通过氢/氘交换研究基质辅助激光解吸电离质谱中的RNA片段化：对核酸普遍适用的机制

RNA fragmentation in MALDI mass spectrometry studied by H/D-exchange: mechanisms of general applicability to nucleic acids.

作者信息

Andersen Thomas E, Kirpekar Finn, Haselmann Kim F

机构信息

Department of Biochemistry and Molecular Biology, University of Southern Denmark, Campusvej 55, 5230, Odense M, Denmark.

Department of Chemistry, University of Southern Denmark, Odense, Denmark.

出版信息

J Am Soc Mass Spectrom. 2006 Oct;17(10):1353-1368. doi: 10.1016/j.jasms.2006.05.018. Epub 2006 Jul 27.

DOI:10.1016/j.jasms.2006.05.018

PMID:16875834

Abstract

To reveal the gas-phase chemistry of RNA and DNA fragmentation during MALDI mass spectrometry in positive ion mode, we performed hydrogen/deuterium exchange on a series of RNA and DNA tetranucleotides and studied their fragmentation patterns on a high-resolution MALDI TOF-TOF instrument. We were specifically interested in elucidating the remarkably different fragmentation behavior of RNA and DNA, i.e., the characteristic and abundant production of c- and y-ions from RNA versus a dominating generation of (a-B)- and w-ions from DNA analytes. The analysis yielded important information on all significant backbone cleavages as well as nucleobase losses. Based on this, we suggest common fragmentation mechanisms for RNA and DNA as well as an important RNA-specific reaction requiring a 2'-hydroxyl group, leading to c- and y-ions. The data is viewed and discussed in the context of previously published data to obtain a coherent picture of the fragmentation of singly protonated nucleic acids.

摘要

为揭示基质辅助激光解吸电离质谱正离子模式下RNA和DNA片段化的气相化学过程，我们对一系列RNA和DNA四核苷酸进行了氢/氘交换，并在高分辨率基质辅助激光解吸电离飞行时间串联质谱仪上研究了它们的片段化模式。我们特别感兴趣的是阐明RNA和DNA显著不同的片段化行为，即RNA产生特征性且丰富的c型和y型离子，而DNA分析物则主要产生（α - β）型和w型离子。该分析得出了关于所有重要主链裂解以及碱基损失的重要信息。基于此，我们提出了RNA和DNA共同的片段化机制以及一个需要2'-羟基的重要RNA特异性反应，该反应会导致c型和y型离子的产生。我们结合先前发表的数据来查看和讨论这些数据，以获得单质子化核酸片段化的连贯图景。

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通过氢/氘交换研究基质辅助激光解吸电离质谱中的RNA片段化：对核酸普遍适用的机制

RNA fragmentation in MALDI mass spectrometry studied by H/D-exchange: mechanisms of general applicability to nucleic acids.

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