3',5'-环二鸟苷酸化学合成的改进策略。

Q4 Chemistry

Current Protocols in Nucleic Acid Chemistry Pub Date : 2019-06-01 Epub Date: 2019-04-10 DOI:10.1002/cpnc.84

Andrzej Grajkowski, Mayumi Takahashi, Tomasz Kaczyński, Suresh C Srivastava, Serge L Beaucage

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引用次数: 0

摘要

c-di-GMP 的生理功能及其在许多关键过程中的参与使其被认为是一种主要的、无处不在的细菌第二信使。c-di-GMP 除了是一种细菌信号分子外，还是一种免疫刺激分子，能够通过哺乳动物免疫细胞的成熟诱导先天性和适应性免疫反应。鉴于 c-di-GMP 广泛的生物功能及其作为核酸类药物的潜在应用，c-di-GMP 的化学合成引起了人们的极大兴趣。本文报告了一种改进的磷酰胺合成 c-di-GMP 的方法。该合成方法基于一个 5'-O- 甲酰基保护基团，该保护基团可从一个关键的二核苷酸亚磷酰胺中间体上快速、化学选择性地裂解，从而进行环缩合反应，得到完全保护的 c-di-GMP 产物，收率高达 80%。原生 c-di-GMP 在完全脱保护后分离出来，以商用核糖核苷为起始原料，总产率为 36%。© 2019 by John Wiley & Sons, Inc.

本文章由计算机程序翻译，如有差异，请以英文原文为准。

An Improved Strategy for the Chemical Synthesis of 3',5'-Cyclic Diguanylic Acid.

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An Improved Strategy for the Chemical Synthesis of 3',5'-Cyclic Diguanylic Acid.

The physiological functions of c-di-GMP and its involvement in many key processes led to its recognition as a major and ubiquitous bacterial second messenger. Aside from being a bacterial signaling molecule, c-di-GMP is also an immunostimulatory molecule capable of inducing innate and adaptive immune responses through maturation of immune mammalian cells. Given the broad biological functions of c-di-GMP and its potential applications as a nucleic-acid-based drug, the chemical synthesis of c-di-GMP has drawn considerable interest. An improved phosphoramidite approach to the synthesis of c-di-GMP is reported herein. The synthetic approach is based on the use of a 5'-O-formyl protecting group, which can be rapidly and chemoselectively cleaved from a key dinucleotide phosphoramidite intermediate to enable a cyclocondensation reaction leading to a fully protected c-di-GMP product in a yield ∼80%. The native c-di-GMP is isolated, after complete deprotection, in an overall yield of 36% based on the commercial ribonucleoside used as starting material. © 2019 by John Wiley & Sons, Inc.

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来源期刊

Current Protocols in Nucleic Acid Chemistry Chemistry-Organic Chemistry

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期刊介绍： Published in association with International Society for Nucleosides, Nucleotides & Nucleic Acids (IS3NA) , Current Protocols in Nucleic Acid Chemistry is equally valuable for biotech, pharmaceutical, and academic labs. It is the resource for designing and running successful research projects in the rapidly growing and changing field of nucleic acid, nucleotide, and nucleoside research.