Literature DB >> 20484005

The RNA binding protein Tudor-SN is essential for stress tolerance and stabilizes levels of stress-responsive mRNAs encoding secreted proteins in Arabidopsis.

Nicolas Frei dit Frey1, Philippe Muller, Fabien Jammes, Dimosthenis Kizis, Jeffrey Leung, Catherine Perrot-Rechenmann, Michele Wolfe Bianchi.   

Abstract

Tudor-SN (TSN) copurifies with the RNA-induced silencing complex in animal cells where, among other functions, it is thought to act on mRNA stability via the degradation of specific dsRNA templates. In plants, TSN has been identified biochemically as a cytoskeleton-associated RNA binding activity. In eukaryotes, it has recently been identified as a conserved primary target of programmed cell death-associated proteolysis. We have investigated the physiological role of TSN by isolating null mutations for two homologous genes in Arabidopsis thaliana. The double mutant tsn1 tsn2 displays only mild growth phenotypes under nonstress conditions, but germination, growth, and survival are severely affected under high salinity stress. Either TSN1 or TSN2 alone can complement the double mutant, indicating their functional redundancy. TSN accumulates heterogeneously in the cytosol and relocates transiently to a diffuse pattern in response to salt stress. Unexpectedly, stress-regulated mRNAs encoding secreted proteins are significantly enriched among the transcripts that are underrepresented in tsn1 tsn2. Our data also reveal that TSN is important for RNA stability of its targets. These findings show that TSN is essential for stress tolerance in plants and implicate TSN in new, potentially conserved mechanisms acting on mRNAs entering the secretory pathway.

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Year:  2010        PMID: 20484005      PMCID: PMC2899877          DOI: 10.1105/tpc.109.070680

Source DB:  PubMed          Journal:  Plant Cell        ISSN: 1040-4651            Impact factor:   11.277


  74 in total

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  31 in total

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4.  The Arabidopsis RNA-binding protein AtRGGA regulates tolerance to salt and drought stress.

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5.  Rapid Recovery Gene Downregulation during Excess-Light Stress and Recovery in Arabidopsis.

Authors:  Peter A Crisp; Diep R Ganguly; Aaron B Smith; Kevin D Murray; Gonzalo M Estavillo; Iain Searle; Ethan Ford; Ozren Bogdanović; Ryan Lister; Justin O Borevitz; Steven R Eichten; Barry J Pogson
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Review 6.  Polysomes, Stress Granules, and Processing Bodies: A Dynamic Triumvirate Controlling Cytoplasmic mRNA Fate and Function.

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Review 10.  Genomic era analyses of RNA secondary structure and RNA-binding proteins reveal their significance to post-transcriptional regulation in plants.

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