Objective: European bat lyssaviruses (EBLV) type 2 is present in many European countries. Infection is usually seen in bats, the primary reservoirs of the viruses. Human deaths have been documented within few days following bat exposures. So, it is very useful to design an insilco peptide vaccine for European bat lyssaviruses type 2 virus using glycoprotein G as an immunogen to stimulate protective immune response. Results: B cell tests were conducted for Bepipred with 15 conserved epitopes, Emini surface accessibility prediction with 7 conserved epitopes in the surface and Kolaskar and Tongaonkar antigenicity tested with three conserved epitopes being antigenic. 357 conserved epitopes were predicted to interact with different MHC-1 alleles with (IC50) ≤500 while 282 conserved epitopes found to interact with MHC-II alleles with IC50≤ 1000. Among all tested epitopes for world population coverage the epitope VFSYMELKV binding to MHC11 alleles was 97.94% and it found to bind 10 different alleles that indicate strong potential to formulate peptide vaccine for lyssaviruses type 2 virus. To the best of our knowledge this is the first study to propose peptide vaccine for European bat lyssavirus type 2.
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