| scholarly article | Q13442814 |
| P356 | DOI | 10.1111/TPJ.12538 |
| P698 | PubMed publication ID | 24773321 |
| P50 | author | Shao Jian Zheng | Q45737086 |
| P2093 | author name string | Xiao Yan Xu | |
| Jing Ying Yan | |||
| Gui Xin Li | |||
| Zhong Jie Ding | |||
| Shu Qun Zhang | |||
| Di Qiu Yu | |||
| P2860 | cites work | Salt and drought stress signal transduction in plants | Q24599872 |
| Molecular Mimicry Regulates ABA Signaling by SnRK2 Kinases and PP2C Phosphatases | Q27675794 | ||
| Analyzing real-time PCR data by the comparative C(T) method | Q28131831 | ||
| ASCORBATE AND GLUTATHIONE: Keeping Active Oxygen Under Control | Q28249509 | ||
| WRKY transcription factors | Q28277183 | ||
| Hydrogen peroxide is involved in abscisic acid-induced stomatal closure in Vicia faba | Q28345872 | ||
| Identification of the novel protein QQS as a component of the starch metabolic network in Arabidopsis leaves | Q29042413 | ||
| ABFs, a family of ABA-responsive element binding factors | Q30832989 | ||
| In vitro reconstitution of an abscisic acid signalling pathway | Q33576977 | ||
| The WRKY superfamily of plant transcription factors. | Q33901053 | ||
| GUARD CELL SIGNAL TRANSDUCTION. | Q34241579 | ||
| The interaction of plant biotic and abiotic stresses: from genes to the field | Q34265118 | ||
| PLANT THIOREDOXIN SYSTEMS REVISITED. | Q34546213 | ||
| bZIP transcription factors in Arabidopsis | Q34572869 | ||
| Phototropins 1 and 2: versatile plant blue-light receptors. | Q34626166 | ||
| Guard cell signal transduction network: advances in understanding abscisic acid, CO2, and Ca2+ signaling | Q34667667 | ||
| AtALMT1, which encodes a malate transporter, is identified as one of several genes critical for aluminum tolerance in Arabidopsis | Q34687209 | ||
| ABO3, a WRKY transcription factor, mediates plant responses to abscisic acid and drought tolerance in Arabidopsis | Q35053335 | ||
| Relay and control of abscisic acid signaling. | Q35217918 | ||
| Arabidopsis basic leucine zipper transcription factors involved in an abscisic acid-dependent signal transduction pathway under drought and high-salinity conditions. | Q35333054 | ||
| OsWRKY45 alleles play different roles in abscisic acid signalling and salt stress tolerance but similar roles in drought and cold tolerance in rice | Q35342802 | ||
| WRKY transcription factors: from DNA binding towards biological function | Q35874374 | ||
| Reactive oxygen gene network of plants. | Q35909671 | ||
| Guard cell metabolism and CO2 sensing. | Q36048774 | ||
| Peroxidases have more functions than a Swiss army knife. | Q36108740 | ||
| Transcriptional regulatory networks in cellular responses and tolerance to dehydration and cold stresses | Q36466575 | ||
| AtWRKY15 perturbation abolishes the mitochondrial stress response that steers osmotic stress tolerance in Arabidopsis | Q36471259 | ||
| Crosstalk between abiotic and biotic stress responses: a current view from the points of convergence in the stress signaling networks | Q36499476 | ||
| Light regulation of stomatal movement | Q36702122 | ||
| Arabidopsis mutant deficient in 3 abscisic acid-activated protein kinases reveals critical roles in growth, reproduction, and stress. | Q37208569 | ||
| Global switches and fine-tuning-ABA modulates plant pathogen defense | Q37215198 | ||
| Reactive oxygen species homeostasis and signalling during drought and salinity stresses | Q37588004 | ||
| Abscisic acid: emergence of a core signaling network | Q37700630 | ||
| ABA-mediated transcriptional regulation in response to osmotic stress in plants | Q37854517 | ||
