自动化糖基化装配过程中的加帽步骤可实现高产率获得复杂聚糖。

A Capping Step During Automated Glycan Assembly Enables Access to Complex Glycans in High Yield.

机构信息

Department of Biomolecular System, Max Planck Institution of Colloids and Interfaces, Am Mühlenberg 1, 14476, Potsdam-Golm, Germany.

Department of Chemistry and Biochemistry, Freie Universität Berlin, Arnimallee 22, 14195, Berlin, Germany.

出版信息

Chemistry. 2018 Apr 20;24(23):6075-6078. doi: 10.1002/chem.201801023. Epub 2018 Mar 25.

DOI:10.1002/chem.201801023

PMID:29498436

Abstract

The products of multi-step automated solid phase syntheses are purified after release from the resin. Capping of unreacted nucleophiles is commonplace in automated oligonucleotide synthesis to minimize accumulation of deletion sequences. To date, capping was not used routinely during automated glycan assembly (AGA) since previous capping protocols suffered from long reaction times and conditions incompatible with some protective groups. Here, a method using methanesulfonic acid and acetic anhydride for the fast and quantitative capping of hydroxyl groups that failed to be glycosylated is reported. Commonly used protective groups in AGA are stable under these capping conditions. The introduction of a capping step into the coupling cycle drastically improved overall yields by decreasing side-products and simplifying purification, while reducing building block consumption. To illustrate the method, the biologically important tetrasaccharide Lc4, as well as a 50-mer polymannoside were prepared.

摘要

多步自动化固相合成的产物在从树脂上释放后进行纯化。在自动化寡核苷酸合成中，封闭未反应的亲核试剂是常见的做法，以最大限度地减少缺失序列的积累。迄今为止，由于以前的封闭方案存在反应时间长且与某些保护基不兼容的问题，因此在自动化聚糖组装（AGA）中并未常规使用封闭。在这里，报告了一种使用甲磺酸和乙酸酐快速定量封闭未发生糖基化的羟基的方法。AGA 中常用的保护基在这些封闭条件下稳定。在偶联循环中引入封闭步骤可通过减少副产物和简化纯化来极大地提高总收率，同时减少构建块的消耗。为了说明该方法，制备了生物上重要的四糖 Lc4 以及 50 -mer 聚甘露糖苷。

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自动化糖基化装配过程中的加帽步骤可实现高产率获得复杂聚糖。

A Capping Step During Automated Glycan Assembly Enables Access to Complex Glycans in High Yield.

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