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Literature DB >> 29666217

Molecular mechanisms involved in plant photoprotection.

Abstract

Photosynthesis uses sunlight to convert water and carbon dioxide into biomass and oxygen. When in excess, light can be dangerous for the photosynthetic apparatus because it can cause photo-oxidative damage and decreases the efficiency of photosynthesis because of photoinhibition. Plants have evolved many photoprotective mechanisms in order to face reactive oxygen species production and thus avoid photoinhibition. These mechanisms include quenching of singlet and triplet excited states of chlorophyll, synthesis of antioxidant molecules and enzymes and repair processes for damaged photosystem II and photosystem I reaction centers. This review focuses on the mechanisms involved in photoprotection of chloroplasts through dissipation of energy absorbed in excess.

Entities: Chemical Disease

Keywords: ROS; constitutive photoprotective mechanisms; excess light-inducible photoprotective mechanisms; photoinibtion; photoprotection

Mesh：

Substances：

Year: 2018 PMID： 29666217 DOI： 10.1042/BST20170307

Source DB: PubMed Journal: Biochem Soc Trans ISSN： 0300-5127 Impact factor: 5.407

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Cited

39 in total

1. Microsecond and millisecond dynamics in the photosynthetic protein LHCSR1 observed by single-molecule correlation spectroscopy.

Authors: Toru Kondo; Jesse B Gordon; Alberta Pinnola; Luca Dall'Osto; Roberto Bassi; Gabriela S Schlau-Cohen
Journal: Proc Natl Acad Sci U S A Date: 2019-05-17 Impact factor: 11.205

2. Impact of ion fluxes across thylakoid membranes on photosynthetic electron transport and photoprotection.

Authors: Meng Li; Vaclav Svoboda; Geoffry Davis; David Kramer; Hans-Henning Kunz; Helmut Kirchhoff
Journal: Nat Plants Date: 2021-06-17 Impact factor: 15.793

3. Chloroplast lipid biosynthesis is fine-tuned to thylakoid membrane remodeling during light acclimation.

Authors: Linhui Yu; Jilian Fan; Chao Zhou; Changcheng Xu
Journal: Plant Physiol Date: 2021-02-25 Impact factor: 8.340

4. A stress-responsive transcription factor PeNAC1 regulating beta-D-glucan biosynthetic genes enhances salt tolerance in oat.

Authors: Xiao-Dong Liang; Mohamed Shalapy; Shi-Feng Zhao; Jing-Hui Liu; Jun-Ying Wang
Journal: Planta Date: 2021-11-24 Impact factor: 4.116

5. Structure of Arabidopsis SOQ1 lumenal region unveils C-terminal domain essential for negative regulation of photoprotective qH.

Authors: Guimei Yu; Jingfang Hao; Xiaowei Pan; Lifang Shi; Yong Zhang; Jifeng Wang; Hongcheng Fan; Yang Xiao; Fuquan Yang; Jizhong Lou; Wenrui Chang; Alizée Malnoë; Mei Li
Journal: Nat Plants Date: 2022-07-07 Impact factor: 17.352

Molecular mechanisms involved in plant photoprotection.

1. Microsecond and millisecond dynamics in the photosynthetic protein LHCSR1 observed by single-molecule correlation spectroscopy.

2. Impact of ion fluxes across thylakoid membranes on photosynthetic electron transport and photoprotection.

3. Chloroplast lipid biosynthesis is fine-tuned to thylakoid membrane remodeling during light acclimation.

4. A stress-responsive transcription factor PeNAC1 regulating beta-D-glucan biosynthetic genes enhances salt tolerance in oat.

5. Structure of Arabidopsis SOQ1 lumenal region unveils C-terminal domain essential for negative regulation of photoprotective qH.

6. Tocopherol controls D1 amino acid oxidation by oxygen radicals in Photosystem II.

7. Fold-change Response of Photosynthesis to Step Increases of Light Level.

8. Chloroplasts Use Calcium Signals to Call for Help under Heat Stress.

Review 9. Redox regulation of chloroplast metabolism.

10. Translational Components Contribute to Acclimation Responses to High Light, Heat, and Cold in Arabidopsis.