Effects of varying the 6-position oxidation state of hexopyranoses: a systematic comparative computational analysis of 48 monosaccharide stereoisomers
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Title
- Effects of varying the 6-position oxidation state of hexopyranoses: a systematic comparative computational analysis of 48 monosaccharide stereoisomers
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Author(s)
- Vickman A.E.; Ashley D.C.; Mu-Hyun Baik; Pohl N.L.B.
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Subject
- Carbohydrates, ; Conformational analysis, ; Density functional theory
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Publication Date
- 2017-07
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Journal
- JOURNAL OF MOLECULAR MODELING, v.23, no.7, pp.214
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Publisher
- Springer
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Abstract
- Knowledge of multi-dimensional carbohydrate structure is essential when delineating structure–function relationships in the development of analytical techniques such as ion mobility-mass spectrometry and of carbohydrate-based therapeutics, as well as in rationally modifying the chemical and physical properties of drugs and materials based on sugars. Although monosaccharides are conventionally presumed to adopt the canonical 4C1 chair conformation, it is not well known how altering the substituent identity around the pyranose ring affects the favored conformational state. This work provides a comprehensive and systematic computational comparison of all eight aldohexose isomers in the gas phase with reduction and oxidation at the C-6 position using density functional theory (M05-2X/cc-pVTZ(−f)//B3LYP/6-31G**) to determine the conformational and anomeric preference for each sugar in the gas phase. All 6-deoxyhexose and aldohexose isomers favored the 4C1 chair conformation, while oxidation at C-6 showed a shift in equilibrium to favor the 1C4 chair for β-alluronic acid, β-guluronic acid, and β-iduronic acid. The anomeric preference was found to be significantly affected by a remote change in oxidation state, with the alternate anomer favored for several isomers. These findings provide a fundamental platform to empirically test steric and electronic effects of pyranose substituents, with the goal of formulating straightforward rules that govern carbohydrate reactivity and drive quicker, more efficient syntheses. [Figure not available: see fulltext.]. © 2017, Springer-Verlag GmbH Germany
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URI
- https://pr.ibs.re.kr/handle/8788114/3950
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DOI
- 10.1007/s00894-017-3385-x
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ISSN
- 1610-2940
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Appears in Collections:
- Center for Catalytic Hydrocarbon Functionalizations(분자활성 촉매반응 연구단) > 1. Journal Papers (저널논문)
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