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质谱和 NMR 的联用提高了代谢物的检测和注释。

Combining Mass Spectrometry and NMR Improves Metabolite Detection and Annotation.

机构信息

Department of Chemistry , University of Nebraska , Lincoln , Nebraska 68588-0304 , United States.

Nebraska Center for Integrated Biomolecular Communication , Lincoln , Nebraska 68588-0304 , United States.

出版信息

J Proteome Res. 2018 Nov 2;17(11):4017-4022. doi: 10.1021/acs.jproteome.8b00567. Epub 2018 Oct 12.

DOI:10.1021/acs.jproteome.8b00567
PMID:30303385
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6668615/
Abstract

Despite inherent complementarity, nuclear magnetic resonance spectroscopy (NMR) and mass spectrometry (MS) are routinely separately employed to characterize metabolomics samples. More troubling is the erroneous view that metabolomics is better served by exclusively utilizing MS. Instead, we demonstrate the importance of combining NMR and MS for metabolomics by using small chemical compound treatments of Chlamydomonas reinhardtii as an illustrative example. A total of 102 metabolites were detected (82 by gas chromatography-MS, 20 by NMR, and 22 by both techniques). Out of these, 47 metabolites of interest were identified: 14 metabolites were uniquely identified by NMR, and 16 metabolites were uniquely identified by GC-MS. A total of 17 metabolites were identified by both NMR and GC-MS. In general, metabolites identified by both techniques exhibited similar changes upon compound treatment. In effect, NMR identified key metabolites that were missed by MS and enhanced the overall coverage of the oxidative pentose phosphate pathway, Calvin cycle, tricarboxylic acid cycle, and amino acid biosynthetic pathways that informed on pathway activity in central carbon metabolism, leading to fatty-acid and complex-lipid synthesis. Our study emphasizes a prime advantage of combining multiple analytical techniques: the improved detection and annotation of metabolites.

摘要

尽管核磁共振波谱(NMR)和质谱(MS)具有内在的互补性,但通常将它们分开用于代谢组学样品的特征分析。更麻烦的是一种错误的观点,即认为代谢组学仅通过使用 MS 就能更好地服务。相反,我们通过使用小球藻的小分子化合物处理作为示例,证明了将 NMR 和 MS 结合用于代谢组学的重要性。共检测到 102 种代谢物(82 种通过气相色谱-MS,20 种通过 NMR,22 种通过两种技术)。在这些代谢物中,鉴定出了 47 种感兴趣的代谢物:14 种代谢物仅通过 NMR 鉴定,16 种代谢物仅通过 GC-MS 鉴定。共有 17 种代谢物通过 NMR 和 GC-MS 同时鉴定。通常,两种技术鉴定的代谢物在化合物处理后表现出相似的变化。实际上,NMR 鉴定出了 MS 错过的关键代谢物,并增强了氧化戊糖磷酸途径、卡尔文循环、三羧酸循环和氨基酸生物合成途径的整体覆盖范围,这些途径为中央碳代谢中的途径活性提供了信息,导致脂肪酸和复杂脂质的合成。我们的研究强调了结合多种分析技术的主要优势:提高了代谢物的检测和注释能力。

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