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Signal transduction during cold, salt, and drought stresses in plants 总被引:14,自引:0,他引:14
Huang GT Ma SL Bai LP Zhang L Ma H Jia P Liu J Zhong M Guo ZF 《Molecular biology reports》2012,39(2):969-987
Abiotic stresses, especially cold, salinity and drought, are the primary causes of crop loss worldwide. Plant adaptation to
environmental stresses is dependent upon the activation of cascades of molecular networks involved in stress perception, signal
transduction, and the expression of specific stress-related genes and metabolites. Plants have stress-specific adaptive responses
as well as responses which protect the plants from more than one environmental stress. There are multiple stress perception
and signaling pathways, some of which are specific, but others may cross-talk at various steps. In this review article, we
first expound the general stress signal transduction pathways, and then highlight various aspects of biotic stresses signal
transduction networks. On the genetic analysis, many cold induced pathways are activated to protect plants from deleterious
effects of cold stress, but till date, most studied pathway is ICE-CBF-COR signaling pathway. The Salt-Overly-Sensitive (SOS)
pathway, identified through isolation and study of the sos1, sos2, and sos3 mutants, is essential for maintaining favorable ion ratios in the cytoplasm and for tolerance of salt stress. Both ABA-dependent
and -independent signaling pathways appear to be involved in osmotic stress tolerance. ROS play a dual role in the response
of plants to abiotic stresses functioning as toxic by-products of stress metabolism, as well as important signal transduction
molecules and the ROS signaling networks can control growth, development, and stress response. Finally, we talk about the
common regulatory system and cross-talk among biotic stresses, with particular emphasis on the MAPK cascades and the cross-talk
between ABA signaling and biotic signaling. 相似文献
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Rama Devi S Chen X Oliver DJ Xiang C 《The Plant journal : for cell and molecular biology》2006,47(4):652-663
Activation sequence-1 (as-1) cognate promoter elements are widespread in the promoters of plant defense-related genes as well as in plant pathogen promoters, and may play important roles in the activation of defense-related genes. The as-1-type elements are highly responsive to multiple stress stimuli such as jasmonic acid (JA), salicylic acid (SA), H(2)O(2), xenobiotics and heavy metals, and therefore provide a unique opportunity for identifying additional signaling components and cross-talk points in the various signaling networks. A single as-1-type cis-element-driven GUS reporter Arabidopsis line responsive to JA, SA, H(2)O(2), xenobiotics and heavy metals was constructed for mutagenesis. A large-scale T-DNA mutagenesis has been conducted in the reporter background, and an efficient high-throughput mutant screen was established for isolating mutants with altered responses to the stress chemicals. A number of mutants with altered stress responses were obtained, some of which appear to identify new components in the as-1-based signal transduction pathways. We characterized a mutant (Delta8L4) with a T-DNA insertion in the coding sequence of the gene At4g24275. The as-1-regulated gene expression and GUS reporter gene expression were altered in the Delta8L4 mutant, but there was no change in the expression of genes lacking as-1 elements in their promoters. The phenotype observed with the Delta8L4 mutant was further verified using RNAi plants for At4g24275 (8L4-RNAi), suggesting the feasibility of use of this high-throughput mutant screening in isolating stress-signaling mutants. 相似文献
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Photomorphogenic mutants of tomato 总被引:3,自引:1,他引:3
R. E. KENDRICK L. H. J. KERCKHOFFS A. VAN TUINEN M. KOORNNEEF 《Plant, cell & environment》1997,20(6):746-751
Photomorphogenesis of tomato (Lycopersicon esculentum Mill.) is being studied with the aid of mutants which are modified either in their photoreceptor composition or in their signal transduction chain(s). Phytochrome chromophore mutants, presumably deficient in all phytochromes, and mutants specifically deficient in phytochrome A (phy A) or B1 (phyB1) have been used to study the roles played by phytochromes in photomorphogenesis. In addition, other mutants, including transgenic lines overproducing phyA, exhibit exaggerated photomorphogenesis. Studies using these mutants are reviewed, with emphasis being placed on anthocyanin biosynthesis and plastid development as model systems for the dissection of the complex interactions between photoreceptors and to elucidate the nature of photoreceptor transduction chains. Recently, new mutants have been isolated by screening in a phyA, phyB1-deficient background. The novel phenotypes selected are candidates for mutants in additional photoreceptors or their transduction chains. 相似文献
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Minor LK Westover L Kong Y Patel D Wildey MJ Conway BR Demarest KT 《Journal of biomolecular screening》2003,8(4):439-446
Stimulation of a cell with insulin initiates a signal transduction cascade that results in cellular activities that include phosphorylation of the receptor itself. Measurement of the degree of phosphorylation can serve as a marker for receptor activation. Receptor phosphorylation has been measured using Western blot analysis, which is very low throughput and not easily quantifiable. The goal of this project was to develop a cell-based assay to measure receptor phosphorylation in high throughput. This report describes a cell-based assay for insulin receptor phosphorylation that is robust and amenable to high-volume screening in a microwell format. 相似文献
