Different Protonation Equilibria of 4‐Methylimidazole and Acetic Acid |
| |
Authors: | Wei Gu Volkhard Helms Dr |
| |
Institution: | Zentrum für Bioinformatik, Universit?t des Saarlandes, 66041 Saarbrücken, Germany, Fax: (+49)?6813 0264180 |
| |
Abstract: | Dynamic protonation equilibria in water of one 4‐methylimidazole molecule as well as for pairs and groups consisting of 4‐methylimidazole, acetic acid and bridging water molecules are studied using Q‐HOP molecular dynamics simulation. We find a qualitatively different protonation behavior of 4‐methylimidazole compared to that of acetic acid. On one hand, deprotonated, neutral 4‐methylimidazole cannot as easily attract a freely diffusing extra proton from solution. Once the proton is bound, however, it remains tightly bound on a time scale of tens of nanoseconds. In a linear chain composed of acetic acid, a separating water molecule and 4‐methylimidazole, an excess proton is equally shared between 4‐methylimidazole and water. When a water molecule is linearly placed between two acetic acid molecules, the excess proton is always found on the central water. On the other hand, an excess proton in a 4‐methylimidazole‐water‐4‐methylimidazole chain is always localized on one of the two 4‐methylimidazoles. These findings are of interest to the discussion of proton transfer along chains of amino acids and water molecules in biomolecules. |
| |
Keywords: | amino acids hydrogen bonds molecular dynamics proton diffusion proton transport |
|
|