The Game of Timing: Circadian Rhythms Intersect with Changing Environments

Laosuntisuk, Kanjana; Elorriaga, Estefania; Doherty, Colleen J.

doi:10.1146/annurev-arplant-070522-065329

Cited by 15 publications

(19 citation statements)

References 166 publications

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“…All plants consist of at least one member in this gene family but differ in the representation in CIRCADIAN CLOCK-ASSOCIATED 1 ( CCA1 ) and LCL/REVEILLE ( RVE ) clades. In higher plants, there is a larger number of circadian clock components due to events such as genome duplication and polyploidization as compared to basal plants, and this is especially true for the MYB transcription factors (10 copies in Arabidopsis) and the CCT protein (17 copies in Arabidopsis) (Laosuntisuk, Elorriaga and Doherty, 2023). In order to effectively compare the circadian clocks across species, information regarding a gene’s spatial-temporal expression is necessary on top of sequence similarity.…”

Section: Resultsmentioning

confidence: 99%

“…In addition, when sequence similarity is taken into consideration, AT5G02840 , annotated as RVE4 on TAIR (The Arabidopsis Information Resource (TAIR), no date b) is the most likely functional ortholog to MpRVE as they belong to the same clade (Supplementary Figure 2). AT2G46830 , on the other hand, is annotated as CCA1 on TAIR (The Arabidopsis Information Resource (TAIR), no date a), which has been noted to be lost in Marchantia (Laosuntisuk, Elorriaga and Doherty, 2023).…”

Section: Resultsmentioning

confidence: 99%

“…Given the importance of photosynthesis which plants rely on to obtain energy, it is not surprising that the quality and amount of light sensed by the photoreceptors affects photosynthesis and related processes such as carbon metabolism, growth and response to stresses (Hsu and Harmer, 2014). Developmental processes such as flowering are also dependent on day length to ensure that such costly developmental processes occur at the right time of the year to avoid harsh weather and pollination success for maximal reproductive fitness (Laosuntisuk, Elorriaga and Doherty, 2023). Anticipatory defence mechanisms, such as the accumulation of jasmonic acid during the day when herbivores are active allow the plant to channel limited resources to the most important processes in a timely manner (Greenham and McClung, 2015).…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Diurnal.plant.tools in 2024: expanding toMarchantia polymorphaand four angiosperms

Tan,

Mutwil

2024

Preprint

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Diurnal gene expression is a pervasive phenomenon occurring across all kingdoms of life, orchestrating adaptive responses to daily environmental fluctuations and thus enhancing organismal fitness. Our understanding of the plant circadian clock is primarily derived from studies in Arabidopsis and direct comparisons are difficult due to differences in gene family sizes. To this end, the identification of functional orthologs based on diurnal and tissue expression is necessary. The diurnal.plant.tools database constitutes a repository of gene expression profiles from 17 members of the Archaeplastida lineage, with built-in tools facilitating cross-species comparisons. In this database update, we expand the dataset with diurnal gene expression from 4 agriculturally significant crop species and Marchantia, a plant of evolutionary significance. Notably, the inclusion of diurnal gene expression data for Marchantia enables researchers to glean insights into the evolutionary trajectories of the circadian clock and other biological processes spanning from algae to angiosperms. Moreover, by integrating data from tissue, and perturbation gene expression datasets for Marchantia from other databases, the diurnal dataset complements it to offer a comprehensive overview of gene functions across varied biological contexts. This expanded database serves as a valuable resource for elucidating the intricacies of diurnal gene regulation and its evolutionary underpinnings in plant biology.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Diurnal.plant.tools in 2024: expanding toMarchantia polymorphaand four angiosperms

Tan,

Mutwil

2024

Preprint

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“…Considering that clock components exhibit significant evolutionary conservation across angiosperms 50,51 , our snRNA-seq data on circadian expression can be leveraged beyond Arabidopsis research and serve as a robust tool to pinpoint circadian regulators in a diverse range of plant species. Moreover, for the many plant species in which the circadian components remain partially unclear [52][53][54] , our time-series snRNA-seq approach could be applied to quickly generate a potential gene list of key circadian regulators ranked by the number of cell types that they are oscillating in.…”

Section: A Data-driven Approach For Identifying Key Circadian Regulatorsmentioning

confidence: 99%

A Day in the Life of Arabidopsis:24-Hour Time-lapse Single-nucleus Transcriptomics Reveal Cell-type specific Circadian Rhythms

Qin,

Liu,

Gao

et al. 2023

Preprint

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Functional circadian clock is fundamental to the adaptation and survival of organisms. In land plants, the comprehensive profiling of circadian gene expression at the single-cell level is largely unknown partly due to the challenges in obtaining precisely-timed single cells from plant cells embedded within cell walls. To bridge this gap, we employed single-nucleus RNA sequencing (snRNA-seq) on twelve seedling samples collected at 2-hour intervals over a 24-hour day in Arabidopsis, yielding a total of over 130,000 nuclei. From this data, we found that three cell clusters in the shoot share a coherent rhythm, while more than 3,000 genes display cell-type specific rhythmic expression. Only 19 genes are oscillating in more than ten different cell types, and the majority of them are well-documented core oscillators, suggesting the snRNA-seq circadian data could be used to identify key circadian regulators in a broad range of plant systems. Our data provides the first comprehensive resource for plant circadian rhythms at the single-cell level (hosted athttps://zhailab.bio.sustech.edu.cn/sc_circadian).

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“…The Earth’s rotation generates environmental variables with a 24-h periodicity, including temperature and light fluctuations ( Hou et al, 2022 ; Laosuntisuk et al, 2023 ). Various life forms, including animals, plants, bacteria, fungi, have developed intricate internal timing mechanisms to synchronize their behavior and physiological processes with these cyclic environmental changes ( Patton and Hastings, 2023 ).…”

Section: Introductionmentioning

confidence: 99%

Biological clock regulation by the PER gene family: a new perspective on tumor development

Chen,

Wang,

et al. 2024

Front. Cell Dev. Biol.

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The Period (PER) gene family is one of the core components of the circadian clock, with substantial correlations between the PER genes and cancers identified in extensive researches. Abnormal mutations in PER genes can influence cell function, metabolic activity, immunity, and therapy responses, thereby promoting the initiation and development of cancers. This ultimately results in unequal cancers progression and prognosis in patients. This leads to variable cancer progression and prognosis among patients. In-depth studies on the interactions between the PER genes and cancers can reveal novel strategies for cancer detection and treatment. In this review, we aim to provide a comprehensive overview of the latest research on the role of the PER gene family in cancer.

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The Game of Timing: Circadian Rhythms Intersect with Changing Environments

Cited by 15 publications

References 166 publications

Diurnal.plant.tools in 2024: expanding toMarchantia polymorphaand four angiosperms

Diurnal.plant.tools in 2024: expanding toMarchantia polymorphaand four angiosperms

A Day in the Life of Arabidopsis:24-Hour Time-lapse Single-nucleus Transcriptomics Reveal Cell-type specific Circadian Rhythms

Biological clock regulation by the PER gene family: a new perspective on tumor development

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