Ab initio modeling of small, medium, and large loops in proteins.

This study presents different procedures for ab initio modeling of peptide loops of different sizes in proteins. Small loops (up to 8--12 residues) were generated by a straightforward procedure with subsequent "averaging" over all the low-energy conformers obtained. The averaged conformer fairly represents the entire set of low-energy conformers, root mean square deviation (RMSD) values being from 1.

Novel approach to computer modeling of seven-helical transmembrane proteins: current progress in the test case of bacteriorhodopsin.

G-protein coupled receptors (GPCRs) are thought to be proteins with 7-membered transmembrane helical bundles (7TM proteins). Recently, the X-ray structures have been solved for two such proteins, namely for bacteriorhodopsin (BR) and rhodopsin (Rh), the latter being a GPCR. Despite similarities, the structures are different enough to suggest that 3D models for different GPCRs cannot be obtained directly employing 3D structures of BR or Rh as a unique template.

Effects of electric field on alamethicin bound at the lipid-water interface: a molecular mechanics study.

A systematic molecular mechanics study of the alamethicin molecule was made to determine a set of low-energy conformers in vacuo and in aqueous environment. The behavior of these conformers was investigated at the phase boundary which was modeled as a plane dividing two compartments with solvation properties of water and octanol with a constant electric field applied normal to the boundary. The calculations were performed with a molecular mechanics program for calculation of stable conformations at the phase boundary utilizing the Empiric Conformational Energy Program for Peptides force field and the Hopfinger-Scheraga solvation model.

[Analysis of the spatial structure of proteins in terms of residue-residue contacts. II. Contact affinity].

The possibility of detecting the mutual amino acid residue affinity when protein three-dimensional structures are described in terms of residue-residue contact matrices is discussed. The hypothesis of the lack of affinity between amino acid residues is examined; the values of the pertinent elements of the overall residue-residue contact matrices prove not to be statistically different from random estimates in 91%; the chance hypothesis is rejected in 9% of cases, represented as a rule by residues with charged side groups, especially oppositely charged ones.

[Conformational-functional relationships of tetragastrin analogs].

Sets of low-energy backbone conformations of the active tetragastrin analogue Boc-Trp-Leu-Asp-Phe-NH2 and two competitive antagonists Boc-Trp-Leu psi (CH2NH)-Asp-Phe-NH2 and Boc-Trp-Leu-Asp-O-CH2-CH2-C6H5 were obtained using theoretical conformational analysis methods. Groups of the conformations were selected for the three analogues, allowing a spatial matching of Trp, Asp and Phe residues responsible for the gastrin receptor binding. Three conformations possessing the lowest energies among the geometrically similar structures of these three peptides are suggested as a model for the "receptor-bound" conformations of these analogues.