Computer Simulation of a Hexagonal Assembly for a Branched Chain Glycolipid

Main Article Content

Teoh T. Chong
, Thorsten Heidelbergl
Richard A. Bryce

Abstract

Glycolipids are surfactants that assemble in ordered structures both in the presence and


absence of a solvent, e.g. water. Branched chain glycosides with long chain length display stable columnar assemblies, which are commonly hexagonal packed. We here report on a molecular dynamics simulation study of a Guerbet-type maltoside involving a long symmetrically branched chain alcohol. A hexagonal columnar model-assembly involving 224 glycolipid and 560 water molecules with a total of almost 27,000 atoms was constructed and monitored over a period of 5 ns at 300 K using Amber. The simulation indicates stability for the hexagonal structure and classifies the water as bound water.

Downloads

Download data is not yet available.

Article Details

How to Cite
T. Chong, T., Heidelbergl, , T., & A. Bryce, R. (2008). Computer Simulation of a Hexagonal Assembly for a Branched Chain Glycolipid. Malaysian Journal of Science, 27(2), 75–82. Retrieved from http://mojes.um.edu.my/index.php/MJS/article/view/9210
Section
Original Articles