Interplay among photoreceptors determines the strategy of coping with excess light in tomato-Reference-Cited by-同舟云学术

Interplay among photoreceptors determines the strategy of coping with excess light in tomato

Published:2024-02-25 Issue:5 Volume:118 Page:1423-1438
ISSN:0960-7412
Container-title:The Plant Journal
language:en
Short-container-title:The Plant Journal

Author:

Shomali Aida¹^ORCID,Aliniaeifard Sasan¹²,Kamrani Yousef Yari³,Lotfi Mahmoud¹,Aghdam Morteza Soleymani⁴,Rastogi Anshu⁵,Brestič Marian⁶

Affiliation:

1. Photosynthesis Laboratory, Department of Horticulture, College of Aburaihan University of Tehran Tehran Iran

2. Controlled Environment Agriculture Center (CEAC), College of Agriculture and Natural Resources University of Tehran Tehran Iran

3. Experimental Biophysics, Institute for Biology Humboldt‐University of Berlin Invaliden Str. 42 10115 Berlin Germany

4. Department of Horticultural Science Imam Khomeini International University Qazvin Iran

5. Laboratory of Bioclimatology, Department of Ecology and Environmental Protection, Faculty of Environmental Engineering and Mechanical Engineering Poznan University of Life Sciences Piątkowska 94 60‐649 Poznań Poland

6. Department of Plant Physiology, Faculty of Agrobiology and Food Resources Slovak University of Agriculture A. Hlinku 2 Nitra 949 76 Slovak Republic

Abstract

SUMMARYThis study investigates photoreceptor's role in the adaption of photosynthetic apparatus to high light (HL) intensity by examining the response of tomato wild type (WT) (Solanum lycopersicum L. cv. Moneymaker) and tomato mutants (phyA, phyB1, phyB2, cry1) plants to HL. Our results showed a photoreceptor‐dependent effect of HL on the maximum quantum yield of photosystem II (Fv/Fm) with phyB1 exhibiting a decrease, while phyB2 exhibiting an increase in Fv/Fm. HL resulted in an increase in the efficient quantum yield of photosystem II (ΦPSII) and a decrease in the non‐photochemical quantum yields (ΦNPQ and ΦN0) solely in phyA. Under HL, phyA showed a significant decrease in the energy‐dependent quenching component of NPQ (qE), while phyB2 mutants showed an increase in the state transition (qT) component. Furthermore, ΔΔFv/Fm revealed that PHYB1 compensates for the deficit of PHYA in phyA mutants. PHYA signaling likely emerges as the dominant effector of PHYB1 and PHYB2 signaling within the HL‐induced signaling network. In addition, PHYB1 compensates for the role of CRY1 in regulating Fv/Fm in cry1 mutants. Overall, the results of this research provide valuable insights into the unique role of each photoreceptor and their interplay in balancing photon energy and photoprotection under HL condition.

Publisher

Wiley

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1111/tpj.16685

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