稀有糖类的化学反应:阿尔特罗米苷的合成与构象特性分析

IF 2.4 3区 化学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Clemens Lütjohann , Christian Näther , Thisbe K. Lindhorst
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引用次数: 0

摘要

我们描述了迄今未知的全套甲基阿洛糖苷的合成过程,以及对某些合成化合物构象动态的初步分析。d-阿洛糖化学在很大程度上被忽视,因为它是一种罕见的糖类,必须首先分别从葡萄糖或甘露糖合成。然而,d-阿卓糖特别有趣,因为互补椅构象之间的能量障碍相当低,因此可能会出现动态混合物构象。我们介绍了从 d-甘露糖和作为有用的糖基供体的altrosyl-trichloroacetimidate合成选择性保护的altrosyl受体,以实现 (1 → 2)、(1 → 3)、(1 → 4)和 (1 → 6)-α 链接的altrobiosides。通过核磁共振和 VCD 光谱分析,非对映的 α- 和 β-O-(d-altropyranosyl)-三氯乙酰亚胺酸盐采用了不同的环构象。此外,根据核磁共振分析,所获得的altrobiosides的吡喃糖环构象显然不同于常规的4C1椅子,并且受到糖苷键的区域化学的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Ready chemistry with a rare sugar: Altrobioside synthesis and analysis of conformational characteristics

Ready chemistry with a rare sugar: Altrobioside synthesis and analysis of conformational characteristics

We describe the synthesis of the full set of the so far unknown methyl altrobiosides and the initial analysis of the conformational dynamic which occurs in some of the synthesized compounds. d-Altrose chemistry has largely been neglected as it is a rare sugar and has first to be synthesized from glucose or mannose, respectively. Nevertheless, d-altrose is particularly interesting as the energy barrier between the complementary chair conformations is rather low and therefore dynamic mixtures of conformers might occur. We describe the ready synthesis of the selectively protected altrosyl acceptors for the glycosidation from d-mannose and the altrosyl-trichloroacetimidate as useful glycosyl donor to achieve the (1 → 2), (1 → 3), (1 → 4), and (1 → 6)-α-linked altrobiosides. The diastereomeric α- and β-O-(d-altropyranosyl)-trichloroacetimidates adopt different ring conformations as analyzed by NMR and VCD spectroscopy. Also, the pyranose ring conformations of the obtained altrobiosides apparently differ from a regular 4C1 chair according to NMR analysis and are influenced by the regiochemistry of the interglycosidic linkage.

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来源期刊
Carbohydrate Research
Carbohydrate Research 化学-生化与分子生物学
CiteScore
5.00
自引率
3.20%
发文量
183
审稿时长
3.6 weeks
期刊介绍: Carbohydrate Research publishes reports of original research in the following areas of carbohydrate science: action of enzymes, analytical chemistry, biochemistry (biosynthesis, degradation, structural and functional biochemistry, conformation, molecular recognition, enzyme mechanisms, carbohydrate-processing enzymes, including glycosidases and glycosyltransferases), chemical synthesis, isolation of natural products, physicochemical studies, reactions and their mechanisms, the study of structures and stereochemistry, and technological aspects. Papers on polysaccharides should have a "molecular" component; that is a paper on new or modified polysaccharides should include structural information and characterization in addition to the usual studies of rheological properties and the like. A paper on a new, naturally occurring polysaccharide should include structural information, defining monosaccharide components and linkage sequence. Papers devoted wholly or partly to X-ray crystallographic studies, or to computational aspects (molecular mechanics or molecular orbital calculations, simulations via molecular dynamics), will be considered if they meet certain criteria. For computational papers the requirements are that the methods used be specified in sufficient detail to permit replication of the results, and that the conclusions be shown to have relevance to experimental observations - the authors'' own data or data from the literature. Specific directions for the presentation of X-ray data are given below under Results and "discussion".
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