Pelletier Guillaume, Zwicker Aaron, Allen C Liana, Schepartz Alanna, Miller Scott J
Department of Chemistry, Yale University , 225 Prospect Street, New Haven, Connecticut 06520-8107, United States.
J Am Chem Soc. 2016 Mar 9;138(9):3175-82. doi: 10.1021/jacs.5b13384. Epub 2016 Mar 1.
We report a synthetic glycosylation reaction between sucrosyl acceptors and glycosyl fluoride donors to yield the derived trisaccharides. This reaction proceeds at room temperature in an aqueous solvent mixture. Calcium salts and a tertiary amine base promote the reaction with high site-selectivity for either the 3'-position or 1'-position of the fructofuranoside unit. Because nonenzymatic aqueous oligosaccharide syntheses are underdeveloped, mechanistic studies were carried out in order to identify the origin of the selectivity, which we hypothesized was related to the structure of the hydroxyl group array in sucrose. The solution conformation of various monodeoxysucrose analogs revealed the co-operative nature of the hydroxyl groups in mediating both this aqueous glycosyl bond-forming reaction and the site-selectivity at the same time.
我们报道了蔗糖基受体与糖基氟供体之间的合成糖基化反应,以生成衍生的三糖。该反应在室温下于水性溶剂混合物中进行。钙盐和叔胺碱促进反应,对呋喃果糖苷单元的3'-位或1'-位具有高位点选择性。由于非酶促水性寡糖合成尚未充分发展,因此进行了机理研究,以确定选择性的来源,我们假设这与蔗糖中羟基阵列的结构有关。各种单脱氧蔗糖类似物的溶液构象揭示了羟基在介导这种水性糖基键形成反应和位点选择性方面的协同性质。