Conformational analysis of globomycin with a signal peptidase II inhibitory activity using molecular dynamics simulation.

Globomycin (1), a 19-membered cyclic depsipeptide, exhibited an antibiotic activity against gram-negative bacteria by inhibiting signal peptidase II in the cytoplasmic membrane. Although only one conformation of 1 was observed for the crystal structure, it was revealed by 1H NMR spectroscopic analysis that 1 exists as a mixture of two rotational isomers in solution (CDCl3 and CD3OD). A conformational analysis of 1 was, therefore, performed by high-temperature molecular dynamics simulation in combination with 1H NMR analysis to elucidate the conformations in solution. The relative ratio of the major and minor isomers present, which differs depending on the solvent, was then derived from their relative energy differences obtained in the conformational analysis. The difference in the relative ratios corresponded with that calculated from the 1H NMR analysis. Finally, the predicted conformations in solution were compared with that of the X-ray crystal structure to find local and global differences that characterize these conformations.