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. 2012 Oct 1;7(10):1263-6.
doi: 10.4161/psb.21662. Epub 2012 Aug 20.

The rice ASR5 protein: a putative role in the response to aluminum photosynthesis disturbance

Rafael Augusto Arenhart  1 Rogério MargisMarcia Margis-Pinheiro
Affiliations

The rice ASR5 protein: a putative role in the response to aluminum photosynthesis disturbance

Rafael Augusto Arenhart et al. Plant Signal Behav. .

Abstract

Under acidic soil conditions, aluminum (Al) becomes available to plants, which must cope with its toxicity by mechanisms involving both internal and external detoxification. Rice is the most Al-tolerant among the crop species, with Al detoxification being managed by both mechanisms. Recently, we focused on ASR (Abscisic acid, Stress and Ripening) gene expression analyses and observed increased ASR5 transcript levels in roots and shoots in response to Al. In addition, ASR5 RNAi knock down plants presented an Al-sensitive phenotype. A proteomic approach showed that ASR5 silencing affected several proteins related to photosynthesis in RNAi rice shoots. Furthermore, an ASR5-GFP fusion in rice protoplasts revealed for the first time a chloroplast localization of this protein. Because it is well known that Al induces photosynthetic dysfunction, here we discuss the hypothesis that ASR5 might be sequestered in the chloroplasts as an inactive transcription factor that could be released to the nucleus in response to Al to regulate genes related to photosynthesis.

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Figures

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Figure 1. Rice protoplast transformation with ASR5-GFP fusion. From upper to lower – The ref fluorescence of chlorophyll, ASR5-YFP fluorescence and merged images using a confocal laser scanning microscope. (a) Protoplast from rice leaves grown under dark conditions. (b) Protoplast from rice leaves grown under light conditions. (c) Vector with GFP only used as positive control. No green fluorescence was detected in negative control (data not shown). Bar = 10µM.
See this image and copyright information in PMC

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