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How Light Reactions of Photosynthesis in C4 Plants Are Optimized and Protected under High Light Conditions

Wioleta Wasilewska-Dębowska, Maksymilian Zienkiewicz, Anna Drožak

2022International Journal of Molecular Sciences36 citationsDOIOpen Access PDF

Abstract

Most C4 plants that naturally occur in tropical or subtropical climates, in high light environments, had to evolve a series of adaptations of photosynthesis that allowed them to grow under these conditions. In this review, we summarize mechanisms that ensure the balancing of energy distribution, counteract photoinhibition, and allow the dissipation of excess light energy. They secure effective electron transport in light reactions of photosynthesis, which will lead to the production of NADPH and ATP. Furthermore, a higher content of the cyclic electron transport components and an increase in ATP production are observed, which is necessary for the metabolism of C4 for effective assimilation of CO2. Most of the data are provided by studies of the genus Flaveria, where species belonging to different metabolic subtypes and intermediate forms between C3 and C4 are present. All described mechanisms that function in mesophyll and bundle sheath chloroplasts, into which photosynthetic reactions are divided, may differ in metabolic subtypes as a result of the different organization of thylakoid membranes, as well as the different demand for ATP and NADPH. This indicates that C4 plants have plasticity in the utilization of pathways in which efficient use and dissipation of excitation energy are realized.

Topics & Concepts

PhotosynthesisThylakoidPhotoinhibitionC4 photosynthesisChloroplastElectron transport chainBiophysicsLight energyPhotoprotectionBiologyAssimilation (phonology)BotanyChemistryPhotosystem IIBiochemistryPhysicsPhilosophyOpticsGeneLinguisticsPhotosynthetic Processes and MechanismsLight effects on plantsLipid metabolism and biosynthesis