Resolution of Viable and Membrane-Compromised Free Bacteria in Aquatic Environments by Flow Cytometry

Q1 Health Professions

Current Protocols in Cytometry Pub Date : 2018-06-29 DOI:10.1002/cpcy.42

Gérald Grégori, Michel Denis, Sergio Sgorbati, Sandra Citterio

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引用次数: 4

Abstract

In aquatic environments, free heterotrophic bacteria play an extremely important role due to their high biomass, wide panel of metabolisms, and ubiquity, as well as the toxicity of certain species. This unit presents a nucleic-acid double-staining protocol (NADS) for flow cytometry that can distinguish fractions of viable, damaged, or membrane-compromised cells within the free-bacterial community. The NADS protocol is based on the simultaneous utilization of two nucleic acid stains—membrane-permeant SYBR Green and membrane-impermeant propidium iodide (PI). The efficiency of the double staining on fresh samples is magnified by the FRET from SYBR Green to PI when both are bound to the nucleic acids. Full quenching of SYBR Green fluorescence by PI identifies cells with a compromised membrane, partial quenching indicates cells with a slightly damaged membrane, and lack of quenching characterizes cells with an intact membrane. Samples do not require any pretreatment and this protocol can be performed almost anywhere. © 2018 by John Wiley & Sons, Inc.

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用流式细胞术分离水生环境中活菌和膜受损的游离细菌

在水生环境中，游离异养细菌由于其高生物量、广泛的代谢、无处不在以及某些物种的毒性而发挥着极其重要的作用。该装置提出了一种核酸双染色方案(NADS)，用于流式细胞术，可以区分游离细菌群落中存活，受损或膜受损细胞的部分。NADS方案是基于同时利用两种核酸染色-膜渗透SYBR绿和膜不渗透碘化丙啶(PI)。当两者都与核酸结合时，双染色在新鲜样品上的效率被从SYBR Green到PI的FRET放大。PI对SYBR Green荧光的完全猝灭表明细胞膜受损，部分猝灭表明细胞膜轻微受损，而不猝灭表明细胞膜完好。样品不需要任何预处理，该方案几乎可以在任何地方执行。©2018 by John Wiley &儿子,Inc。

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来源期刊

Current Protocols in Cytometry Health Professions-Medical Laboratory Technology

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期刊介绍： Published in affiliation with the International Society for Advancement of Cytometry, Current Protocols in Cytometry is a "best practices" collection that distills and organizes the absolute latest techniques from the top cytometry labs and specialists worldwide. It is the most complete set of peer-reviewed protocols for flow and image cytometry available.