Author:
Singh Abhishek,Thakur Mukesh,Singh Sujeet Kumar,Sharma Lalit Kumar,Chandra Kailash
Abstract
AbstractYPEL3 that induces cellular senescence in both normal and tumour cells of humans may show altered expression under the influence of incidental mutations. In this study, we proposed the first structure of Native YPEL3 protein and its five possible deleterious mutants—V40M, C61Y, G98R, G108S, and A131T and predicted their deleterious effects to alter stability, flexibility and conformational changes in the protein. The MD simulation (RMSD, RMSF, Rg, h-bond and SASA) analysis revealed that the variants V40M, G98R and G108S increased the flexibility in protein, and variant V40M imparted more compactness to the protein.. In general, variants attributed changes in the native conformation and structure of the YPEL3 protein which might affect the native function of cellular senescence. The study provides opportunities for health professionals and practitioners in formulating précised medicines to effectively cure various cancers. We propose in-vitro or in-vivo studies should consider these reported nsSNPs while examining any malfunction in the YPEL3 protein.
Publisher
Springer Science and Business Media LLC
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