Multi-epitope vaccine against SARS-CoV-2 targeting the spike RBD: an immunoinformatics approach.

ABSTRACT

Aim: We designed a SARS-CoV-2 epitope vaccine based on the receptor-binding domain (RBD) in virus spike protein. Methods: RT-PCR performed on nasopharyngeal swab COVID-19 patients. After registering RBD region in the GenBank, physicochemical parameters, secondary structure, homology modeling, 3D structure of RBD region and antigenicity were determined using ProtParam ExPASy, PSIPRED, MolProbity, IEDB and Vaxijen online tools, respectively. Results: B and T cell epitopes were predicted in terms of non-allergenicity and antigenicity. MolProbity analysis provided a qualitative model for RBD. The homology model showed that most of the residues are in optimal district of energy. Conclusion: High immunogenicity score of epitopes indicates promising candidates for the development of multi-epitope vaccines. It may help to develop an effective vaccine.

In order to identify the sequence of RBD region of S protein in SARS-CoV-2, RT-PCR test was performed on nasopharyngeal swab samples of four COVID-19 patients referred to Imam Khomeini Hospital in Ardabil. After registering the sequence of the RBD region in the GenBank database, the physicochemical parameters, secondary structure, homology modeling, 3D structure of the RBD region and antigenicity were determined using ProtParam ExPASy, PSIPRED, MolProbity, IEDB and Vaxijen online tools, respectively.