| scholarly article | Q13442814 |
| P356 | DOI | 10.1007/S11103-013-0063-Y |
| P2888 | exact match | https://scigraph.springernature.com/pub.10.1007/s11103-013-0063-y |
| P698 | PubMed publication ID | 23615900 |
| P50 | author | Yucheng Wang | Q104471962 |
| P2093 | author name string | Lei Zheng | |
| Yujia Liu | |||
| Guifeng Liu | |||
| Xianguang Nie | |||
| Xiaoyu Ji | |||
| Yanbang Li | |||
| Xiangnan Meng | |||
| P2860 | cites work | GUS fusions: beta-glucuronidase as a sensitive and versatile gene fusion marker in higher plants | Q24555861 |
| Analysis of Relative Gene Expression Data Using Real-Time Quantitative PCR and the 2−ΔΔCT Method | Q25938999 | ||
| The neighbor-joining method: a new method for reconstructing phylogenetic trees | Q25939010 | ||
| Grapevine aquaporins: gating of a tonoplast intrinsic protein (TIP2;1) by cytosolic pH | Q28481455 | ||
| Maize ABP9 enhances tolerance to multiple stresses in transgenic Arabidopsis by modulating ABA signaling and cellular levels of reactive oxygen species | Q30498236 | ||
| Characterization of a eukaryotic translation initiation factor 5A homolog from Tamarix androssowii involved in plant abiotic stress tolerance | Q31077285 | ||
| Arabidopsis WRKY2 transcription factor mediates seed germination and postgermination arrest of development by abscisic acid | Q33485017 | ||
| Expression of pigeonpea hybrid-proline-rich protein encoding gene (CcHyPRP) in yeast and Arabidopsis affords multiple abiotic stress tolerance | Q33522469 | ||
| Roles of arabidopsis WRKY18, WRKY40 and WRKY60 transcription factors in plant responses to abscisic acid and abiotic stress | Q33774711 | ||
| The WRKY superfamily of plant transcription factors. | Q33901053 | ||
| WRKY transcription factors involved in activation of SA biosynthesis genes | Q33905880 | ||
| Genome-wide analysis of WRKY gene family in Cucumis sativus | Q34034250 | ||
| GhWRKY15, a member of the WRKY transcription factor family identified from cotton (Gossypium hirsutum L.), is involved in disease resistance and plant development | Q34375705 | ||
| Imaging of photo-oxidative stress responses in leaves | Q34629057 | ||
| Molecular phylogenetic and expression analysis of the complete WRKY transcription factor family in maize | Q35885448 | ||
| Reactive oxygen species homeostasis and signalling during drought and salinity stresses | Q37588004 | ||
| WRKY transcription factors: key components in abscisic acid signalling. | Q37893218 | ||
| A novel WRKY transcription factor, SUSIBA2, participates in sugar signaling in barley by binding to the sugar-responsive elements of the iso1 promoter | Q38350841 | ||
| Arabidopsis thaliana WRKY25, WRKY26, and WRKY33 coordinate induction of plant thermotolerance | Q39176715 | ||
| Wheat WRKY genes TaWRKY2 and TaWRKY19 regulate abiotic stress tolerance in transgenic Arabidopsis plants | Q39306012 | ||
| Induced plant defenses in the natural environment: Nicotiana attenuata WRKY3 and WRKY6 coordinate responses to herbivory. | Q39469671 | ||
| A tomato bZIP transcription factor, SlAREB, is involved in water deficit and salt stress response | Q43112544 | ||
| A nuclear gene encoding the iron-sulfur subunit of mitochondrial complex II is regulated by B3 domain transcription factors during seed development in Arabidopsis. | Q43839713 | ||
| A conserved cysteine residue is involved in disulfide bond formation between plant plasma membrane aquaporin monomers | Q44220326 | ||
| A rice WRKY gene encodes a transcriptional repressor of the gibberellin signaling pathway in aleurone cells | Q47869954 | ||
| Characterization of a WRKY transcription factor expressed in late torpedo-stage embryos of Solanum chacoense | Q47877281 | ||
| P433 | issue | 4-5 | |
| P921 | main subject | reactive oxygen species | Q424361 |
| Tamarix hispida | Q3335372 | ||
| P1104 | number of pages | 18 | |
| P304 | page(s) | 303-320 | |
| P577 | publication date | 2013-04-25 | |
| P1433 | published in | Plant Molecular Biology | Q15761850 |
