A molecular dynamics study of the dielectric properties of aqueous solutions of alanine and alanine dipeptide

摘要

Molecular dynamics simulations were used to compute the frequency-dependent dielectric susceptibility of aqueous solutions of alanine and alanine dipeptide.We studied four alanine solutions,ranging in concentration from 0.13-0.55 mol/liter,and two solutions of alanine dipeptide (0.13 and 0.27 mol/liter).In accord with experiment we find a strong dielectric increment for both solutes,whose molecualr origin is shown to be the zwitterionic nature of the solutes.The dynamic properties were analyzed based on a dielectric component analysis into solute,a first hydration shell,and all remaining (bulk) waters.The results of this three component decomposition were interpreted directly,as well as by uniting the solute and hydration shell component to a "suprasolute" component.In both approaches three contributions to the frequency-dependent dielectric properties can be discerned.The quantitatively largest and fastest component arises from bulk water [i.e.,water not influenced by the solute(s)].The interaction between waters surrounding the solute(s) (the hydration shell) and bulk water molecules leads to a relaxation process occurring on an intermediate time scale.The slowest relaxation process originates from the solute(s) and the interaction of the solute (s) with the first ydration shell and bulk water.The primary importance of the hydration shell is he exchange of shell and bulk waters;the self-contribution from bound water molecules is comparativley small.White in the alanine solutions the solute-water cross-terms are more important than the solute self-term,the solute contribution is larger in the dipeptide solutions.In the latter systems a much clearer separation of time scales between water and alanine dipeptide related properties is observed.The similarities and differences of the dielectric properties of the amino acid/peptide solutions studied in this work and of solutions of mono-and disaccharides and of the protein ubiquitin are discussed.