4.7 Article

Determinants of photochemical characteristics of the photosynthetic electron transport chain of maize

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FRONTIERS IN PLANT SCIENCE
卷 14, 期 -, 页码 -

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FRONTIERS MEDIA SA
DOI: 10.3389/fpls.2023.1279963

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photosynthesis; photosynthetic electron transport; redox parameters; leaf characteristics; plant growth stages; maize

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The photosynthetic electron transport chain (ETC), which is fundamental for the balance between energy supply and demand in photosynthesis, is affected by nutrient availability and plant developmental stages. In this study, we investigated the structural controls of ETC on the photochemical reactions and electron transport by measuring chlorophyll fluorescence and gas exchange under varying environmental conditions and growth stages of maize.
IntroductionThe photosynthetic electron transport chain (ETC) is the bridge that links energy harvesting during the photophysical reactions at one end and energy consumption during the biochemical reactions at the other. Its functioning is thus fundamental for the proper balance between energy supply and demand in photosynthesis. Currently, there is a lack of understanding regarding how the structural properties of the ETC are affected by nutrient availability and plant developmental stages, which is a major roadblock to comprehensive modeling of photosynthesis.MethodsRedox parameters reflect the structural controls of ETC on the photochemical reactions and electron transport. We conducted joint measurements of chlorophyll fluorescence (ChlF) and gas exchange under systematically varying environmental conditions and growth stages of maize and sampled foliar nutrient contents. We utilized the recently developed steady-state photochemical model to infer redox parameters of electron transport from these measurements.Results and discussionWe found that the inferred values of these photochemical redox parameters varied with leaf macronutrient content. These variations may be caused either directly by these nutrients being components of protein complexes on the ETC or indirectly by their impacts on the structural integrity of the thylakoid and feedback from the biochemical reactions. Also, the redox parameters varied with plant morphology and developmental stage, reflecting seasonal changes in the structural properties of the ETC. Our findings will facilitate the parameterization and simulation of complete models of photosynthesis.

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