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Role of histidine for charge regulation of unstructured peptides at interfaces and in bulk
Author(s) -
Kurut Anıl,
Henriques João,
Forsman Jan,
Skepö Marie,
Lund Mikael
Publication year - 2014
Publication title -
proteins: structure, function, and bioinformatics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.699
H-Index - 191
eISSN - 1097-0134
pISSN - 0887-3585
DOI - 10.1002/prot.24445
Subject(s) - histidine , chemistry , molecular dynamics , adsorption , static electricity , antimicrobial peptides , electrostatics , charge density , surface charge , membrane , peptide , chemical physics , ion , monte carlo method , function (biology) , proton , computational chemistry , amino acid , physics , organic chemistry , biochemistry , quantum mechanics , statistics , mathematics , evolutionary biology , biology
Histidine‐rich, unstructured peptides adsorb to charged interfaces such as mineral surfaces and microbial cell membranes. At a molecular level, we investigate the adsorption mechanism as a function of pH, salt, and multivalent ions showing that (1) proton charge fluctuations are—in contrast to the majority of proteins—optimal at neutral pH, promoting electrostatic interactions with anionic surfaces through charge regulation and (2) specific zinc(II)‐histidine binding competes with protons and ensures an unusually constant charge distribution over a broad pH interval. In turn, this further enhances surface adsorption. Our analysis is based on atomistic molecular dynamics simulations, coarse grained Metropolis Monte Carlo, and classical polymer density functional theory. This multiscale modeling provides a consistent picture in good agreement with experimental data on Histatin 5, an antimicrobial salivary peptide. Biological function is discussed and we suggest that charge regulation is a significant driving force for the remarkably robust activity of histidine‐rich antimicrobial peptides. Proteins 2014; 82:657–667. © 2013 Wiley Periodicals, Inc.

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