口腔细菌变形链球菌UA159中四种糖基化脂质的结构特征。

Biochimica et biophysica acta Pub Date : 2013-07-01
Larry Sallans, José-Luis Giner, David J Kiemle, Jenny E Custer, Edna S Kaneshiro
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引用次数: 0

摘要

致龋细菌变形链球菌是一种重要的牙齿病原体,它在牙齿表面形成生物膜,为细菌提供保护生态位,分泌有机酸,导致牙釉质脱矿。脂类,尤其是糖脂类可能是这些生物膜基质的关键成分。变形链球菌的UA159菌株是最早进行基因组测序的微生物之一。虽然其他变形链球菌的脂质已经被鉴定和表征,但对UA159的脂质分析仅限于对其脂肪酸的一些研究。在这里,我们报道了静止期变形链球菌UA159细胞中四种主要糖脂的结构。它们分别是单葡萄糖基二酰基甘油(MGDAG)、二葡萄糖基二酰基甘油(DGDAG)、二葡萄糖基单酰基甘油(DGMAG)和甘油磷酸基二葡萄糖基二酰基甘油(GPDGDAG)。采用高效薄层色谱法、质谱法和核磁共振谱法对其结构进行了表征。采用精确、高分辨率串联质谱法对糖脂进行了鉴定。采用一种新颖、高效的核磁共振方法确定了糖脂中糖单元的身份。所有糖都被证明具有α -糖苷键,并且DGMAG在sn-1位置被核磁共振证明是酰化的。这是在任何生物体中首次观察到未取代的DGMAG,也是GPDGDAG的第一个质谱数据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Structural identities of four glycosylated lipids in the oral bacterium Streptococcus mutans UA159.

The cariogenic bacterium Streptococcus mutans is an important dental pathogen that forms biofilms on tooth surfaces, which provide a protective niche for the bacterium where it secretes organic acids leading to the demineralization of tooth enamel. Lipids, especially glycolipids are likely to be key components of these biofilm matrices. The UA159 strain of S. mutans was among the earliest microorganisms to have its genome sequenced. While the lipids of other S. mutans strains have been identified and characterized, lipid analyses of UA159 have been limited to a few studies on its fatty acids. Here we report the structures of the four major glycolipids from stationary-phase S. mutans UA159 cells grown in standing cultures. These were shown to be monoglucosyldiacylglycerol (MGDAG), diglucosyldiacylglycerol (DGDAG), diglucosylmonoacylglycerol (DGMAG) and, glycerophosphoryldiglucosyldiacylglycerol (GPDGDAG). The structures were determined by high performance thin-layer chromatography, mass spectrometry and nuclear magnetic resonance spectroscopy. The glycolipids were identified by accurate, high resolution, and tandem mass spectrometry. The identities of the sugar units in the glycolipids were determined by a novel and highly efficient NMR method. All sugars were shown to have alpha-glycosidic linkages and DGMAG was shown to be acylated in the sn-1 position by NMR. This is the first observation of unsubstituted DGMAG in any organism and the first mass spectrometry data for GPDGDAG.

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