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Abstract
The theoretical conformational analysis of glycine tripeptide (GT) has been carried out by molecular dynamics (MD) method in order to find minimum energy conformations. The MD studies on GT with water have been carried out for over 10 ns with a time step of 2 fs using fixed charge force field (AMBER ff03). By adding the solvation effect using water as a solvent, the GT conformers identified in this study exhibit α-helical conformation. Compared with the earlier reports, this MD study is able to identify the energetically favourable GT conformations. The obtained geometry of the five most stable GT conformations was optimised using the density functional theory method at B3LYP/6-311G** level of theory. Subsequently, the effects of solvation on the conformational characteristics of five most stable GT conformers with four water molecules (the number of water molecules in the first solvation shell of GT obtained from MD study) were investigated using the same method and the same level of theory. The effect of microsolvation on the fifth GT conformer has been studied with a cluster of 11 water molecules as the first hydration shell which generates folded structure. The interaction energies of all the complexes are calculated by correcting the basis set superposition error. The strong hydrogen bond mainly contributes to the interaction energies. The atoms in molecules theory and natural bond orbital analysis were used to study the origin of H-bonds. A good correlation between the structural parameters and the properties of charge density is found. NMR calculations show that the C = O carbons of the amine groups of the first and middle glycine fragments have maximum chemical shifts.
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Acknowledgements
The authors R. Kanakaraju and B. Yogeswari gratefully thank the University Grants Commission, New Delhi, India, for the financial support in the form of Major Research Project (No. 40-436/2011 (SR)).