Efficient synthesis of β-(1,6)-linked oligosaccharides through microwave-assisted glycosylation

Li L.; Franckowiak E.A.; Xu Y.; McClain E.; Du W.

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Efficient synthesis of β-(1,6)-linked oligosaccharides through microwave-assisted glycosylation

机译：通过微波辅助糖基化高效合成β-（1,6）-连接的寡糖

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A microwave-assisted glycosylation method was developed for efficient synthesis of oligosaccharides. Di-functional AB monomers, 2,3,4-tri-O-acetyl- α-d-galactopyranosyl bromide (3a) and 2,3,4-tri-O-acetyl-α-d- glucopyranosyl bromide (3b) were designed and synthesized as weakly reactive monomers to avoid unwanted glycosylation or degradation during preparation and storage. The glycosylations of these monomers gave low conversions and low molecular weight oligosaccharides at rt, reflux, and under low microwave energy irradiation. However, the glycosylation became very effective when high microwave energy was applied, giving 100% conversion and producing oligosaccharides with M_n = 4.76 kDa for 3a and M_n = 4.05 kDa for 3b. The acetylated oligosaccharides were further subjected to deprotection for structural analysis, which indicated the oligosaccharides contain predominantly linear β-(1,6)-glycosyl linkages.

机译：开发了一种微波辅助糖基化方法以有效合成寡糖。双官能AB单体是2,3,4-三-O-乙酰基-α-d-吡喃半乳糖基溴化物（3a）和2,3,4-三-O-乙酰基-α-d-吡喃葡萄糖基溴化物（3b）设计和合成为弱反应性单体，以避免在制备和储存过程中发生不必要的糖基化或降解。这些单体的糖基化在室温，回流和低微波能量照射下产生低转化率和低分子量寡糖。但是，当施加高微波能量时，糖基化变得非常有效，可实现100％的转化并产生3a的M_n = 4.76 kDa和3b的M_n = 4.05 kDa的寡糖。进一步对乙酰化的寡糖进行脱保护以进行结构分析，这表明该寡糖主要包含线性β-（1,6）-糖基键。

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《Journal of Polymer Science, Part A. Polymer Chemistry 》 |2013年第17期| 共7页
作者
Li L.; Franckowiak E.A.; Xu Y.; McClain E.; Du W.;
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正文语种 eng
中图分类 54.5;
关键词
glycosyl bromide; glycosylation; microwave; NMR; oligosaccharides; polysaccharides; synthesis;

机译：糖基溴化物;糖基化;微波;NMR;低聚糖;多糖;合成;

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1. Efficient synthesis of β-(1,6)-linked oligosaccharides through microwave-assisted glycosylation [J] . Li L., Franckowiak E.A., Xu Y., Journal of Polymer Science, Part A. Polymer Chemistry . 2013 ,第17期

机译：通过微波辅助糖基化高效合成β-（1,6）-连接的寡糖
2. Stimulation of N-linked glycosylation and lipid-linked oligosaccharide synthesis by stress responses in metazoan cells. [J] . Lehrman MA Critical Reviews in Biochemistry and Molecular Biology . 2006 ,第2期

机译：后生动物应激反应刺激N-联糖基化和脂质-寡糖合成。
3. The Saccharomyces cerevisiae CWH8 gene is required for full levels of dolichol-linked oligosaccharides in the endoplasmic reticulum and for efficient N-glycosylation. [J] . van Berkel-MA, Rieger M, te Heesen-S, Glycobiology. . 1999 ,第3期

机译：酿酒酵母CWH8基因是内质网中全部水平的与多元醇连接的寡糖和有效的N-糖基化所必需的。
4. Simultaneous Determination of N-linked Oligosaccharides and O-Glycosylation Sites Heterogeneities in Human Serum [C] . Nannan Tao, Hyun Joo An, Carlito B. Lebrilla ASMS Conference on Mass Spectrometry and Allied Topics . 2007

机译：同时测定人血清中N-连接的寡糖和O-糖基化位点的异质性
5. Reagent-Controlled Dehydrative Glycosylation for Synthesis of 2-Deoxy-β-Linked Sugars: Applications to Oligosaccharide Synthesis [D] . Lloyd, Dina 2018

机译：试剂控制的脱水糖基化反应用于2-脱氧-β-连接糖的合成：在寡糖合成中的应用
6. Facile triflic acid-catalyzed α-12-cis-thio glycosylations: scope and application to the synthesis of S-linked oligosaccharides glycolipids sublancin glycopeptides and TN/TF antigens [O] . Sanyong Zhu, Ganesh Samala, Eric T. Sletten, 2019

机译：简便的三氟甲磺酸催化的α-12-顺硫基糖基化作用：范围和在合成S-连接的寡糖糖脂sublancin糖肽和TN / TF抗原中的应用
7. The Saccharomyces cerevisiae CWH8 gene is required for full levels of dolichol-linked oligosaccharides in the endoplasmic reticulum and for efficient N-glycosylation [O] . van Berkel, Marianne A. A., Rieger, Michael, te Heesen, Stephan, 2017

机译：酿酒酵母CWH8基因是内质网中全部水平的与多元醇连接的寡糖和有效的N-糖基化所必需的

Efficient synthesis of β-(1,6)-linked oligosaccharides through microwave-assisted glycosylation

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