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Enhancing Arabidopsis salt and drought stress tolerance by chemical priming for its abscisic acid responses 总被引:1,自引:0,他引:1
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Drought and salt stress tolerance of Arabidopsis (Arabidopsis thaliana) plants increased following treatment with the nonprotein amino acid beta-aminobutyric acid (BABA), known as an inducer of resistance against infection of plants by numerous pathogens. BABA-pretreated plants showed earlier and higher expression of the salicylic acid-dependent PR-1 and PR-5 and the abscisic acid (ABA)-dependent RAB-18 and RD-29A genes following salt and drought stress. However, non-expressor of pathogenesis-related genes 1 and constitutive expressor of pathogenesis-related genes 1 mutants as well as transgenic NahG plants, all affected in the salicylic acid signal transduction pathway, still showed increased salt and drought tolerance after BABA treatment. On the contrary, the ABA deficient 1 and ABA insensitive 4 mutants, both impaired in the ABA-signaling pathway, could not be protected by BABA application. Our data demonstrate that BABA-induced water stress tolerance is based on enhanced ABA accumulation resulting in accelerated stress gene expression and stomatal closure. Here, we show a possibility to increase plant tolerance for these abiotic stresses through effective priming of the preexisting defense pathways without resorting to genetic alterations. 相似文献
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The nodule inception-like protein 7 modulates nitrate sensing and metabolism in Arabidopsis 总被引:1,自引:0,他引:1
Castaings L Camargo A Pocholle D Gaudon V Texier Y Boutet-Mercey S Taconnat L Renou JP Daniel-Vedele F Fernandez E Meyer C Krapp A 《The Plant journal : for cell and molecular biology》2009,57(3):426-435
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Dicarboximides and phenylpyrroles are commonly used fungicides against plant pathogenic ascomycetes. Although their effect on fungal osmosensing systems has been shown in many studies, their modes-of-action still remain unclear. Laboratory- or field-mutants of fungi resistant to either or both fungicide categories generally harbour point mutations in the sensor histidine kinase of the osmotic signal transduction cascade.In the present study we compared the mechanisms of resistance to the dicarboximide iprodione and to pyrrolnitrin, a structural analogue of phenylpyrrole fungicides, in Botrytis cinerea. Pyrrolnitrin-induced mutants and iprodione-induced mutants of B. cinerea were produced in vitro. For the pyrrolnitrin-induced mutants, a high level of resistance to pyrrolnitrin was associated with a high level of resistance to iprodione. For the iprodione-induced mutants, the high level of resistance to iprodione generated variable levels of resistance to pyrrolnitrin and phenylpyrroles. All selected mutants showed hypersensitivity to high osmolarity and regardless of their resistance levels to phenylpyrroles, they showed strongly reduced fitness parameters (sporulation, mycelial growth, aggressiveness on plants) compared to the parental phenotypes. Most of the mutants presented modifications in the osmosensing class III histidine kinase affecting the HAMP domains. Site directed mutagenesis of the bos1 gene was applied to validate eight of the identified mutations. Structure modelling of the HAMP domains revealed that the replacements of hydrophobic residues within the HAMP domains generally affected their helical structure, probably abolishing signal transduction. Comparing mutant phenotypes to the HAMP structures, our study suggests that mutations perturbing helical structures of HAMP2-4 abolish signal-transduction leading to loss-of-function phenotype. The mutation of residues E529, M427, and T581, without consequences on HAMP structure, highlighted their involvement in signal transduction. E529 and M427 seem to be principally involved in osmotic signal transduction. 相似文献
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Sletta H Klinkenberg G Winnberg A Kvitvang HF Nilsen MB Krokan HE Otterlei M Bruheim P 《Journal of microbiological methods》2011,87(3):363-367
A high resolution high throughput screening method has been developed for stress response phenotyping of the global Saccharomyces cerevisiae knock out mutant collection. Stress causing agent is added at three concentrations to individual mutant cultures growing in early exponentially phase in 384-well microplates, and the dynamic effect of stress agent exposure is measured by following subsequent growth profiles of individual mutants with a resolution of three optical density measurements per hour. Software was written for calculation of sensitivity coefficients and efficient visual inspection of the growth and inhibition curves. Three DNA damage response causing agents were chosen to explore the feasibility of the new screening method: methyl methanesulphonate, 5-fluorouracil and cisplatin. They were tested in three biological replicas on a 1400 mutant large sub-library of the homozygote diploid S. cerevisiae gene knock out collection. The sub-library consisted of only mutants with a human ortholog to the inactivated gene. Almost 400 mutants were found more sensitive to one or more of the agents. Forty-nine mutants were sensitive to all three agents. One of the mutants, ERK5, sensitive to all three agents was chosen for follow-up human cell experiments to verify that such yeast screens can be used as hypothesis generator for human cell studies. Similar to yeast, HeLa cells became more sensitive against all three DNA damaging agents when co-treated with the ERK5 inhibitor BIX21088, thus supporting the result from the yeast phenotype screen. 相似文献
