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Article Dans Une Revue Science Advances Année : 2022

Transcriptional regulation of photoprotection in dark-to-light transition—More than just a matter of excess light energy

Résumé

In nature, photosynthetic organisms are exposed to different light spectra and intensities depending on the time of day and atmospheric and environmental conditions. When photosynthetic cells absorb excess light, they induce nonphotochemical quenching to avoid photodamage and trigger expression of “photoprotective” genes. In this work, we used the green alga Chlamydomonas reinhardtii to assess the impact of light intensity, light quality, photosynthetic electron transport, and carbon dioxide on induction of the photoprotective genes ( LHCSR1 , LHCSR3 , and PSBS ) during dark-to-light transitions. Induction (mRNA accumulation) occurred at very low light intensity and was independently modulated by blue and ultraviolet B radiation through specific photoreceptors; only LHCSR3 was strongly controlled by carbon dioxide levels through a putative enhancer function of CIA5, a transcription factor that controls genes of the carbon concentrating mechanism. We propose a model that integrates inputs of independent signaling pathways and how they may help the cells anticipate diel conditions and survive in a dynamic light environment.
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Dates et versions

hal-03727794 , version 1 (19-07-2022)

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Petra Redekop, Emanuel Sanz-Luque, Yizhong Yuan, Gaelle Villain, Dimitris Petroutsos, et al.. Transcriptional regulation of photoprotection in dark-to-light transition—More than just a matter of excess light energy. Science Advances , 2022, 8 (22), pp.eabn1832. ⟨10.1126/sciadv.abn1832⟩. ⟨hal-03727794⟩
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