异贝米蔗糖、新海藻糖和费歇尔糖的合成：从……中鉴定出的三种基于α-1,6-连接海藻糖的寡糖

Synthesis of isobemisiose, neosartose, and fischerose: three α-1,6-linked trehalose-based oligosaccharides identified from .

作者信息

Kuenstner E J, Palumbo E A, Levine J, Snyder N L

机构信息

Department of Chemistry, Davidson College Box 7120 Davidson NC 28036 USA

出版信息

RSC Adv. 2020 Jun 12;10(38):22726-22729. doi: 10.1039/d0ra04137h. eCollection 2020 Jun 10.

DOI:10.1039/d0ra04137h

PMID:35514568

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9054618/

Abstract

Three complex α-1,6-linked trehalose-based oligosaccharides with unique preservation properties, isobemisiose, neosartose, and fischerose, were recently identified from the extreme stress-tolerant ascospores of Herein, we report the first concise, scalable, and iterative chemical synthesis of these oligosaccharides from a differentially protected thioglycoside donor and a selectively protected, asymmetric trehalose acceptor. This work constitutes an improved synthesis of isobemisiose, and is also the first reported synthesis of neosartose, a tetrasaccharide, and fischerose, a pentasaccharide, in good yield. Importantly, in-depth studies of biological function are enabled by this synthetic platform.

摘要

最近从极端耐逆性子囊孢子中鉴定出三种具有独特保存特性的复杂α-1,6-连接的基于海藻糖的寡糖，即异贝米西糖、新萨糖和费氏糖。在此，我们报道了首次从差异保护的硫代糖苷供体和选择性保护的不对称海藻糖受体出发，对这些寡糖进行简洁、可扩展且迭代的化学合成。这项工作改进了异贝米西糖的合成，也是首次报道以良好产率合成四糖新萨糖和五糖费氏糖。重要的是，这个合成平台能够对生物学功能进行深入研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/23a2/9054618/8d31dc9b27cc/d0ra04137h-f1.jpg

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异贝米蔗糖、新海藻糖和费歇尔糖的合成：从……中鉴定出的三种基于α-1,6-连接海藻糖的寡糖

Synthesis of isobemisiose, neosartose, and fischerose: three α-1,6-linked trehalose-based oligosaccharides identified from .

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