| Role of DREBs in regulation of abiotic stress responses in plants | Q37898862 | ||
| Blue light activates the plasma membrane H(+)-ATPase by phosphorylation of the C-terminus in stomatal guard cells | Q38319434 | ||
| Arabidopsis AtMYC2 (bHLH) and AtMYB2 (MYB) function as transcriptional activators in abscisic acid signaling | Q38856598 | ||
| Antagonistic interaction between abscisic acid and jasmonate-ethylene signaling pathways modulates defense gene expression and disease resistance in Arabidopsis | Q38874619 | ||
| The nitrate transporter AtNRT1.1 (CHL1) functions in stomatal opening and contributes to drought susceptibility in Arabidopsis. | Q39036806 | ||
| Arabidopsis WRKY46 coordinates with WRKY70 and WRKY53 in basal resistance against pathogen Pseudomonas syringae | Q39082961 | ||
| THE MOLECULAR BASIS OF DEHYDRATION TOLERANCE IN PLANTS. | Q39094357 | ||
| Activated expression of WRKY57 confers drought tolerance in Arabidopsis | Q39106794 | ||
| Potato guard cells respond to drying soil by a complex change in the expression of genes related to carbon metabolism and turgor regulation | Q39145277 | ||
| Calcium channels activated by hydrogen peroxide mediate abscisic acid signalling in guard cells | Q39346722 | ||
| Enhanced tolerance to sulfur dioxide and salt stress of transgenic Chinese cabbage plants expressing both superoxide dismutase and catalase in chloroplasts | Q39535774 | ||
| Methods and concepts in quantifying resistance to drought, salt and freezing, abiotic stresses that affect plant water status | Q39558773 | ||
| Genome-wide identification and testing of superior reference genes for transcript normalization in Arabidopsis | Q40388663 | ||
| Guard cell starch concentration quantitatively related to stomatal aperture | Q42684665 | ||
| Light quality and osmoregulation in vicia guard cells : evidence for involvement of three metabolic pathways | Q42684726 | ||
| Genetics and phosphoproteomics reveal a protein phosphorylation network in the abscisic acid signaling pathway in Arabidopsis thaliana | Q43997052 | ||
| The ethylene response factor AtERF98 enhances tolerance to salt through the transcriptional activation of ascorbic acid synthesis in Arabidopsis | Q44342333 | ||
| WRKY46 functions as a transcriptional repressor of ALMT1, regulating aluminum-induced malate secretion in Arabidopsis. | Q45933794 | ||
| Differential abscisic acid regulation of guard cell slow anion channels in Arabidopsis wild-type and abi1 and abi2 mutants | Q46976633 | ||
| Characterization of AtALMT1 expression in aluminum-inducible malate release and its role for rhizotoxic stress tolerance in Arabidopsis. | Q46989224 | ||
| The Arabidopsis cytosolic thioredoxin h5 gene induction by oxidative stress and its W-box-mediated response to pathogen elicitor | Q47193929 | ||
| The MKK2 pathway mediates cold and salt stress signaling in Arabidopsis | Q47268759 | ||
| ABSCISIC ACID SIGNAL TRANSDUCTION. | Q47974202 | ||
| Two rice cytosolic ascorbate peroxidases differentially improve salt tolerance in transgenic Arabidopsis | Q48078791 | ||
| Inositol polyphosphate 5-phosphatase7 regulates the production of reactive oxygen species and salt tolerance in Arabidopsis. | Q50518557 | ||
| P433 | issue | 1 | |
| P304 | page(s) | 13-27 | |
| P577 | publication date | 2014-06-05 | |
| P1433 | published in | The Plant Journal | Q15766987 |
| P1476 | title | Transcription factor WRKY46 regulates osmotic stress responses and stomatal movement independently in Arabidopsis | |
| P478 | volume | 79 |
