Towards the discovery of novel molecular clocks in Prokaryotes.

IF 6 2区 生物学 Q1 MICROBIOLOGY Critical Reviews in Microbiology Pub Date : 2024-08-01 Epub Date: 2023-06-18 DOI:10.1080/1040841X.2023.2220789
Augustin Géron, Johannes Werner, Ruddy Wattiez, Sabine Matallana-Surget
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Abstract

Diel cycle is of enormous biological importance as it imposes daily oscillation in environmental conditions, which temporally structures most ecosystems. Organisms developed biological time-keeping mechanisms - circadian clocks - that provide a significant fitness advantage over competitors by optimising the synchronisation of their biological activities. While circadian clocks are ubiquitous in Eukaryotes, they are so far only characterised in Cyanobacteria within Prokaryotes. However, growing evidence suggests that circadian clocks are widespread in the bacterial and archaeal domains. As Prokaryotes are at the heart of crucial environmental processes and are essential to human health, unravelling their time-keeping systems provides numerous applications in medical research, environmental sciences, and biotechnology. In this review, we elaborate on how novel circadian clocks in Prokaryotes offer research and development perspectives. We compare and contrast the different circadian systems in Cyanobacteria and discuss about their evolution and taxonomic distribution. We necessarily provide an updated phylogenetic analysis of bacterial and archaeal species that harbour homologs of the main cyanobacterial clock components. Finally, we elaborate on new potential clock-controlled microorganisms that represent opportunities of ecological and industrial relevance in prokaryotic groups such as anoxygenic photosynthetic bacteria, methanogenic archaea, methanotrophs or sulphate-reducing bacteria.

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在原核生物中发现新的分子钟。
昼夜周期对生物具有重大意义,因为它带来了环境条件的日振荡,在时间上构建了大多数生态系统。生物发展出了生物时间保持机制--昼夜节律钟,通过优化生物活动的同步性,使生物的生存能力大大优于竞争对手。虽然昼夜节律钟在真核生物中无处不在,但迄今为止,只有原核生物中的蓝藻具有昼夜节律钟的特征。不过,越来越多的证据表明,昼夜节律钟广泛存在于细菌和古细菌领域。原核生物是关键环境过程的核心,对人类健康至关重要,因此揭示它们的计时系统可在医学研究、环境科学和生物技术领域提供大量应用。在这篇综述中,我们将详细阐述原核生物中的新型昼夜节律钟如何为研究和发展提供前景。我们对比了蓝藻中不同的昼夜节律系统,并讨论了它们的进化和分类分布。我们还必须提供最新的细菌和古细菌物种系统发育分析,这些物种都含有蓝藻主要时钟组件的同源物。最后,我们阐述了新的潜在时钟控制微生物,它们代表了原核生物类群(如氧光合细菌、产甲烷古细菌、产甲烷细菌或硫酸盐还原细菌)中具有生态和工业意义的机会。
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来源期刊
Critical Reviews in Microbiology
Critical Reviews in Microbiology 生物-微生物学
CiteScore
14.70
自引率
0.00%
发文量
99
期刊介绍: Critical Reviews in Microbiology is an international, peer-reviewed journal that publishes comprehensive reviews covering all areas of microbiology relevant to humans and animals, including medical and veterinary microbiology, public health and environmental microbiology. These may include subjects related to microbial molecular biology, immunopathogenicity, physiology, biochemistry, structure, and epidemiology. Of particular interest are reviews covering clinical aspects of bacterial, virological, fungal and parasitic diseases. All reviews must be analytical, comprehensive, and balanced in nature. Editors welcome uninvited submissions, as well as suggested topics for reviews accompanied by an abstract.
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