The conformational flexibility of the antibiotic virginiamycin M1

The antibiotic virginiamycin is a combination of two molecules, virginiamycin M₁ (VM1) and virginiamycin S₁ (VS1) or analogues, which function synergistically by binding to bacterial ribosomes and inhibiting bacterial protein synthesis. Both VM1 and VS1 dissolve poorly in water and are soluble in more hydrophobic solvents. We have recently reported that the 3D conformation of VM1 in CDCl₃ solution (Aust. J. Chem. 57:415, 2004; Org. Biomol. Chem. 2:2919, 2004) differs markedly from the conformation bound to a VM1 binding enzyme (Sugantino and Roderick in Biochemistry 41:2209, 2002) and to 50S ribosomes (Hansen et al. in J. Mol. Biol. 330:1061, 2003) as found by X-ray crystallographic studies. We now report the results of further NMR studies and subsequent molecular modeling of VM1 dissolved in CD₃CN/H₂O and compare the structure with that in CD₃OD and CDCl₃. The conformations of VM1 in CD₃CN/H₂O, CD₃OD and CDCl₃ differ substantially from one another and from the bound form, with the aqueous form most like the bound structure. We propose that the flexibility of the VM1 molecule in response to environmental conditions contributes to its effectiveness as an antibiotic.