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Document Details
Document Type
:
Article In Journal
Document Title
:
Computer modelling and simulation of thermotropic and lyotropic alkyl glycoside bilayers
Computer modelling and simulation of thermotropic and lyotropic alkyl glycoside bilayers
Subject
:
Chemistry
Document Language
:
English
Abstract
:
Simulations on bilayers have previously proven their ability to provide insights to membrane function, e.g. cell fusion. Most simulations are based on the major components of cell membranes, which are phospholipids and cholesterol. Membranes can be explained based on hydrophilic and hydrophobic interactions permeated through hydrogen bonding, van der Waals interactions and repulsion forces. Whereas especially phospholipids have gained significant attention in bio-related modelling and simulations, glycolipids, which constitute another major component of cell membranes, have not been likewise studied. Here we present the simulation of bilayers for the six most common and simple stereoisomeric glycolipids, namely the α- and β-octyl glycosides of glucose, galactose and mannose, in both thermotropic and lyotropic systems. All these compounds form thermotropic smectic A phases and can exhibit lyotropic lamellar assemblies. We have studied the hydrogen bonding and linked the results to the temperature stability of the corresponding liquid crystal phase. Besides a mesophase-stabilizing effect of hydrogen bonding in general, we found that thermal stability appears to be particularly affected by intralayer hydrogen bonding. The simulations also confirmed a significant difference in the density of the lipophilic region for α- and β-glycosides, which has previously been used to explain differences in clearing temperatures.
ISSN
:
0267-8292
Journal Name
:
Liquid Crystals
Volume
:
34
Issue Number
:
2
Publishing Year
:
1428 AH
2007 AD
Article Type
:
Article
Added Date
:
Saturday, December 24, 2011
Researchers
Researcher Name (Arabic)
Researcher Name (English)
Researcher Type
Dr Grade
Email
Teow Teoh Chong
Chong, Teow Teoh
Researcher
Doctorate
Thorsten Heidelberg
Heidelberg, Thorsten
Researcher
Doctorate
Rauzah Hashim
Hashim, Rauzah
Researcher
Doctorate
سعدالله قاري عزيز
Aziz, Saadullah G
Researcher
Doctorate
Files
File Name
Type
Description
31742.pdf
pdf
Abstract
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