Single-cell metabolite analysis on a microfluidic chip

Metabolites can directly reflect and modulate cell responses and phenotypical changes by influencing energy balances, intercellular signals, and many other cellular functions throughout the lifespan of cells. Taking into account the heterogeneity of cells, single-cell metabolite analysis offers an i...

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Veröffentlicht in:	Chinese chemical letters 2022-06, Vol.33 (6), p.2883-2892
Hauptverfasser:	Wang, Chenlong, Hu, Wanting, Guan, Liandi, Yang, Xiaoping, Liang, Qionglin
Format:	Artikel
Sprache:	eng
Schlagworte:	Cell manipulation Cell trapping Detection Metabolomics Microfluidic Single-cell
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creator	Wang, Chenlong Hu, Wanting Guan, Liandi Yang, Xiaoping Liang, Qionglin
description	Metabolites can directly reflect and modulate cell responses and phenotypical changes by influencing energy balances, intercellular signals, and many other cellular functions throughout the lifespan of cells. Taking into account the heterogeneity of cells, single-cell metabolite analysis offers an insight into the functional process within one cell. Microfluidics as a powerful tool has attracted significant interest in the single-cell metabolite analysis field. The microfluidic platform is possible to observe, classify, and stimulate individual cells. It can also transport single-cell to subsequent analysis steps in a fast and controllable way to determine and analyze the composition and content of metabolites. The reviews of topics in microfluidics for single-cell metabolite analysis have been published in the past few years. However, most of them focused on metabolite analysis with mass spectrometry. Here, we covered the advances of microfluidic devices for single-cell metabolite analysis, with a focus on single-cell isolation and manipulation. What is more, we summarized the detection methods and applications of single-cell metabolites. [Display omitted]
doi_str_mv	10.1016/j.cclet.2021.10.006
format	Article
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subjects	Cell manipulation Cell trapping Detection Metabolomics Microfluidic Single-cell
title	Single-cell metabolite analysis on a microfluidic chip
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