Abstract
T cell recognition of the peptide-MHC complex initiates a cascade of immunological events necessary for immune responses. Accurate T-cell epitope prediction is an important part of the vaccine designing. Development of predictive algorithms based on sequence profile requires a very large number of experimental binding peptide data to major histocompatibility complex (MHC) molecules. Here we used inverse folding approach to study the peptide specificity of MHC Class-I molecule with the aim of obtaining a better differentiation between binding and nonbinding sequence. Overlapping peptides, spanning the entire protein sequence, are threaded through the backbone coordinates of a known peptide fold in the MHC groove, and their interaction energies are evaluated using statistical pairwise contact potentials. We used the Miyazawa & Jernigan and Betancourt & Thirumalai tables for pairwise contact potentials, and two distance criteria (Nearest atom >> 4.0 A & C-beta >> 7.0 A) for ranking the peptides in an ascending order according to their energy values, and in most cases, known antigenic peptides are highly ranked. The predictions from threading improved when used multiple templates and average scoring scheme. In general, when structural information about a protein-peptide complex is available, the current application of the threading approach can be used to screen a large library of peptides for selection of the best binders to the target protein. The proposed scheme may significantly reduce the number of peptides to be tested in wet laboratory for epitope based vaccine design.
Highlights
Development of epitope-based vaccines critically requires identification of regions in non-self and mutated proteins which are recognized by cytotoxic T lymphocyte (CTLs)
Accurate T-cell epitope prediction is an important part of the vaccine designing
We used inverse folding approach to study the peptide specificity of major histocompatibility complex (MHC) class I molecule with the aim of obtaining a better differentiation between binding and nonbinding peptides
Summary
Development of epitope-based vaccines critically requires identification of regions in non-self and mutated proteins which are recognized by cytotoxic T lymphocyte (CTLs). The pair wise potential is used to estimate the binding energies of Threading with a contact potential matrix peptide sequences threaded upon the different structural template In this method, binding affinity of a peptide is predicted by MJ pair-wise contact potential table puts much emphasis on the total energy of interaction with contact residues. Amino acid interactions are taken from the table of using multiple templates potentially should provide a better fit for statistical pairwise contact potentials derived by MJ and BT the binding peptides. This crude force field is not [10, 11].
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