Computational investigation of the conformational profile of the four stereomers of Ac-L-Pro-c3Phe-NHMe (c3Phe= 2,3-methanophenylalanine).

The present report regards a computational study aimed at assessing the conformational profile of the four stereoisomers of the peptide Ace-Pro-c3Phe-NMe, previously reported to exhibit beta-turn structures in dichloromethane with different type I/type II beta-turn profiles. Molecular systems were represented at the molecular mechanics level using the parm96 parameterization of the AMBER force field. Calculations were carried out in dichloromethane using an implicit solvent approach.

Structural analysis of substance P using molecular dynamics and NMR spectroscopy.

The present work is a combined structural study, using Nuclear Magnetic Resonance (NMR) and Molecular Dynamics(MD), of the amidated and the free acid forms of substance P in water and methanol. The results obtained using both approaches were compared in order to characterize the structural features of both peptides in solution. From the NMR experiments it was derived that the free acid form adopts an extended conformation at the N-terminus and a helical conformation at the C-terminal segment of the peptide in both water and methanol; these structural features are in qualitative agreement with the results of the MD simulations.

Complete maps of molecular-loop conformational spaces.

This paper presents a numerical method to compute all possible conformations of distance-constrained molecular loops, i.e., loops where some interatomic distances are held fixed, while others can vary.

A theoretical study of pentacyclo-undecane cage peptides of the type [Ac-X-Y-NHMe].

The conformational preferences of peptides of the type, Ac-X-Y-NHMe, where X and Y = Ala, cage and Pro, were studied by means of computational techniques within the framework of a molecular mechanics approach. For each of the eight peptide analogues, extensive conformational searches were carried out using molecular dynamics (MD) and simulated annealing (SA) protocols in an iterative fashion. Both results are in good agreement and complement each other.

Comparative analysis of the conformational profile of substance P using simulated annealing and molecular dynamics.

The present study describes an extensive conformational search of substance P using two different computational methods. On the one hand, the peptide was studied using the iterative simulated annealing, and on the other, molecular dynamics simulations at 300 and 400 K. With the former method, the peptide was studied in vacuo with a dielectric constant of 80, whereas using the latter study the peptide was studied in a box of TIP3P water molecules.