植物细胞(THE PLANT CELL)2013-09-05 2:57 AM

Light-Induced Acclimation of the Arabidopsis chlorina1 Mutant to Singlet Oxygen

Singlet oxygen (1O2) is a reactive oxygen species that can function as a stress signal in plant leaves leading to programmed cell death. In microalgae, 1O2-induced transcriptomic changes result in acclimation to 1O2. Here, using a chlorophyll b–less Arabidopsis thaliana mutant (chlorina1 [ch1]), we show that this phenomenon can also occur in vascular plants. The ch1 mutant is highly photosensitive due to a selective increase in the release of 1O2 by photosystem II. Under photooxidative stress conditions, the gene expression profile of ch1 mutant leaves very much resembled the gene responses to 1O2 reported in the Arabidopsis mutant flu. Preexposure of ch1 plants to moderately elevated light intensities eliminated photooxidative damage without suppressing 1O2 formation, indicating acclimation to 1O2. Substantial differences in gene expression were observed between acclimation and high-light stress: A number of transcription factors were selectively induced by acclimation, and contrasting effects were observed for the jasmonate pathway. Jasmonate biosynthesis was strongly induced in ch1 mutant plants under high-light stress and was noticeably repressed under acclimation conditions, suggesting the involvement of this hormone in 1O2-induced cell death. This was confirmed by the decreased tolerance to photooxidative damage of jasmonate-treated ch1 plants and by the increased tolerance of the jasmonate-deficient mutant delayed-dehiscence2.

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