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Are There Circadian Clocks in Non-Photosynthetic Bacteria?

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Title: Are There Circadian Clocks in Non-Photosynthetic Bacteria?
Authors: Francesca Sartor, Zheng Eelderink-Chen, Ben Aronson, Jasper Bosman, Lauren E. Hibbert, Antony N. Dodd, Ákos T. Kovács, Martha Merrow
Source: Biology, Vol 8, Iss 2, p 41 (2019)
Publisher Information: MDPI AG, 2019.
Publication Year: 2019
Collection: LCC:Biology (General)
Subject Terms: circadian, rhythm, clock, Eubacteria, entrainment, microbiome, temporal mutualism, holobiont, Biology (General), QH301-705.5
More Details: Circadian clocks in plants, animals, fungi, and in photosynthetic bacteria have been well-described. Observations of circadian rhythms in non-photosynthetic Eubacteria have been sporadic, and the molecular basis for these potential rhythms remains unclear. Here, we present the published experimental and bioinformatical evidence for circadian rhythms in these non-photosynthetic Eubacteria. From this, we suggest that the timekeeping functions of these organisms will be best observed and studied in their appropriate complex environments. Given the rich temporal changes that exist in these environments, it is proposed that microorganisms both adapt to and contribute to these daily dynamics through the process of temporal mutualism. Understanding the timekeeping and temporal interactions within these systems will enable a deeper understanding of circadian clocks and temporal programs and provide valuable insights for medicine and agriculture.
Document Type: article
File Description: electronic resource
Language: English
ISSN: 2079-7737
Relation: https://www.mdpi.com/2079-7737/8/2/41; https://doaj.org/toc/2079-7737
DOI: 10.3390/biology8020041
Access URL: https://doaj.org/article/1f08c9dd35f14fecbb51b0437e638f0b
Accession Number: edsdoj.1f08c9dd35f14fecbb51b0437e638f0b
Database: Directory of Open Access Journals
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  Data: Biology, Vol 8, Iss 2, p 41 (2019)
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  Data: Circadian clocks in plants, animals, fungi, and in photosynthetic bacteria have been well-described. Observations of circadian rhythms in non-photosynthetic Eubacteria have been sporadic, and the molecular basis for these potential rhythms remains unclear. Here, we present the published experimental and bioinformatical evidence for circadian rhythms in these non-photosynthetic Eubacteria. From this, we suggest that the timekeeping functions of these organisms will be best observed and studied in their appropriate complex environments. Given the rich temporal changes that exist in these environments, it is proposed that microorganisms both adapt to and contribute to these daily dynamics through the process of temporal mutualism. Understanding the timekeeping and temporal interactions within these systems will enable a deeper understanding of circadian clocks and temporal programs and provide valuable insights for medicine and agriculture.
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