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基于模型的光谱库方法通过膜糖脂进行细菌鉴定。

Model-Based Spectral Library Approach for Bacterial Identification via Membrane Glycolipids.

机构信息

School of Community Health Sciences , University of Nevada Reno , Reno , Nevada 89557 , United States.

Department of Epidemiology, School of Public Health , University of California Berkeley , Berkeley , California 94720 , United States.

出版信息

Anal Chem. 2019 Sep 3;91(17):11482-11487. doi: 10.1021/acs.analchem.9b03340. Epub 2019 Aug 15.

DOI:10.1021/acs.analchem.9b03340
PMID:31369253
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7204536/
Abstract

By circumventing the need for a pure colony, MALDI-TOF mass spectrometry of bacterial membrane glycolipids (lipid A) has the potential to identify microbes more rapidly than protein-based methods. However, currently available bioinformatics algorithms (e.g., dot products) do not work well with glycolipid mass spectra such as those produced by lipid A, the membrane anchor of lipopolysaccharide. To address this issue, we propose a spectral library approach coupled with a machine learning technique to more accurately identify microbes. Here, we demonstrate the performance of the model-based spectral library approach for microbial identification using approximately a thousand mass spectra collected from multi-drug-resistant bacteria. At false discovery rates < 1%, our approach identified many more bacterial species than the existing approaches such as the Bruker Biotyper and characterized over 97% of their phenotypes accurately. As the diversity in our glycolipid mass spectral library increases, we anticipate that it will provide valuable information to more rapidly treat infected patients.

摘要

通过绕过对纯菌落的需求,基于细菌膜糖脂(脂多糖的膜锚定物)的 MALDI-TOF 质谱分析有可能比基于蛋白质的方法更快地识别微生物。然而,目前可用的生物信息学算法(例如,点积)不适用于糖脂质谱,例如脂多糖的膜锚定物脂 A 产生的糖脂质谱。为了解决这个问题,我们提出了一种光谱库方法,并结合机器学习技术,以更准确地识别微生物。在这里,我们使用从多药耐药细菌中收集的大约一千个质谱来演示基于模型的光谱库方法在微生物鉴定中的性能。在错误发现率 < 1%的情况下,我们的方法比现有的方法(如 Bruker Biotyper)识别出了更多的细菌种类,并且准确地描述了它们 97%以上的表型。随着我们的糖脂质谱文库的多样性增加,我们预计它将为更快地治疗感染患者提供有价值的信息。

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本文引用的文献

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