Department of Chemistry, University of Turku, FIN-20014 Turku, Finland.
Carbohydr Res. 2010 Mar 30;345(5):696-703. doi: 10.1016/j.carres.2009.12.026. Epub 2010 Jan 4.
Nucleoside diphosphate sugars serve in essential roles in metabolic processes. They have, therefore, been used in mechanistic studies on glycosylation reactions, and their analogues have been synthesised as enzyme and receptor inhibitors. Despite extensive biochemical research, little is known about their chemical reactions. In the present work the chemical cleavage of two different types of nucleoside diphosphate sugars has been studied. UDP-Glc is phosphorylated at the anomeric carbon, whereas in ADP-Rib C-1 is unsubstituted, allowing hence the equilibrium between cyclic hemiacetal and acyclic carbonyl forms. Due to the structural difference, these substrates react via different pathways under slightly alkaline conditions: while UDP-Glc reacts exclusively by a nucleophilic attack of a glucose hydroxyl group on the diphosphate moiety, ADP-Rib undergoes a complex reaction sequence that involves isomerisation processes of the acyclic ribose sugar and results in a release of ADP.
核苷二磷酸糖在代谢过程中起着重要的作用。因此,它们被用于糖基化反应的机制研究,并且它们的类似物被合成作为酶和受体抑制剂。尽管进行了广泛的生化研究,但对它们的化学反应知之甚少。在本工作中,研究了两种不同类型的核苷二磷酸糖的化学裂解。UDP-Glc 在端基碳原子上被磷酸化,而在 ADP-Rib 中 C-1 未被取代,因此允许环状半缩醛和无环羰基形式之间的平衡。由于结构上的差异,这些底物在略碱性条件下通过不同的途径反应:虽然 UDP-Glc 仅通过葡萄糖羟基对二磷酸部分的亲核攻击反应,但 ADP-Rib 经历涉及无环核糖糖的异构化过程的复杂反应序列,导致 ADP 的释放。