Time and function in the living world.

Advances in microbial physiology Pub Date : 2025-01-01 Epub Date: 2025-04-08 DOI:10.1016/bs.ampbs.2025.02.001

Helen A Jenkins, Alun L Lloyd, Jackelyn M Kembro, David Lloyd

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Abstract

We begin by discussing some historical ideas about the natural dynamics of living organisms and their complex states, from the very transient to the very persistent. We classify ultradian rhythms as being more important than most oscillatory behaviour in their distinctive properties. Then we summarise rhythmicity in three yeasts and five representative protist species. Recent discoveries about the single-celled photosynthetic alga Chlamydomonas reinhardii are then discussed as revealed by computer-controlled semi-continuous monitoring: automatic periodic measurement of the rate of phototaxis and chlorophyll a content over extended times for up to 12 days. Methodological approaches for analysing time series are discussed, including the recently developed 'GaMoSEC' procedure, providing published references to the detection and understanding of the complex behaviour of natural systems. Finally, we conclude by summarising the general significance of ultradian rhythms to the vital aspects of the biological timekeeping of coherent functionality of living systems from single-cell organisms to humans from their healthy to declining states.

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生命世界中的时间和功能。

我们首先讨论一些关于生物体的自然动力学及其复杂状态的历史观点，从非常短暂的到非常持久的。我们将超昼夜节律归类为比大多数振荡行为更重要的特征。然后总结了3种酵母和5种具有代表性的原生生物的节律性。然后讨论了计算机控制的半连续监测所揭示的单细胞光合藻类衣藻reinhardii的最新发现：在长达12天的延长时间内自动定期测量趋光性和叶绿素a含量的速率。讨论了分析时间序列的方法学方法，包括最近开发的“GaMoSEC”程序，为自然系统的复杂行为的检测和理解提供了公开的参考。最后，我们总结了从单细胞生物到人类，从健康状态到衰退状态，超昼夜节律对生物计时的重要意义。

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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Advances in microbial physiology

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