Structural genomics and immunoinformatics analyses of non-structural protein 6 (NSP6) and its probable role in autophagy

Authors

  • Niti Yashvardhini Department of Microbiology, Patna Women?s College, Patna, 800 001, India
  • Deepak Kumar Jha Department of Zoology, S.M. P. Rajkiya Mahila Mahavidyalaya, Ballia, 277401, India
  • Parimal Kumar Khan Department of Zoology, Patna University, Patna 800 005, India
  • Amit Kumar Department of Botany, Patna University, Patna 800 005, India
  • Kumar Pranay Department of Biochemistry, IGIMS, Patna 800 014, India

DOI:

https://doi.org/10.15419/bmrat.v10i7.818

Keywords:

COVID-19, NSP6, Variation, Autophagy, Mutation

Abstract

Autophagy is a natural cellular mechanism in which cellular components such as long-lived proteins and damaged organelles are degraded in response to starvation by forming autophagosomes. Viruses activate the autophagy process, which generates innate immune protection in the host against infection. While the actual molecular mechanism of this contagious viral infection remains unknown, studies on some other betacoronavirus show that their infection of host cells inhibits the autophagy process, resulting in autophagosome accumulation inside the cells. Non-structural protein 6 (NSP6) is crucial in blocking autophagosomes/autolysosome vesicle formation, which are more numerous and smaller than autophagosomes formed upon starvation. Because of its vital role in autophagy, NSP6 can be used as an effective drug target to combat severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infections. Therefore, this study aims to detect the mutations in the NSP6 of Indian isolates compared to Wuhan-type isolates. The NSP6 protein of Indiantype SARS-CoV-2 isolates contained 654 point mutations. Furthermore, secondary structure, energy change upon mutation, physicochemical properties, and hydropathy index of wild and mutated proteins were compared, clearly showing that mutations altered NSP6 stability. An immunoinformatics approach was also attempted to identify the B-cell and interferon (IFN)-inducing epitopes for using NSP6 as a probable vaccine candidate. Therefore, this study explored an important drug target (NSP6) essential for autophagy and assembly of coronavirus replicase proteins.

Published

2023-07-31

Issue

Section

Original Research

How to Cite

Structural genomics and immunoinformatics analyses of non-structural protein 6 (NSP6) and its probable role in autophagy. (2023). Biomedical Research and Therapy, 10(7), 5771-5782. https://doi.org/10.15419/bmrat.v10i7.818

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