| Q41503901 | A Genome-Wide Identification of the WRKY Family Genes and a Survey of Potential WRKY Target Genes in Dendrobium officinale |
| Q48226961 | A WRKY Transcription Factor Regulates Fe Translocation under Fe Deficiency. |
| Q89783419 | A Wheat WRKY Transcription Factor TaWRKY46 Enhances Tolerance to Osmotic Stress in transgenic Arabidopsis Plants |
| Q60913162 | A cytosolic NAD-dependent GPDH from maize (ZmGPDH1) is involved in conferring salt and osmotic stress tolerance |
| Q35606610 | ABA inducible rice protein phosphatase 2C confers ABA insensitivity and abiotic stress tolerance in Arabidopsis |
| Q43900026 | ABA-Induced Stomatal Closure Involves ALMT4, a Phosphorylation-Dependent Vacuolar Anion Channel of Arabidopsis. |
| Q39498777 | Activated expression of AtWRKY53 negatively regulates drought tolerance by mediating stomatal movement |
| Q89091534 | Arabidopsis Duodecuple Mutant of PYL ABA Receptors Reveals PYL Repression of ABA-Independent SnRK2 Activity |
| Q38941670 | Arabidopsis WRKY46, WRKY54, and WRKY70 Transcription Factors Are Involved in Brassinosteroid-Regulated Plant Growth and Drought Responses |
| Q36634813 | CaCDPK15 positively regulates pepper responses to Ralstonia solanacearum inoculation and forms a positive-feedback loop with CaWRKY40 to amplify defense signaling |
| Q38656451 | Characterization and expression analysis of the WRKY gene family in moso bamboo |
| Q93054087 | Characterization of backcross introgression lines derived from Oryza nivara accessions for photosynthesis and yield |
| Q41439094 | Comparative studies on tolerance of rice genotypes differing in their tolerance to moderate salt stress |
| Q39308097 | Cross-talk of Brassinosteroid signaling in controlling growth and stress responses. |
| Q92150542 | Dissecting Adaptation Mechanisms to Contrasting Solar Irradiance in the Mediterranean Shrub Cistus incanus |
| Q36027179 | Drought-responsive WRKY transcription factor genes TaWRKY1 and TaWRKY33 from wheat confer drought and/or heat resistance in Arabidopsis |
| Q43179040 | Dynamic subnuclear relocalisation of WRKY40 in response to Abscisic acid in Arabidopsis thaliana |
| Q61812370 | Enhances Drought and Salt Tolerance Through an ABA-Mediated Pathway in |
| Q39027602 | FcWRKY70, a WRKY protein of Fortunella crassifolia, functions in drought tolerance and modulates putrescine synthesis by regulating arginine decarboxylase gene |
| Q37152446 | Functional analysis of structurally related soybean GmWRKY58 and GmWRKY76 in plant growth and development. |
| Q102388884 | Functional characterisation of the transcriptome from leaf tissue of the fluoroacetate-producing plant, Dichapetalum cymosum, in response to mechanical wounding |
| Q36837389 | Genome-Wide Identification and Characterization of WRKY Gene Family in Peanut |
| Q36547833 | Genome-Wide Identification and Expression Analysis of the WRKY Gene Family in Cassava |
| Q37716799 | Genome-Wide Investigation of WRKY Transcription Factors Involved in Terminal Drought Stress Response in Common Bean |
| Q35878487 | Genome-wide analysis of WRKY transcription factors in white pear (Pyrus bretschneideri) reveals evolution and patterns under drought stress |
| Q38823749 | Genome-wide association studies to identify rice salt-tolerance markers |
| Q58723204 | Hydrogen Peroxide: Its Role in Plant Biology and Crosstalk with Signalling Networks |
| Q59793450 | Identification and characterization of drought-responsive CC-type glutaredoxins from cassava cultivars reveals their involvement in ABA signalling |
| Q48235090 | Identification and expression analyses of WRKY genes reveal their involvement in growth and abiotic stress response in watermelon (Citrullus lanatus). |