| P1476 | title | A WRKY gene from Tamarix hispida, ThWRKY4, mediates abiotic stress responses by modulating reactive oxygen species and expression of stress-responsive genes | |
| P478 | volume | 82 |
| Q41503901 | A Genome-Wide Identification of the WRKY Family Genes and a Survey of Potential WRKY Target Genes in Dendrobium officinale |
| Q52817094 | A Novel WRKY Transcription Factor, MuWRKY3 (Macrotyloma uniflorum Lam. Verdc.) Enhances Drought Stress Tolerance in Transgenic Groundnut (Arachis hypogaea L.) Plants. |
| Q91885705 | A WRKY transcription factor PbrWRKY53 from Pyrus betulaefolia is involved in drought tolerance and AsA accumulation |
| Q90699418 | ARF family identification in Tamarix chinensis reveals the salt responsive expression of TcARF6 targeted by miR167 |
| Q47850489 | Both JrWRKY2 and JrWRKY7 of Juglans regia mediate responses to abiotic stresses and abscisic acid through formation of homodimers and interaction |
| Q34079894 | Comparative transcriptome analysis of leaves and roots in response to sudden increase in salinity in Brassica napus by RNA-seq |
| Q99563577 | Corn distillers' dried grains with soluble alter dietary digestibility and improve intestine health of pacu, Piaractus mesopotamicus juveniles |
| Q34282324 | De novo transcriptome and small RNA analysis of two Chinese willow cultivars reveals stress response genes in Salix matsudana |
| Q60916693 | Engineering Drought Resistance in Forest Trees |
| Q28629573 | Expression of TaWRKY44, a wheat WRKY gene, in transgenic tobacco confers multiple abiotic stress tolerances |
| Q39027602 | FcWRKY70, a WRKY protein of Fortunella crassifolia, functions in drought tolerance and modulates putrescine synthesis by regulating arginine decarboxylase gene |
| Q36547833 | Genome-Wide Identification and Expression Analysis of the WRKY Gene Family in Cassava |
| Q35582530 | GhWRKY68 reduces resistance to salt and drought in transgenic Nicotiana benthamiana |
| Q39175702 | Overexpression of SpWRKY1 promotes resistance to Phytophthora nicotianae and tolerance to salt and drought stress in transgenic tobacco |
| Q36442621 | Overexpression of ThVHAc1 and its potential upstream regulator, ThWRKY7, improved plant tolerance of Cadmium stress |
| Q54096866 | Overexpression of the alfalfa WRKY11 gene enhances salt tolerance in soybean. |
| Q99415060 | Overexpression of transcription factor SlWRKY28 improved the tolerance of Populus davidiana × P. bolleana to alkaline salt stress |
| Q51075266 | Populus simonii × Populus nigra WRKY70 is involved in salt stress and leaf blight disease responses. |
| Q35817973 | Prioritizing plant defence over growth through WRKY regulation facilitates infestation by non-target herbivores |
| Q92786423 | Roles of the SPL gene family and miR156 in the salt stress responses of tamarisk (Tamarix chinensis) |
| Q36324650 | ThWRKY4 from Tamarix hispida Can Form Homodimers and Heterodimers and Is Involved in Abiotic Stress Responses |
| Q39066852 | The Solanum lycopersicum WRKY3 Transcription Factor SlWRKY3 Is Involved in Salt Stress Tolerance in Tomato. |
| Q37050421 | The Transcription Factor OsWRKY45 Negatively Modulates the Resistance of Rice to the Brown Planthopper Nilaparvata lugens. |
| Q37740676 | The Translation Initiation Factor 1A (TheIF1A) from Tamarix hispida Is Regulated by a Dof Transcription Factor and Increased Abiotic Stress Tolerance |
| Q49168307 | The walnut JrVHAG1 gene is involved in cadmium stress response through ABA-signal pathway and MYB transcription regulation. |
| Q26864761 | Tolerance to drought and salt stress in plants: Unraveling the signaling networks |
| Q37267078 | Transcriptomic comparison between Brassica oleracea and rice (Oryza sativa) reveals diverse modulations on cell death in response to Sclerotinia sclerotiorum |
| Q92636036 | Water Deficit Transcriptomic Responses Differ in the Invasive Tamarix chinensis and T. ramosissima Established in the Southern and Northern United States |
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