The folding dynamics and structural characteristics of peptides RTKAWNRQLYPEW (P1) and RTKQLYPEW (P2) are investigated by using all-atomic simulation procedure CHARMM in this work. The results show that P1, a segm...The folding dynamics and structural characteristics of peptides RTKAWNRQLYPEW (P1) and RTKQLYPEW (P2) are investigated by using all-atomic simulation procedure CHARMM in this work. The results show that P1, a segment of an antigen, has a folding motif of α-helix, whereas P2, which is derived by deleting four residues AWNR from peptide P1, prevents the formation of helix and presents a β-strand. And peptlde P1 experiences a more rugged energy landscape than peptide P2. From our results, it is inferred that the antibody CD8 cytolytic T lymphocyte prefers an antigen with a β-folding structure to that with an α-helical one.展开更多
基金Project supported by the National Natural Science Foundation of China (Grant Nos 90103031, 10474041, 90403120 and 10021001), and the Nonlinear Project (973) of the NSM.
文摘The folding dynamics and structural characteristics of peptides RTKAWNRQLYPEW (P1) and RTKQLYPEW (P2) are investigated by using all-atomic simulation procedure CHARMM in this work. The results show that P1, a segment of an antigen, has a folding motif of α-helix, whereas P2, which is derived by deleting four residues AWNR from peptide P1, prevents the formation of helix and presents a β-strand. And peptlde P1 experiences a more rugged energy landscape than peptide P2. From our results, it is inferred that the antibody CD8 cytolytic T lymphocyte prefers an antigen with a β-folding structure to that with an α-helical one.
