通过高级串联质谱方法和 2DMS 的扫描累积揭示嵌合体寡核苷酸的复杂性。

Unveiling the intricacy of gapmer oligonucleotides through advanced tandem mass spectrometry approaches and scan accumulation for 2DMS.

机构信息

Department of Chemistry, University of Warwick, Coventry, CV4 7AL, UK.

Department of Physics, University of Warwick, Coventry, CV4 7AL, UK.

出版信息

Analyst. 2024 Sep 9;149(18):4687-4701. doi: 10.1039/d4an00484a.

DOI:10.1039/d4an00484a

PMID:39101388

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11382339/

Abstract

Antisense oligonucleotides (ASOs) are crucial for biological applications as they bind to complementary RNA sequences, modulating protein expression. ASOs undergo synthetic modifications like phosphorothioate (PS) backbone and locked nucleic acid (LNA) to enhance stability and specificity. Tandem mass spectrometry (MS) techniques were employed to study gapmer ASOs, which feature a DNA chain within RNA segments at both termini, revealing enhanced cleavages with ultraviolet photodissociation (UVPD) and complementary fragment ions from collision-induced dissociation (CID) and electron detachment dissociation (EDD). 2DMS, a data-independent analysis technique, allowed for comprehensive coverage and identification of shared fragments across multiple precursor ions. EDD fragmentation efficiency correlated with precursor ion charge states, with higher charges facilitating dissociation due to intramolecular repulsions. An electron energy of 22.8 eV enabled electron capture and radical-based cleavage. Accumulating multiple scans and generating average spectra improved signal intensity, aided by denoising algorithms. Data analysis utilised a custom Python script capable of handling modifications and generating unique mass lists.

摘要

反义寡核苷酸（ASO）在生物应用中至关重要，因为它们可以与互补的 RNA 序列结合，从而调节蛋白质表达。ASO 经历了诸如硫代磷酸酯（PS）骨架和锁核酸（LNA）等合成修饰，以提高稳定性和特异性。串联质谱（MS）技术被用于研究具有 DNA 链的 gapmer ASO，其特征是在 RNA 片段的两端都有 DNA 链，结果表明，与紫外线光解离（UVPD）和互补片段离子的碰撞诱导解离（CID）和电子脱附解离（EDD）相比，增强了切割。2DMS 是一种数据非依赖性分析技术，允许对多个前体离子的共享片段进行全面覆盖和鉴定。EDD 碎片化效率与前体离子电荷状态相关，较高的电荷由于分子内排斥而促进解离。电子能量为 22.8 eV 可实现电子捕获和基于自由基的切割。通过多次扫描累加和生成平均光谱，以及去噪算法，提高了信号强度。数据分析使用了一个自定义的 Python 脚本，该脚本能够处理修饰并生成独特的质量列表。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/03df/11382339/e2dbeecb9644/d4an00484a-s1.jpg

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通过高级串联质谱方法和 2DMS 的扫描累积揭示嵌合体寡核苷酸的复杂性。

Unveiling the intricacy of gapmer oligonucleotides through advanced tandem mass spectrometry approaches and scan accumulation for 2DMS.

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