AI Article Synopsis
- Anomers and epimers of glucosides are expected to show different behaviors, but recent findings suggest that β-glucosides and α-galactosides have similar liquid crystal clearing temperatures.
- This similarity may be due to the trans-configuration of the 4-OH group and the presence of a hydrophobic aglycon, which affect their self-assembly interactions.
- A study comparing α-gluco and β-galactosides, alongside synthesized α-configurated Guerbet glucosides, confirmed these observations and highlighted how differences in hydrogen bonding directions contribute to variations in the pairs' properties.
Article Abstract
Anomers and epimers α- and β-gluco and -galactosides are expected to behave differently. However, recent results on a series of Guerbet glycosides have indicated similar liquid crystal clearing temperatures for pure β-glucosides and the corresponding α-galactosides. This observation has led to speculation on similarities in the self-assembly interactions between the two systems, attributed to the trans-configuration of the 4-OH group and the hydrophobic aglycon. Previous simulations on related bilayers systems support this hypothesis, by relating this clearing transition temperature to intralayer (sugar-sugar) hydrogen bonding. In order to confirm the hypothesis, the comparison was expanded to include the cis-configurated pair, that is, α-gluco/β-galactoside. A set of α-configurated Guerbet glucosides as well as octyl α-galactoside were prepared and their thermotropic phase behavior studied. The data obtained enabled a complete comparison of the isomers of interest. While the results in general are in line with a pairing of the stereo-isomers according to the indicated cis/trans-configuration, differences within the pairs can be explained based on the direction of hydrogen bonds from a simple modeling study.
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| http://dx.doi.org/10.1016/j.carres.2011.10.032 | DOI Listing |
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