Mahanta LM, Lakdawala NK, McDermott G, White ET, Rehm HL, Lebo M, Funke BH. The landscape of genetic variation in dilated cardiomyopathy as surveyed by clinical DNA sequencing. Genet Med. 2014 Aug;16(8):601-8.
3. Alfares AA, Kelly MA, McDermott G, Funke BH, Lebo MS, Baxter SB, Shen J, McLaughlin HM, Clark EH, Babb LJ, Cox SW, DePalma SR, Ho CY, Seidman JG, Seidman CE, Rehm HL.
Results of clinical genetic testing of 2,912 probands with hypertrophic cardiomyopathy: expanded panels offer limited additional sensitivity.
Genet Med. 2015 Nov;17(11):880-8.