Division of Medicinal Chemistry, College of Pharmacy, and Department of Chemistry and Biochemistry, University of Texas, Austin, TX 78712, USA.
Chem Soc Rev. 2013 May 21;42(10):4377-407. doi: 10.1039/c2cs35438a. Epub 2013 Jan 25.
Carbohydrates serve many structural and functional roles in biology. While the majority of monosaccharides are characterized by the chemical composition (CH2O)n, modifications including deoxygenation, C-alkylation, amination, O- and N-methylation, which are characteristic of many sugar appendages of secondary metabolites, are not uncommon. Interestingly, some sugar molecules are formed via modifications including amine oxidation, sulfur incorporation, and "high-carbon" chain attachment. Most of these unusual sugars have been identified over the past several decades as components of microbially produced natural products, although a few high-carbon sugars are also found in the lipooligosaccharides of the outer cell walls of Gram-negative bacteria. Despite their broad distribution in nature, these sugars are considered "rare" due to their relative scarcity. The biosynthetic steps that underlie their formation continue to perplex researchers to this day and many questions regarding key transformations remain unanswered. This review will focus on our current understanding of the biosynthesis of unusual sugars bearing oxidized amine substituents, thio-functional groups, and high-carbon chains.
碳水化合物在生物学中具有多种结构和功能作用。虽然大多数单糖的化学组成特征为(CH2O)n,但包括脱氧、C-烷基化、氨基化、O-和 N-甲基化在内的修饰并不罕见,这些修饰是许多次级代谢物糖附属物的特征。有趣的是,一些糖分子是通过包括胺氧化、硫掺入和“高碳”链连接在内的修饰形成的。尽管这些不寻常的糖在过去几十年中已被确定为微生物产生的天然产物的成分,但也有少数高碳糖存在于革兰氏阴性细菌细胞壁外的脂寡糖中。尽管它们在自然界中广泛分布,但由于它们相对稀缺,这些糖被认为是“稀有”的。这些糖形成的生物合成步骤至今仍令研究人员感到困惑,许多关键转化的问题仍然没有答案。本文综述将重点介绍我们目前对含氧化胺取代基、硫功能基团和高碳链的不寻常糖的生物合成的理解。