Identification and characterization of novel mutants of Nsp13 protein among Indian SARS-CoV-2 isolates

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Abstract

SARS-CoV-2, the causative agent of COVID-19 has mutated rapidly which enabled them to adapt and evade the immune system of the host. Emerging SARS-CoV-2 variants with crucial mutations pose a global challenge in context of therapeutic drugs and vaccines being developed globally. There are currently no specific therapeutics or vaccines available to combat SARS-CoV-2 devastation. In view of this, the current study aimed to identify and characterize the mutations found in the Nsp13 of SARS-CoV-2 in Indian isolates. Non-structural protein, Nsp13 protein sequences from Indian isolates were analyzed by comparing with the first reported Severe acute respiratory syndrome Corona Virus-2 (SARS-CoV-2) protein sequence from Wuhan, China. Out of 825 Nsp13 protein sequences, a total of 38 mutations were observed among Indian isolates. Our data show that mutations in Nsp13 at various positions (H164Y, A237T, T214I, C309Y, S236I, P419S, V305E, G54S, H290Y, P53S, A308Y, and A308Y) have a significant impact on the protein’s stability and flexibility. Also, the impact of Nsp13 mutations on the protein function were predicted based on PROVEAN score that includes 15 mutants as neutral and 23 mutants as deleterious effect. Furthermore, B-cell epitopes contributed by Nsp13 were identified using various predictive immunoinformatic tools. Immunological Parameters of Nsp13 such as antigenicity, allergenicity and toxicity were evaluated to predict the potential B-cell epitopes. The predicted peptide sequences were correlated with the observed mutants. Our predicted data showed that there are seven high rank linear epitopes as well as 18 discontinuous B-cell epitopes based on immunoinformatic tools. Moreover, it was observed that out of total 38 identified mutations among Indian SARS-CoV-2 Nsp13 protein, four mutant residues at position 142 (E142), 245 (H245), 247 (V247) and 419 (P419) are localised in the predicted B cell epitopic region. Altogether, the results of the present in-silico study might help to understand the impact of the identified mutations in Nsp13 protein on its stability, flexibility and function.

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