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Hypothesis; A binary redox control mode as universal regulator of photosynthetic light acclimation

机译:假设;二元氧化还原控制模式作为光合光适应的通用调节剂

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摘要

In nature, plants experience considerable changes in the prevailing illumination, which can drastically reduce photosynthetic efficiency and yield. Such adverse effects are counterbalanced by acclimation responses which ensure high photosynthetic productivity by structural reconfiguration of the photosynthetic apparatus. Those acclimation responses are controlled by reduction-oxidation (redox) signals from two pools of redox compounds, the plastoquinone and the thioredoxin pools. The relative impactof these two redox signaling systems on this process, however, remains controversial. Recently, we showed that photosynthesis controls nuclear gene expression and cellular metabolite states in an integrated manner, thus, stabilizing the varying energeticdemands of the plant. Here, we propose a novel model based on a binary redox control mode to explain adaptation of plant primary productivity to the light environment. Plastoquinone and thioredoxin pools are proposed to define specific environmental situations cooperatively and to initiate appropriate acclimation responses controlled by four binary combinations of their redox states. Our model indicates a hierarchical redox regulation network that controls plant primary productivity and supports the notion that photosynthesis is an environmental sensor affecting plant growth and development.
机译:在自然界中,植物在盛行的光照条件下会发生重大变化,这可能会大大降低光合效率和产量。通过适应反应平衡了这些不利影响,该适应反应通过光合装置的结构重构来确保高光合生产力。那些适应性反应受两个氧化还原化合物池(质体醌和硫氧还蛋白池)的还原氧化(redox)信号控制。然而,这两个氧化还原信号系统对这一过程的相对影响仍然存在争议。最近,我们表明光合作用以集成的方式控制核基因的表达和细胞代谢产物的状态,从而稳定了植物的各种能量需求。在这里,我们提出了一种基于二元氧化还原控制模式的新型模型,以解释植物初级生产力对光环境的适应性。提出了醌醌和硫氧还蛋白池来共同定义特定的环境情况,并发起由其氧化还原状态的四种二进制组合控制的适当的适应性反应。我们的模型表明了控制植物初级生产力并支持光合作用是影响植物生长和发育的环境传感器这一观念的分层氧化还原调节网络。

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