THE CONFORMATIONAL EQUILIBRIA OF A RENIN INHIBITOR PEPTIDE IN SOLUTION

The conformational equilibrium of a decapeptide renin inhibitor (Renin Inhibitory Peptide (RIP), NH-P-H-P-F-H-F-F-V-Y-K-CO2H) in water, methanol and trifluoroethanol has been investigated. The value of a combined spectroscopic approach was apparent, with the need to define conformational states that were mixtures of conformational forms. Similarities between this study and that of the Melanin Concentrating Hormone (MCH) core peptide (5-14) are notable [1]. In water, two beta-turn conformations and an extended form were found to be in equilibrium, with cis/trans isomerism at Pro-3. Extended conformations associated with the P-II helix and irregular forms were more favoured in aqueous environments. In MeOH and TFE, two beta-turn conformations associated with overlapping sequences and cis/trans isomerism at Pro-3 amide bond were seen to be in equilibrium. 2D ROESY and chemical-exchange cross-peaks were detected by H-1 NMR and used to build up detailed models of the interconverting beta-turn conformations of RIP.