通过负电子转移解离质谱法进行核糖核酸序列特征分析。

Ribonucleic Acid Sequence Characterization by Negative Electron Transfer Dissociation Mass Spectrometry.

机构信息

Department of Chemistry, University of Wisconsin-Madison, Madison, Wisconsin 53706, United States.

Genome Center of Wisconsin, Madison, Wisconsin 53706, United States.

出版信息

Anal Chem. 2020 Mar 17;92(6):4436-4444. doi: 10.1021/acs.analchem.9b05388. Epub 2020 Mar 5.

DOI:10.1021/acs.analchem.9b05388

PMID:32091202

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7161943/

Abstract

Modified oligonucleotides represent a promising avenue for drug development, with small interfering RNAs (siRNA) and microRNAs gaining traction in the therapeutic market. Mass spectrometry (MS)-based analysis offers many benefits for characterizing modified nucleic acids. Negative electron transfer dissociation (NETD) has proven valuable in sequencing oligonucleotide anions, particularly because it can retain modifications while generating sequence-informative fragments. We show that NETD can be successfully implemented on a widely available quadrupole-Orbitrap-linear ion trap mass spectrometer that uses a front-end glow discharge source to generate radical fluoranthene reagent cations. We characterize both unmodified and modified ribonucleic acids and present the first application of activated-ion negative electron transfer dissociation (AI-NETD) to nucleic acids. AI-NETD achieved 100% sequence coverage for both a 6-mer (5'-rGmUrArCmUrG-3') with 2'--methyl modifications and a 21-mer (5'-rCrArUrCrCrUrCrUrArGrArGrGrArUrArGrArArUrG-3'), the luciferase antisense siRNA. Both NETD and AI-NETD afforded complete sequence coverage of these molecules while maintaining a relatively low degree of undesired base-loss products and internal products relative to collision-based methods.

摘要

修饰寡核苷酸代表了药物开发的一个有前途的途径，小干扰 RNA（siRNA）和 microRNA 在治疗市场上受到关注。基于质谱（MS）的分析为表征修饰核酸提供了许多好处。负电子转移解离（NETD）已被证明在测序寡核苷酸阴离子方面非常有价值，特别是因为它可以在产生序列信息片段的同时保留修饰。我们展示了 NETD 可以成功地在广泛使用的四极杆-轨道阱线性离子阱质谱仪上实施，该质谱仪使用前端辉光放电源来生成自由基荧蒽试剂阳离子。我们对未修饰和修饰的核糖核酸进行了表征，并首次将活性离子负电子转移解离（AI-NETD）应用于核酸。AI-NETD 对带有 2'--甲基修饰的 6 -mer（5'-rGmUrArCmUrG-3'）和 21-mer（5'-rCrArUrCrCrUrCrUrArGrArGrGrArUrArGrArArUrG-3'），即荧光素酶反义 siRNA，实现了 100%的序列覆盖。NETD 和 AI-NETD 都为这些分子提供了完整的序列覆盖，同时与基于碰撞的方法相比，保持了相对较低程度的不需要的碱基丢失产物和内部产物。

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