Hypothesis: bacteria live on the edge of phase transitions with a cell cycle regulated by a water-clock.

IF 1.3 4区 生物学 Q3 BIOLOGY
Vic Norris
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引用次数: 0

Abstract

A fundamental problem in biology is how cells obtain the reproducible, coherent phenotypes needed for natural selection to act or, put differently, how cells manage to limit their exploration of the vastness of phenotype space. A subset of this problem is how they regulate their cell cycle. Bacteria, like eukaryotic cells, are highly structured and contain scores of hyperstructures or assemblies of molecules and macromolecules. The existence and functioning of certain of these hyperstructures depend on phase transitions. Here, I propose a conceptual framework to facilitate the development of water-clock hypotheses in which cells use water to generate phenotypes by living 'on the edge of phase transitions'. I give an example of such a hypothesis in the case of the bacterial cell cycle and show how it offers a relatively novel 'view from here' that brings together a range of different findings about hyperstructures, phase transitions and water and that can be integrated with other hypotheses about differentiation, metabolism and the origins of life.

假设:细菌生活在相变的边缘,细胞周期由水钟调节。
生物学中的一个基本问题是,细胞如何获得自然选择所需的可复制、连贯的表型,或者换句话说,细胞如何设法限制其对表型空间广阔性的探索。这个问题的一个子集是细胞如何调节其细胞周期。细菌与真核细胞一样,具有高度的结构性,包含数十种超结构或分子与大分子的组合。其中某些超结构的存在和功能取决于相变。在这里,我提出了一个概念框架,以促进水钟假说的发展,在这个假说中,细胞通过 "生活在相变的边缘",利用水产生表型。我以细菌细胞周期为例,说明这种假说如何提供了一种相对新颖的 "从这里看问题 "的视角,汇集了有关超结构、相变和水的一系列不同发现,并能与有关分化、新陈代谢和生命起源的其他假说相结合。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Theory in Biosciences
Theory in Biosciences 生物-生物学
CiteScore
2.70
自引率
9.10%
发文量
21
审稿时长
3 months
期刊介绍: Theory in Biosciences focuses on new concepts in theoretical biology. It also includes analytical and modelling approaches as well as philosophical and historical issues. Central topics are: Artificial Life; Bioinformatics with a focus on novel methods, phenomena, and interpretations; Bioinspired Modeling; Complexity, Robustness, and Resilience; Embodied Cognition; Evolutionary Biology; Evo-Devo; Game Theoretic Modeling; Genetics; History of Biology; Language Evolution; Mathematical Biology; Origin of Life; Philosophy of Biology; Population Biology; Systems Biology; Theoretical Ecology; Theoretical Molecular Biology; Theoretical Neuroscience & Cognition.
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