ROC75 is an Attenuator for the Circadian Clock that Controls LHCSR3 Expression

Kamrani, Y. Y.; Matsuo, Takuya; Mittag, Maria; Minagawa, Jun

doi:10.1093/pcp/pcy179

Cited by 8 publications

(15 citation statements)

References 31 publications

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“…4 ). In addition, two previously reported regulators of qE, ROC75 28 and CrCO 26, 27 , are also included in this list of PHOT-dependent regulators. These observations are in line with an existing hypothesis 24 suggesting that a CUL4-dependent E3-ligase targeting CrCO, 26 acts downstream of PHOT.…”

Section: Resultsmentioning

confidence: 99%

Widening the landscape of transcriptional regulation of green algal photoprotection

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Yuan

Nooshin

et al. 2022

Preprint

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Availability of light and CO2, substrates of microalgae photosynthesis, is frequently far from optimal. Microalgae activate photoprotection under strong light, to prevent oxidative damage, and the CO2 Concentrating Mechanism (CCM) under low CO2, to raise intracellular CO2 levels. Both processes are controlled by the nuclear factor CIA5/CCM1; yet, the underlying upstream transcriptional regulators remain largely unknown. By employing a large transcriptomics data compendium of Chlamydomonas reinhardtii’s responses to different light and carbon supply we reconstructed a consensus genome-scale gene regulatory network from complementary inference approaches and used it to elucidate the transcriptional regulation of photoprotection. We showed that the CCM regulator LCR1 also activates photoprotection, and that QER7, a Squamosa Binding Protein, represses photoprotection- and CCM-gene expression. Along with demonstrating the existence of regulatory hubs that channel light- and CO2-mediated signals into a common response, our study provides a unique resource to dissect gene expression regulation in this microalga.

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Section: Resultsmentioning

confidence: 99%

Widening the landscape of transcriptional regulation of green algal photoprotection

Arend

Yuan

Nooshin

et al. 2022

Preprint

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“…There is evidence to support that algal ancestors utilize circadian-regulated mechanisms to respond to abiotic stress. The C. reinhardtii clock is postulated to regulate photoprotection against harmful photosystem overexcitation from strong red light via the ROC75-mediated regulation of photoprotective effector genes like LIGHT-HARVESTING COMPLEX STRESS-RELATED3 (LHCSR3) (Kamrani et al, 2018). P. patens and the latest streptophyte algae (Zygnematales, Coleochaetales, and Charales) that diverged from land plants are also postulated to rely on LHCSRs for photoprotection (Gerotto & Morosinotto, 2013;Pinnola, 2019), though whether they are circadianregulated as CrLHCSR3 is unknown.…”

Section: Accepted Articlementioning

confidence: 99%

“…(LHCSR3) (Kamrani et al, 2018). P. patens and the latest streptophyte algae (Zygnematales, Coleochaetales and Charales) that diverged from land plants are also postulated to rely on LHCSRs for photoprotection (Gerotto & Morosinotto, 2013;Pinnola, 2019), although whether they are circadian-regulated as CrLHCSR3 is unknown.…”

Section: Eudicotsmentioning

confidence: 99%

“…The C . reinhardtii clock is postulated to regulate photoprotection against harmful photosystem overexcitation from strong red light via the ROC75‐mediated regulation of photoprotective effector genes like LIGHT‐HARVESTING COMPLEX STRESS‐RELATED3 ( LHCSR3 ) (Kamrani et al ., 2018). P .…”

Section: The Origins Of Clock‐mediated Abiotic Stress Response In the Green Lineagementioning

confidence: 99%

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Abiotic stress through time

Markham

Greenham

2021

New Phytologist

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Throughout plant evolution the circadian clock has expanded into a complex signaling network, coordinating physiological and metabolic processes with the environment. Early land plants faced new environmental pressures that required energy-demanding stress responses. Integrating abiotic stress response into the circadian system provides control over daily energy expenditure. Here, we describe the evolution of the circadian clock in plants and the limited, yet compelling evidence for conserved regulation of abiotic stress. The need to introduce abiotic stress tolerance into current crops has expanded research into wild accessions and revealed extensive variation in circadian clock parameters across monocot and eudicot species. We argue that research into the ancestral links between the clock and abiotic stress will benefit crop improvement efforts.

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“…Moreover, the Cr pCRY knockdown line exerts a significantly lengthened period of about 27.9h compared to wild type (24.5h in average); it becomes arrhythmic after a few days under free-running conditions that are used to analyze clock properties. It was also suggested that pCRY positively regulates the clock component, ROC75, a putative transcription factor ( Kamrani et al, 2018 ). These data support the model that Cr pCRY is not only involved in circadian input but is also linked to the central oscillator.…”

Section: Variety Of Algal Cryptochromesmentioning

confidence: 99%

The World of Algae Reveals a Broad Variety of Cryptochrome Properties and Functions

et al. 2021

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Algae are photosynthetic eukaryotic (micro-)organisms, lacking roots, leaves, and other organs that are typical for land plants. They live in freshwater, marine, or terrestrial habitats. Together with the cyanobacteria they contribute to about half of global carbon fixation. As primary producers, they are at the basis of many food webs and they are involved in biogeochemical processes. Algae are evolutionarily distinct and are derived either by primary (e.g., green and red algae) or secondary endosymbiosis (e.g., diatoms, dinoflagellates, and brown algae). Light is a key abiotic factor needed to maintain the fitness of algae as it delivers energy for photosynthesis, regulates algal cell- and life cycles, and entrains their biological clocks. However, excess light can also be harmful, especially in the ultraviolet range. Among the variety of receptors perceiving light information, the cryptochromes originally evolved as UV-A and blue-light receptors and have been found in all studied algal genomes so far. Yet, the classification, biophysical properties, wavelength range of absorbance, and biological functions of cryptochromes are remarkably diverse among algal species, especially when compared to cryptochromes from land plants or animals.

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ROC75 is an Attenuator for the Circadian Clock that Controls LHCSR3 Expression

Cited by 8 publications

References 31 publications

Widening the landscape of transcriptional regulation of green algal photoprotection

Widening the landscape of transcriptional regulation of green algal photoprotection

Abiotic stress through time

The World of Algae Reveals a Broad Variety of Cryptochrome Properties and Functions

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