Munneke Stefan, Painter Gavin F, Gainsford Graeme J, Stocker Bridget L, Timmer Mattie S M
School of Chemical and Physical Sciences, Victoria University of Wellington, PO Box 600, Wellington, New Zealand.
Ferrier Institute, Victoria University of Wellington, PO Box 600, Wellington, New Zealand.
Carbohydr Res. 2015 Sep 23;414:1-7. doi: 10.1016/j.carres.2015.05.017. Epub 2015 Jun 12.
Herein, we report on a highly efficient synthesis of a crystalline protected Lewis(X) trisaccharide that was converted to Lewis(X) following global deprotection. The trisaccharide was prepared in a highly convergent synthesis (seven steps, longest linear sequence) and in a 38% overall yield using a strategy that involved the regioselective glycosylation of a GlcNAc acceptor with a galactose thioglycoside donor, followed by fucosylation of the remaining free GlcNAc hydroxyl as key steps. The core trisaccharide also has the potential to be converted to other members of the Type-2 Lewis family of antigens due to the orthogonal nature of the protecting groups employed.
在此,我们报道了一种结晶性保护的Lewis(X)三糖的高效合成方法,该三糖在整体脱保护后可转化为Lewis(X)。该三糖通过高度汇聚的合成方法(七步,最长线性序列)制备,总产率为38%,所采用的策略包括用半乳糖硫苷供体对GlcNAc受体进行区域选择性糖基化,随后将剩余游离的GlcNAc羟基进行岩藻糖基化作为关键步骤。由于所采用保护基的正交性,核心三糖还有可能转化为2型Lewis家族抗原的其他成员。