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同位素标记的嘧啶2'-脱氧核苷及其5-羟基氧化产物的简便合成方法。

Convenient syntheses of isotopically labeled pyrimidine 2'-deoxynucleosides and their 5-hydroxy oxidation products.

作者信息

Gao Yixuan, Kool Eric T

机构信息

Department of Chemistry, Stanford University, Stanford, CA, USA.

出版信息

Nucleosides Nucleotides Nucleic Acids. 2024 Dec 9:1-23. doi: 10.1080/15257770.2024.2437038.

Abstract

Hydrolytic and oxidative damage to pyrimidine nucleobases in DNA represents a significant source of mutations in the human genome. To better understand how these lesions are incorporated and repaired in human cells, it is desirable to have ready access to isotopically enriched nucleosides for use in isotope tracing and mass spectrometry-based quantification experiments. Here we report on improved syntheses of deoxyuridine, deoxycytidine, 5-hydroxydeoxyuridine, and 5-hydroxydeoxycytidine nucleosides labeled with C and N. Deoxyuridine was synthesized from uracil in a direct glycosylation reaction with excellent stereoselectivity without the need to reduce a ribonucleoside intermediate. Deoxyuridine was further converted to deoxycytidine using mild O4 activation conditions with high efficiency. Finally, we document the synthetic details of preparative oxidation of deoxyuridine and deoxycytidine to their 5-hydroxy counterparts. Overall, our protocols avoid hazardous reagents and tedious conditions found in previous methods.

摘要

DNA中嘧啶核苷酸碱基的水解和氧化损伤是人类基因组中突变的一个重要来源。为了更好地理解这些损伤在人类细胞中是如何掺入和修复的,需要能够方便地获得同位素富集的核苷,用于同位素示踪和基于质谱的定量实验。在此,我们报告了用碳和氮标记的脱氧尿苷、脱氧胞苷、5-羟基脱氧尿苷和5-羟基脱氧胞苷核苷的改进合成方法。脱氧尿苷由尿嘧啶通过直接糖基化反应合成,具有优异的立体选择性,无需还原核糖核苷中间体。使用温和的O4活化条件,脱氧尿苷能高效地进一步转化为脱氧胞苷。最后,我们记录了将脱氧尿苷和脱氧胞苷制备性氧化为其5-羟基对应物的合成细节。总体而言,我们的方法避免了先前方法中使用的危险试剂和繁琐条件。

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