Interaction between photosynthetic electron transport and chloroplast sinks triggers protection and signalling important for plant productivity



Gollan PJ, Lima-Melo Y, Tiwari A, Tikkanen M, Aro EM

PublisherROYAL SOC

2017

Philosophical Transactions B: Biological Sciences

PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES

PHILOS T R SOC B

ARTN 20160390

372

1730

13

0962-8436

1471-2970

DOIhttps://doi.org/10.1098/rstb.2016.0390


The photosynthetic light reactions provide energy that is consumed and stored in electron sinks, the products of photosynthesis. Abalance between light reactions and electron consumption in the chloroplast is vital for plants, and is protected by several photosynthetic regulation mechanisms. Photosystem I (PSI) is particularly susceptible to photoinhibition when these factors become unbalanced, which can occur in low temperatures or in high light. In this study we used the pgr5 Arabidopsis mutant that lacks DpH-dependent regulation of photosynthetic electron transport as a model to study the consequences of PSI photoinhibition under high light. We found that PSI damage severely inhibits carbon fixation and starch accumulation, and attenuates enzymatic oxylipin synthesis and chloroplast regulation of nuclear gene expression after high light stress. This work shows that modifications to regulation of photosynthetic light reactions, which may be designed to improve yield in crop plants, can negatively impact metabolism and signalling, and thereby threaten plant growth and stress tolerance.This article is part of the themed issue 'Enhancing photosynthesis in crop plants: targets for improvement'.



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