Journal ArticleDOI
Identification of Arabidopsis salt and osmotic stress responsive proteins using two‐dimensional difference gel electrophoresis and mass spectrometry
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TLDR
It is demonstrated that NaCl causes a transient suppression of de novo protein synthesis, from which the cells recover within 4 h, which is a typical response of plant cells to salt and hyperosmotic stress.Abstract:
Arabidopsis thaliana cell suspension cultures have been used to investigate the effects of salinity and hyperosmotic stress on plant cellular proteins. We show that 200 mM NaCl and 400 mM sorbitol treatments induce extracellular medium acidification in Arabidopsis cell cultures, a typical response of plant cells to salt and hyperosmotic stress. Using (35)S-labelled amino acids, we demonstrated that NaCl causes a transient suppression of de novo protein synthesis, from which the cells recover within 4 h. Changes in the abundance of cellular proteins 6 h post NaCl and sorbitol treatments were analysed by 2-DE. Of a total of 2,949 protein spots detected on the gels, 266 showed significant changes in abundance across five independent experiments. Using MALDI-TOF MS, we identified 75 salt and sorbitol responsive spots. These fall into 10 functional categories that include H(+) transporting ATPases, signal transduction related proteins, transcription/translation related proteins, detoxifying enzymes, amino acid and purine biosynthesis related proteins, proteolytic enzymes, heat-shock proteins, carbohydrate metabolism-associated proteins and proteins with no known biological functions.read more
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Journal ArticleDOI
Photosynthesis under drought and salt stress: regulation mechanisms from whole plant to cell
TL;DR: It is becoming apparent that plants perceive and respond to drought and salt stresses by quickly altering gene expression in parallel with physiological and biochemical alterations; this occurs even under mild to moderate stress conditions.
Journal ArticleDOI
Effect of salinity stress on plants and its tolerance strategies: a review.
TL;DR: The understanding of salinity impact on various aspects of plant metabolism and its tolerance strategies in plants is reviewed and it appears to be a major constraint to plant and crop productivity.
Journal ArticleDOI
Plant proteome changes under abiotic stress--contribution of proteomics studies to understanding plant stress response
TL;DR: In this review, proteomics studies dealing with plant response to a broad range of abiotic stress factors--cold, heat, drought, waterlogging, salinity, ozone treatment, hypoxia and anoxia, herbicide treatments, inadequate or excessive light conditions, disbalances in mineral nutrition, enhanced concentrations of heavy metals, radioactivity and mechanical wounding are discussed.
Journal ArticleDOI
Comparative proteomic analysis of NaCl stress-responsive proteins in Arabidopsis roots
TL;DR: A comparative proteomic analysis of roots that had been exposed to 150 mM NaCl for either 6 h or 48 h was conducted, supporting the concept that post-transcriptional regulation plays an important role in stress-responsive gene expression and highlighting the need for combined transcriptomic and proteomic analyses.
Journal ArticleDOI
Comprehensive transcriptional profiling of NaCl-stressed Arabidopsis roots reveals novel classes of responsive genes
TL;DR: Micorarray profiling of NaCl-treated Arabidopsis roots revealed dynamic changes in transcript abundance for at least 20% of the genome, including hundreds of transcription factors, kinases/phosphatases, hormone-related genes, and effectors of homeostasis, all of which highlight the complexity of this stress response.
References
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Journal ArticleDOI
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Difference gel electrophoresis. A single gel method for detecting changes in protein extracts
TL;DR: DIGE is reproducible, sensitive, and can detect an exogenous difference between two Drosophila embryo extracts at nanogram levels and was detected after 15 min of induction and identified using DIGE preparatively.
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Monitoring the expression profiles of 7000 Arabidopsis genes under drought, cold and high-salinity stresses using a full-length cDNA microarray.
Motoaki Seki,Mari Narusaka,Junko Ishida,Tokihiko Nanjo,Miki Fujita,Youko Oono,Asako Kamiya,Maiko Nakajima,Akiko Enju,Tetsuya Sakurai,Masakazu Satou,Kenji Akiyama,Teruaki Taji,Kazuko Yamaguchi-Shinozaki,Piero Carninci,Jun Kawai,Yoshihide Hayashizaki,Kazuo Shinozaki +17 more
TL;DR: A full-length cDNA microarray containing approximately 7000 independent, full- length cDNA groups is prepared to analyse the expression profiles of genes under drought, cold (low temperature) and high-salinity stress conditions over time, suggesting that various transcriptional regulatory mechanisms function in the drought,cold or high- salinity stress signal transduction pathways.
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Regulation of ion homeostasis under salt stress.
TL;DR: Evidence suggests that aprotein kinase complex consisting of the myristoylated calcium-binding protein SOS3 and the serine/threonine protein kinase SOS2 is activated by a salt-stress-elicited calcium signal, which phosphorylates and activates various ion transporters, such as the plasma membrane Na(+)/H(+) antiporter SOS1.