N-Linked glycopeptides have highly diverse structures in nature. Herein, we describe the first synthesis of rare multi-antennary N-glycan bearing glycan chains on 6-OH of both α1,6- and α1,3-linked mannose arms. To expedite divergent generation of N-glycan structures, four orthogonal protective groups were installed at the branching points on the core tetrasaccharide, which could be removed individually without affecting one another. In addition, the synthetic route is flexible, allowing a bisecting glucosamine moiety to be introduced at a late stage of the synthesis, further expanding the diversity of sequences that could be achieved. The bisecting glucosamine unit significantly reduced the glycosylation yields of adjacent mannoses, which was attributed to steric hindrance imposed by the glucosamine based on molecular modelling analysis. The N-glycans were then transformed to oxazoline donors and ligated with a glycopeptide acceptor from haptoglobin promoted by the wild type Arthrobacter endo-β-N-acetylglucosaminidase (Endo-A). Endo-A exhibited interesting substrate preferences depending on donor sizes, which was rationalized through molecular dynamics studies. This is the first time that a glycopeptide bearing a bisecting N-acetyl glucosamine (GlcNAc), the rare N-glycan branch, and two LewisX trisaccharide antennae was synthesized, enabling access to this class of complex glycopeptide structures.
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机译:N-连接的糖肽在自然界中具有高度多样的结构。在这里,我们描述了在α1,6-和α1,3连接的甘露糖臂的6-OH上稀有的多天线N-聚糖带有聚糖链的首次合成。为了加速N-聚糖结构的发散生成,在核心四糖的分支点上安装了四个正交保护基团,这些保护基团可以单独除去而不会互相影响。另外,合成途径是灵活的,允许在合成的后期引入二等分的葡糖胺部分,进一步扩大了可以实现的序列的多样性。二等分的氨基葡萄糖单元显着降低了相邻甘露糖的糖基化产率,这归因于基于分子模型分析的氨基葡萄糖所施加的空间位阻。然后将N-聚糖转化为恶唑啉供体,并与野生型节杆菌内-β-N-乙酰氨基葡糖苷酶(Endo-A)促进的触珠蛋白的糖肽受体连接。 Endo-A表现出有趣的底物偏好,具体取决于供体的大小,这通过分子动力学研究得以合理化。这是首次合成具有二等分的N-乙酰氨基葡萄糖(GlcNAc),稀有的N-聚糖分支和两个Lewis X 三糖触角的糖肽,从而能够获得这类复杂的糖肽结构。
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