Comprehensive in-silico Analysis of High-risk Non-synonymous SNPs in Dectin-1 Gene of Human and their Impact on Protein Structure

Title:Comprehensive in-silico Analysis of High-risk Non-synonymous SNPs in Dectin-1 Gene of Human and their Impact on Protein Structure

Volume: 15 Issue: 2

Author(s): Raman Thakur and Jata Shankar*

Affiliation:

• Jaypee University of Information Technology - Biotechnology & Bioinformatics Solan, Himachal Pradesh,India

Keywords: Multi-omic data, nsSNPs, Dectin-1 receptor, β-(1-3) glucan, C-type lectin domain, type-II transmembrane receptor.

Abstract: Background: Dectin-1 is a pattern recognition receptor that recognizes pathogenic fungi via carbohydrate moiety present on the cell wall. Single nucleotide polymorphisms in dectin-1 gene in an individual have been implicated in susceptibility to invasive infections in immunocompromised or immunocompetant host.

Objective: We sought to analyze the deleterious nsSNP in dectin-1 gene for their susceptibility against fungal pathogens

Methods: SNPs were retrieved from dbSNP database. Five in-silico algorithms (SIFT, PhD-SNP, SNAP, PolyPhen-2 and MAPP) were used to determine the functional consequences of non-synonymous SNPs. Conservation profiling of dectin-1 receptor protein was carried out using ConSurf. The three-dimensional (3D) structure of wild-type C-type lectin domain of dectin-1 protein was modeled using Phyre2 version-2, a web-based server. The protein stability was characterized using I-mutant tool.

Results: A total of 91 non-synonymous SNPs were identified. Seven high-risk nonsynonymous SNPs in dectin-1 receptor were observed using five in-silico algorithms. Domain analysis resulted in the identification of C-type lectin domain. 3D structure modeling of C-type lectin domain as well as for seven variants of nsSNP in C-type lectin domain was carried out for determining their effect on structure-function in protein. Furthermore, I-Mutant revealed that the protein stability decreased which destabilized the amino acid interactions. The highest alteration in protein structures were observed in I223S (rs16910527), I158T (rs138005591) and D159G (rs 758623997) variants.

Conclusion: We propose that these non-synonymous SNPs in dectin-1 receptor encoding gene could be considered for risk assessment against fungal infections.

Cite this article as:

Thakur Raman and Shankar Jata*, Comprehensive in-silico Analysis of High-risk Non-synonymous SNPs in Dectin-1 Gene of Human and their Impact on Protein Structure, Current Pharmacogenomics and Personalized Medicine 2017; 15 (2) . https://dx.doi.org/10.2174/1875692116666180115142706