一氧化碳感应转录因子：微生物一氧化碳氧化途径基因表达的调控因子。

Carbon Monoxide-Sensing Transcription Factors: Regulators of Microbial Carbon Monoxide Oxidation Pathway Gene Expression.

机构信息

Heart, Lung, Blood, and Vascular Medicine Institute, University of Pittsburgh, Pittsburgh, Pennsylvania, USA.

Department of Chemistry, University of Wisconsin-Madison, Madison, Wisconsin, USA.

出版信息

J Bacteriol. 2023 May 25;205(5):e0033222. doi: 10.1128/jb.00332-22. Epub 2023 May 8.

DOI:10.1128/jb.00332-22

PMID:37154694

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10210986/

Abstract

Carbon monoxide (CO) serves as a source of energy and carbon for a diverse set of microbes found in anaerobic and aerobic environments. The enzymes that bacteria and archaea use to oxidize CO depend upon complex metallocofactors that require accessory proteins for assembly and proper function. This complexity comes at a high energetic cost and necessitates strict regulation of CO metabolic pathways in facultative CO metabolizers to ensure that gene expression occurs only when CO concentrations and redox conditions are appropriate. In this review, we examine two known heme-dependent transcription factors, CooA and RcoM, that regulate inducible CO metabolism pathways in anaerobic and aerobic microorganisms. We provide an analysis of the known physiological and genomic contexts of these sensors and employ this analysis to contextualize known biochemical properties. In addition, we describe a growing list of putative transcription factors associated with CO metabolism that potentially use cofactors other than heme to sense CO.

摘要

一氧化碳 (CO) 是在厌氧和需氧环境中发现的多种微生物的能量和碳源。细菌和古菌用来氧化 CO 的酶依赖于需要辅助蛋白进行组装和正确功能的复杂金属辅因子。这种复杂性带来了很高的能量成本，因此需要严格调节兼性 CO 代谢物中的 CO 代谢途径，以确保只有在 CO 浓度和氧化还原条件合适时才会发生基因表达。在这篇综述中，我们研究了两种已知的血红素依赖性转录因子 CooA 和 RcoM，它们调节厌氧和需氧微生物中的诱导型 CO 代谢途径。我们对这些传感器的已知生理和基因组背景进行了分析，并利用这种分析将已知的生化特性置于上下文中。此外，我们描述了越来越多与 CO 代谢相关的假定转录因子，这些转录因子可能使用除血红素以外的辅助因子来感应 CO。

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