温度而非LuxS介导了热液生境中AI-2的形成。

Temperature, not LuxS, mediates AI-2 formation in hydrothermal habitats.

作者信息

Nichols Jason D, Johnson Matthew R, Chou Chung-Jung, Kelly Robert M

机构信息

Department of Chemical and Biomolecular Engineering, North Carolina State University, 911 Partners Way, Raleigh, NC 27695, USA.

出版信息

FEMS Microbiol Ecol. 2009 May;68(2):173-81. doi: 10.1111/j.1574-6941.2009.00662.x. Epub 2009 Mar 20.

DOI:10.1111/j.1574-6941.2009.00662.x

PMID:19309315

Abstract

Quorum sensing provides the basis for coordinating community-wide, microbial behaviors in many mesophilic bacteria. However, little attention has been directed toward the possibility that such phenomena occur in extremely thermal microbial environments. Despite the absence of luxS in hyperthermophile genomes, autoinducer-2 (AI-2), a boronated furanone and proposed 'universal' interspecies mesophilic bacterial communication signal, could be formed by Thermotoga maritima and Pyrococcus furiosus through a combination of biotic and abiotic reaction steps. AI-2 did not, however, induce any detectable quorum-sensing phenotypes in these organisms, although transcriptome-based evidence of an AI-2-induced stress response was observed in T. maritima. The significance, if any, of AI-2 in hydrothermal habitats is not yet clear. Nevertheless, these results show the importance of considering environmental factors, in this case high temperatures, as abiotic causative agents of biochemical and microbiological phenomena.

摘要

群体感应为协调许多嗜温细菌的全群落微生物行为提供了基础。然而，对于这种现象在极端热微生物环境中发生的可能性，人们关注甚少。尽管嗜热菌基因组中不存在luxS，但热袍菌属和激烈火球菌属可通过生物和非生物反应步骤的组合形成自诱导物-2（AI-2），一种含硼呋喃酮，被认为是嗜温细菌的“通用”种间通讯信号。然而，AI-2并未在这些生物体中诱导出任何可检测到的群体感应表型，尽管在热袍菌中观察到了基于转录组的AI-2诱导应激反应的证据。AI-2在热液生境中的意义（如果有）尚不清楚。尽管如此，这些结果表明了将环境因素（在这种情况下是高温）视为生化和微生物现象的非生物致病因素的重要性。

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温度而非LuxS介导了热液生境中AI-2的形成。

Temperature, not LuxS, mediates AI-2 formation in hydrothermal habitats.

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