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基于傅里叶变换红外(FTIR)光谱和多元分析的大肠杆菌应激和抗生素反应的表型筛选生物测定。

A phenotypic screening bioassay for Escherichia coli stress and antibiotic responses based on Fourier-transform infrared (FTIR) spectroscopy and multivariate analysis.

机构信息

iBB - Institute of Bioengineering and Biosciences (iBB), Instituto Superior Técnico (IST), Universidade de Lisboa, Lisboa, Portugal.

ISEL - Instituto Superior de Engenharia de Lisboa (ISEL), Instituto Politécnico de Lisboa (IPL), Lisboa, Portugal.

出版信息

J Appl Microbiol. 2019 Dec;127(6):1776-1789. doi: 10.1111/jam.14429. Epub 2019 Oct 8.

DOI:10.1111/jam.14429
PMID:31464358
Abstract

AIMS

To develop and optimize a Fourier-transform infrared spectroscopy (FTIRS) phenotypic screening bioassay for stress responses, regarding the effect of nutrient content, bacterial growth phase and stress agent exposure time.

METHODS AND RESULTS

A high-throughput FTIRS bioassay was developed to distinguish the stress responses of Escherichia coli to sodium hydroxide, hydrochloric acid, sodium chloride, sodium hypochlorite and ethanol. Principal component analysis and hierarchical clustering were used to quantify the effect of each parameter on bioassay performance, namely its reproducibility and metabolic resolution. Bioassay performance varied greatly, ranging from poor to very good. Spectra were partitioned into biologically relevant regions to evaluate their contributions to bioassay performance, but further improvements were not observed. Bioassay optimization was validated against empirical parameters, which confirmed a closer representation of known mechanisms on the antibiotic-induced stress responses.

CONCLUSIONS

The optimized bioassay used standard nutrient content, cells in the late-stationary growth phase and a one-shift exposure duration. Only the optimized bioassay adequately and reproducibly distinguished the E. coli stress and antibiotic responses. The absence of performance improvements using partitioned spectra indicated that stress responses are imprinted on the whole-spectra metabolic signature.

SIGNIFICANCE AND IMPACT OF THE STUDY

Highly optimized FTIRS bioassay parameters are vital in capturing whole-spectra metabolic signatures that can be used for satisfactory and reproducible phenotypic screening of stress and antibiotic responses.

摘要

目的

开发和优化傅里叶变换红外光谱(FTIRS)表型筛选生物测定法,以研究营养成分、细菌生长阶段和应激剂暴露时间对其的影响。

方法与结果

开发了一种高通量 FTIRS 生物测定法,以区分大肠杆菌对氢氧化钠、盐酸、氯化钠、次氯酸钠和乙醇的应激反应。主成分分析和层次聚类用于量化每个参数对生物测定性能(即重复性和代谢分辨率)的影响。生物测定性能差异很大,从很差到很好。将光谱分为具有生物学意义的区域,以评估它们对生物测定性能的贡献,但没有观察到进一步的改进。通过与经验参数进行验证,对生物测定进行了优化,这证实了它更接近抗生素诱导的应激反应的已知机制的表示。

结论

优化后的生物测定法使用标准营养成分、处于晚期生长阶段的细胞和一次暴露时间。只有优化后的生物测定法能够充分且可重复地区分大肠杆菌的应激和抗生素反应。使用分区光谱没有提高性能表明应激反应被印在全谱代谢特征上。

研究的意义和影响

高度优化的 FTIRS 生物测定法参数对于捕获全谱代谢特征至关重要,这些特征可用于满意且可重复地筛选应激和抗生素反应的表型。

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