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《Journal of microbiological methods》2012,88(3):363-367
A high resolution high throughput screening method has been developed for stress response phenotyping of the global Saccharomyces cerevisiae knock out mutant collection. Stress causing agent is added at three concentrations to individual mutant cultures growing in early exponentially phase in 384-well microplates, and the dynamic effect of stress agent exposure is measured by following subsequent growth profiles of individual mutants with a resolution of three optical density measurements per hour. Software was written for calculation of sensitivity coefficients and efficient visual inspection of the growth and inhibition curves. Three DNA damage response causing agents were chosen to explore the feasibility of the new screening method: methyl methanesulphonate, 5-fluorouracil and cisplatin. They were tested in three biological replicas on a 1400 mutant large sub-library of the homozygote diploid S. cerevisiae gene knock out collection. The sub-library consisted of only mutants with a human ortholog to the inactivated gene. Almost 400 mutants were found more sensitive to one or more of the agents. Forty-nine mutants were sensitive to all three agents. One of the mutants, ERK5, sensitive to all three agents was chosen for follow-up human cell experiments to verify that such yeast screens can be used as hypothesis generator for human cell studies. Similar to yeast, HeLa cells became more sensitive against all three DNA damaging agents when co-treated with the ERK5 inhibitor BIX21088, thus supporting the result from the yeast phenotype screen. 相似文献
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Senthil-Kumar M Kumar G Srikanthbabu V Udayakumar M 《Journal of plant physiology》2007,164(2):111-125
High-temperature stress affects all growth stages of crops and ultimately yields. This is further aggravated by other environmental stresses like intermittent drought and high light. Management options are few and hence developing intrinsically tolerant plants is essential to combat the situation. As thermotolerance is a multigenic trait, emphasis needs to be on relevant approaches to assess genetic variability in basal and acquired tolerance. This is in fact the major aspect in crop improvement programmes. The relevance of temperature induction (acclimation) response (TIR), a high throughput approach to identify thermotolerant individuals and its utility as potential screening method is described here. This is based on the concept that stress-responsive genes are expressed only during initial stages of stress (acclimation stress) and bring about requisite changes in cell metabolism for adaptation. The fact that acclimation response is ubiquitous has been demonstrated in different crop plants in our studies and by others. Significance of acclimation in acquired tolerance and thus in assessing genetic variability in thermotolerance is discussed. The limitations of present approaches to validate the relevance of specific stress genes either in transgenics or in mutants or knock downs have been analyzed and the need to characterize transformants under conditions that trigger acquired tolerance is also highlighted. This review also focuses on the potential of exploiting acclimation response approach to improve the thermotolerance of crop plants by suitable breeding strategies. 相似文献
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《Seminars in Developmental Biology》1993,4(1):3-13
A variety of mutants altered in hormone biosynthesis and response pathways have been described. Genetic and molecular analyses of these mutants have contributed information on the control of plant developmental processes and on mechanisms of signal transduction. A sampling of hormone mutants and their role in elucidating modes of hormone action in higher plants is described. 相似文献
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A yeast STE11 homologue CoMEKK1 is essential for pathogenesis-related morphogenesis in Colletotrichum orbiculare 总被引:2,自引:0,他引:2
Several signal transduction pathways, including mitogen-activated protein kinase (MAPK) pathways, are involved in appressorium development in Colletotrichum orbiculare, the causal agent of cucumber anthracnose disease. In this study, CoMEKK1, a yeast MAPK kinases (MAPKK) kinase STE11 homolog, was identified as a disrupted gene in an Agrobacterium tumefaciens-mediated transformation mutant. The phenotype of comekk1 disruptant was similar to that of cmk1, a Saccharomyces cerevisiae Fus3/Kss1 MAPK homolog mutant. Moreover, comekk1 and cmk1 mutants were sensitive to high osmotic and salinity stresses, indicating that Comekk1p/Cmk1p signal transduction is involved in stress tolerance. The transformants of the wild type and the comekk1 mutant expressing a constitutively active form of the CoMEKK1 showed slower hyphal growth and abnormal appressorium formation, whereas those of the cmk1 disruptant did not. A Cmk1p-green fluorescent protein (GFP) intracellular localization experiment indicated that nuclear localization of the Cmk1p-GFP fusion protein induced by salt stress was diminished in comekk1 mutants. These results indicate that Comekk1p functions upstream of Cmk1p. 相似文献