| Q91763127 | Identification and expression analysis of WRKY gene family under drought stress in peanut (Arachis hypogaea L.). |
| Q49264811 | Identification of the WRKY gene family and functional analysis of two genes in Caragana intermedia. |
| Q48315668 | Ion Transport at the Vacuole during Stomatal Movements |
| Q38618021 | Large-scale Proteomics Combined with Transgenic Experiments Demonstrates An Important Role of Jasmonic Acid in Potassium Deficiency Response in Wheat and Rice. |
| Q38953481 | Multifaceted role of cycling DOF factor 3 (CDF3) in the regulation of flowering time and abiotic stress responses in Arabidopsis. |
| Q36101479 | Overexpression of GhWRKY27a reduces tolerance to drought stress and resistance to Rhizoctonia solani infection in transgenic Nicotiana benthamiana |
| Q36052681 | Overexpression of OsSAP16 Regulates Photosynthesis and the Expression of a Broad Range of Stress Response Genes in Rice (Oryza sativa L.). |
| Q47155937 | Overexpression of TaWRKY146 Increases Drought Tolerance through Inducing Stomatal Closure in Arabidopsis thaliana |
| Q88801625 | Overexpression of VaWRKY14 increases drought tolerance in Arabidopsis by modulating the expression of stress-related genes |
| Q39176359 | PacCYP707A2 negatively regulates cherry fruit ripening while PacCYP707A1 mediates drought tolerance |
| Q60934939 | Patterns of Drought Response of 38 WRKY Transcription Factors of Maxim |
| Q37519000 | Putative WRKYs associated with regulation of fruit ripening revealed by detailed expression analysis of the WRKY gene family in pepper |
| Q30315570 | Regulation of WRKY46 Transcription Factor Function by Mitogen-Activated Protein Kinases in Arabidopsis thaliana |
| Q28076463 | Rethinking Guard Cell Metabolism |
| Q36057389 | SUMO proteases ULP1c and ULP1d are required for development and osmotic stress responses in Arabidopsis thaliana. |
| Q39066852 | The Solanum lycopersicum WRKY3 Transcription Factor SlWRKY3 Is Involved in Salt Stress Tolerance in Tomato. |
| Q61444210 | The cotton WRKY transcription factor (GhWRKY33) reduces transgenic Arabidopsis resistance to drought stress |
| Q39379073 | The sunflower transcription factor HaWRKY76 confers drought and flood tolerance to Arabidopsis thaliana plants without yield penalty |
| Q51485575 | Transcription factor WRKY46 modulates the development of Arabidopsis lateral roots in osmotic/salt stress conditions via regulation of ABA signaling and auxin homeostasis. |
| Q64059664 | Transcriptional and Metabolomic Analyses Indicate that Cell Wall Properties are Associated with Drought Tolerance in |
| Q35890530 | Transcriptome Analysis of Salt Stress Responsiveness in the Seedlings of Dongxiang Wild Rice (Oryza rufipogon Griff.). |
| Q38675309 | Transcriptome analysis uncovers Arabidopsis F-BOX STRESS INDUCED 1 as a regulator of jasmonic acid and abscisic acid stress gene expression. |
| Q55654440 | WRKY proteins: signaling and regulation of expression during abiotic stress responses. |
| Q50063402 | WRKY transcription factors are involved in brassinosteroid signaling and mediate the crosstalk between plant growth and drought tolerance |
| Q39044312 | WRKY transcription factors in plant responses to stresses |
| Q46272924 | WRKY43 regulates polyunsaturated fatty acid content and seed germination under unfavourable growth conditions. |
| Q61813477 | WRKYs, the Jack-of-various-Trades, Modulate Dehydration Stress in Populus davidiana-A Transcriptomic Approach |
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