Resumen:
Mapping B and T cell epitopes constitutes an important action for peptide vaccine design.
PLD and CP40 virulence factors of Corynebacterium pseudotuberculosis biovar ovis, a causal agent of
Caseous Lymphadenitis, have been evaluated in a murine model as good candidates for vaccine
development. Therefore, the goal of this work was to in silico analyze B and T cell epitopes of the
PLD and CP40 proteins of a Mexican isolate of Corynebacterium pseudotuberculosis ovis. The Immune
Epitope Data Base and Resource website was employed to predict the linear and conformational
B-cell, T CD4+, and T CD8+ epitopes of PLD and CP40 proteins of Corynebacterium pseudotuberculosis
ovis Mexican strain 2J-L. Fifty B cell epitopes for PLD 2J-L and forty-seven for CP40 2J-L were
estimated. In addition, T CD4+ and CD8+ cell epitopes were predicted for PLD 2J-L (MHC I:16
epitopes, MHC II:10 epitopes) and CP40 2J-L (MHC I: 15 epitopes, MHC II: 13 epitopes). This study
provides epitopes, paying particular attention to sequences selected by different predictor programs
and overlap sequences as B and T cell epitopes. PLD 2J-L and CP40 2J-L protein epitopes may aid in
the design of a promising peptide-based vaccine against Caseous Lymphadenitis in Mexico.