RNA 中碱基自由基的直接链断裂。
Direct strand scission from a nucleobase radical in RNA.
机构信息
Department of Chemistry, Johns Hopkins University, 3400 North Charles Street, Baltimore, Maryland 21218, USA.
出版信息
J Am Chem Soc. 2010 Mar 24;132(11):3668-9. doi: 10.1021/ja100281x.
Abstract
RNA oxidation is important in the etiology of disease and as a tool for studying the structure and folding kinetics of this biopolymer. Nucleobase radicals are the major family of reactive intermediates produced in RNA exposed to diffusible species such as hydroxyl radical. The nucleobase radicals are believed to produce direct strand breaks by abstracting hydrogen atoms from their own and neighboring ribose rings. By independently generating the formal C5 hydrogen atom addition product of uridine in RNA, we provide the first chemical characterization of the pathway for direct strand scission from an RNA nucleobase radical. The process is more efficient under anaerobic conditions. The preference for strand scission in double-stranded RNA over single-stranded RNA suggests that this chemistry may be useful for analyzing the secondary structure of RNA in hydroxyl radical cleavage experiments if they are carried out under anaerobic conditions.
摘要
RNA 氧化在疾病的病因学中很重要,并且可以作为研究这种生物聚合物的结构和折叠动力学的工具。核苷碱基自由基是在 RNA 中暴露于扩散物种(如羟自由基)时产生的主要反应中间体家族。核苷碱基自由基被认为通过从自身和相邻的核糖环中提取氢原子来直接产生链断裂。通过在 RNA 中独立生成尿嘧啶的正式 C5 氢原子加合物,我们首次对 RNA 核苷碱基自由基直接链断裂的途径进行了化学表征。在厌氧条件下,该过程更有效。双链 RNA 比单链 RNA 更倾向于链断裂,这表明如果在厌氧条件下进行羟自由基切割实验,这种化学可能有助于分析 RNA 的二级结构。
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