Heliyon (Dec 2020)

Exploring rotavirus proteome to identify potential B- and T-cell epitope using computational immunoinformatics

  • Yengkhom Damayanti Devi,
  • Arpita Devi,
  • Hemanga Gogoi,
  • Bondita Dehingia,
  • Robin Doley,
  • Alak Kumar Buragohain,
  • Ch. Shyamsunder Singh,
  • Partha Pratim Borah,
  • C.Durga Rao,
  • Pratima Ray,
  • George M. Varghese,
  • Sachin Kumar,
  • Nima D. Namsa

Journal volume & issue
Vol. 6, no. 12
p. e05760

Abstract

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Rotavirus is the most common cause of acute gastroenteritis in infants and children worldwide. The functional correlation of B- and T-cells to long-lasting immunity against rotavirus infection in the literature is limited. In this work, a series of computational immuno-informatics approaches were applied and identified 28 linear B-cells, 26 conformational B-cell, 44 TC cell and 40 TH cell binding epitopes for structural and non-structural proteins of rotavirus. Further selection of putative B and T cell epitopes in the multi-epitope vaccine construct was carried out based on immunogenicity, conservancy, allergenicity and the helical content of predicted epitopes. An in-silico vaccine constructs was developed using an N-terminal adjuvant (RGD motif) followed by TC and TH cell epitopes and B-cell epitope with an appropriate linker. Multi-threading models of multi-epitope vaccine construct with B- and T-cell epitopes were generated and molecular dynamics simulation was performed to determine the stability of designed vaccine. Codon optimized multi-epitope vaccine antigens was expressed and affinity purified using the E. coli expression system. Further the T cell epitope presentation assay using the recombinant multi-epitope constructs and the T cell epitope predicted and identified in this study have not been investigated. Multi-epitope vaccine construct encompassing predicted B- and T-cell epitopes may help to generate long-term immune responses against rotavirus. The computational findings reported in this study may provide information in developing epitope-based vaccine and diagnostic assay for rotavirus-led diarrhea in children's.

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