11-47337533-CCGCAT-C
Position:
Variant summary
Our verdict is Pathogenic. Variant got 18 ACMG points: 18P and 0B. PVS1PM2PP5_Very_Strong
The NM_000256.3(MYBPC3):c.2455_2459del(p.Met819AlafsTer12) variant causes a frameshift change involving the alteration of a conserved nucleotide. The variant was absent in control chromosomes in GnomAD project. Variant has been reported in ClinVar as Pathogenic (★★). Variant results in nonsense mediated mRNA decay.
Frequency
Genomes: not found (cov: 31)
Consequence
MYBPC3
NM_000256.3 frameshift
NM_000256.3 frameshift
Scores
Not classified
Clinical Significance
Conservation
PhyloP100: 7.67
Genes affected
MYBPC3 (HGNC:7551): (myosin binding protein C3) MYBPC3 encodes the cardiac isoform of myosin-binding protein C. Myosin-binding protein C is a myosin-associated protein found in the cross-bridge-bearing zone (C region) of A bands in striated muscle. MYBPC3 is expressed exclusively in heart muscle and is a key regulator of cardiac contraction. Mutations in this gene are a frequent cause of familial hypertrophic cardiomyopathy. [provided by RefSeq, May 2022]
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ACMG classification
Classification made for transcript
Verdict is Pathogenic. Variant got 18 ACMG points.
PVS1
Loss of function variant, product undergoes nonsense mediated mRNA decay. LoF is a known mechanism of disease.
PM2
Very rare variant in population databases, with high coverage;
PP5
Variant 11-47337533-CCGCAT-C is Pathogenic according to our data. Variant chr11-47337533-CCGCAT-C is described in ClinVar as [Pathogenic]. Clinvar id is 181079.Status of the report is criteria_provided_multiple_submitters_no_conflicts, 2 stars. Variant chr11-47337533-CCGCAT-C is described in Lovd as [Pathogenic].
Transcripts
RefSeq
| Gene | Transcript | HGVSc | HGVSp | Effect | #exon/exons | MANE | UniProt |
|---|---|---|---|---|---|---|---|
| MYBPC3 | NM_000256.3 | c.2455_2459del | p.Met819AlafsTer12 | frameshift_variant | 25/35 | ENST00000545968.6 |
Ensembl
| Gene | Transcript | HGVSc | HGVSp | Effect | #exon/exons | TSL | MANE | Appris | UniProt |
|---|---|---|---|---|---|---|---|---|---|
| MYBPC3 | ENST00000545968.6 | c.2455_2459del | p.Met819AlafsTer12 | frameshift_variant | 25/35 | 5 | NM_000256.3 | P4 | |
| MYBPC3 | ENST00000399249.6 | c.2455_2459del | p.Met819AlafsTer12 | frameshift_variant | 24/34 | 5 | A2 | ||
| MYBPC3 | ENST00000544791.1 | c.2414-27_2414-23del | intron_variant, NMD_transcript_variant | 5 |
Frequencies
GnomAD3 genomes
GnomAD3 genomes
Cov.:
31
We have no GnomAD4 exomes data on this position. Probably position not covered by the project.
GnomAD4 genome
GnomAD4 genome
Cov.:
31
ClinVar
Significance: Pathogenic
Submissions summary: Pathogenic:4
Revision: criteria provided, multiple submitters, no conflicts
LINK: link
Submissions by phenotype
not provided Pathogenic:1
| Pathogenic, criteria provided, single submitter | clinical testing | GeneDx | Sep 01, 2021 | Frameshift variant predicted to result in protein truncation or nonsense mediated decay in a gene for which loss-of-function is a known mechanism of disease; Not observed at significant frequency in large population cohorts (Lek et al., 2016); This variant is associated with the following publications: (PMID: 15519027, 29121657) - |
Primary familial hypertrophic cardiomyopathy Pathogenic:1
| Pathogenic, criteria provided, single submitter | clinical testing | Women's Health and Genetics/Laboratory Corporation of America, LabCorp | Oct 01, 2020 | Variant summary: MYBPC3 c.2455_2459delATGCG (p.Met819AlafsX12) results in a premature termination codon, predicted to cause a truncation of the encoded protein or absence of the protein due to nonsense mediated decay, which are commonly known mechanisms for disease. Truncations downstream of this position have been classified as pathogenic by our laboratory. The variant was absent in 249218 control chromosomes. c.2455_2459delATGCG has been reported in the literature in individuals affected with Hypertrophic Cardiomyopathy (example, Van Driest_2004, Viswanathan_2017). To our knowledge, no experimental evidence demonstrating an impact on protein function has been reported. Three clinical diagnostic laboratories have submitted clinical-significance assessments for this variant to ClinVar after 2014 without evidence for independent evaluation. All laboratories classified the variant as pathogenic. Based on the evidence outlined above, the variant was classified as pathogenic. - |
Hypertrophic cardiomyopathy Pathogenic:1
| Pathogenic, criteria provided, single submitter | clinical testing | Invitae | Mar 28, 2022 | This variant is also known as W818 fs/11. This premature translational stop signal has been observed in individual(s) with hypertrophic cardiomyopathy (PMID: 15519027, 29121657). This variant is not present in population databases (gnomAD no frequency). This sequence change creates a premature translational stop signal (p.Met819Alafs*12) in the MYBPC3 gene. It is expected to result in an absent or disrupted protein product. Loss-of-function variants in MYBPC3 are known to be pathogenic (PMID: 19574547). ClinVar contains an entry for this variant (Variation ID: 181079). For these reasons, this variant has been classified as Pathogenic. Algorithms developed to predict the effect of sequence changes on RNA splicing suggest that this variant may create or strengthen a splice site. - |
Cardiovascular phenotype Pathogenic:1
| Pathogenic, criteria provided, single submitter | clinical testing | Ambry Genetics | Jun 05, 2023 | The c.2455_2459delATGCG pathogenic mutation, located in coding exon 25 of the MYBPC3 gene, results from a deletion of 5 nucleotides at nucleotide positions 2455 to 2459, causing a translational frameshift with a predicted alternate stop codon (p.M819Afs*12). This alteration, referred to as W818 fs/11, has been reported in a cohort of individuals with hypertrophic cardiomyopathy (Van Driest SL et al. J. Am. Coll. Cardiol., 2004 Nov;44:1903-10). This variant is considered to be rare based on population cohorts in the Genome Aggregation Database (gnomAD). In addition to the clinical data presented in the literature, this alteration is expected to result in loss of function by premature protein truncation or nonsense-mediated mRNA decay. As such, this alteration is interpreted as a disease-causing mutation. - |
Computational scores
Source:
Name
Calibrated prediction
Score
Prediction
Splicing
Find out detailed SpliceAI scores and Pangolin per-transcript scores at