Theor Chem Acc, 2001, 106(12):48-54

Implicit two-phase solvation model as a tool to assess conformation and energetics of proteins in membrane-mimetic media

A heterogeneous implicit membrane-mimetic model is applied to simulations of membrane proteins. The model employs atomic solvation parameters for gas-water and gas-cyclohexane transfer. It is used to analyze structure, energetics, and orientation with respect to the bilayer of two polypeptides with different modes of membrane binding - hydrophobic segment of human glycophorin A (GpA) and cytotoxin II from Naja naja oxiana snake venom (CTX). The native state of GpA represents a transmembrane (TM) α helix, while CTX is a water-soluble protein, which is able to interact with the cell membrane. The conformational space of the polypeptides was explored in Monte Carlo simulations. The results show that the most stable conformers of GpA represent a TM α helix. They are additionally stabilized by an applied TM voltage. The results also show that CTX inserts with its three loops, does not cross the hydrophobic layer, and stays partially immersed in the membrane. This agrees well with the experimental data, thus confirming the validity of the solvation model.

IBCH: 1820
Ссылка на статью в журнале: http://link.springer.com/10.1007/s002140000220
Кол-во цитирований на 01.2024: 23
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