Molecular Characterization of a Novel Germline VHL Mutation by Extensive In Silico Analysis in an Indian Family with Von Hippel-Lindau Disease

Overview

Journal Genet Res Int

Date 2016 Apr 13

PMID 27069690

Citations 1

Authors

Gautham Arunachal

Divya Pachat

C George Priya Doss

Sumita Danda

Rekha Pai

Andrew Ebenazer

Affiliations

Soon will be listed here.

Abstract

Von Hippel-Lindau [VHL] disease, an autosomal dominant hereditary cancer syndrome, is well known for its complex genotype-phenotype correlations. We looked for germline mutations in the VHL gene in an affected multiplex family with Type 1 VHL disease. Real-Time quantitative PCR for deletions and Sanger sequencing of coding regions along with flanking intronic regions were performed in two affected individuals and one related individual. Direct sequencing identified a novel heterozygous single nucleotide base substitution in both the affected members tested, segregating with VHL phenotype in this family. This variant in exon 3, c.473T>A, results in substitution of leucine, a highly conserved acid, to glutamine at position 158 [p.L158Q] and has not been reported thus far as a variant associated with disease causation. Further, this variant was not observed in 50 age and ethnicity matched healthy individuals. Extensive in silico prediction analysis along with molecular dynamics simulation revealed significant deleterious nature of the substitution L158Q on pVHL. The results of this study when collated support the view that the missense variation p.L158Q in the Elongin C binding domain of pVHL may be disease causing.

Citing Articles

VHLdb: A database of von Hippel-Lindau protein interactors and mutations.

Tabaro F, Minervini G, Sundus F, Quaglia F, Leonardi E, Piovesan D Sci Rep. 2016; 6:31128.

PMID: 27511743 PMC: 4980628. DOI: 10.1038/srep31128.

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