review article | Q7318358 |
scholarly article | Q13442814 |
P50 | author | Rohit Joshi | Q56191705 |
Ashwani Pareek | Q58051695 | ||
Balwant Singh | Q61158748 | ||
Ajaz A Lone | Q88020748 | ||
Sneh L Singla-Pareek | Q129262378 | ||
P2093 | author name string | Abhishek Bohra | |
Shabir H Wani | |||
Zahoor A Dar | |||
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Transcriptional activation of OsDERF1 in OsERF3 and OsAP2-39 negatively modulates ethylene synthesis and drought tolerance in rice | Q28477223 | ||
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Four Arabidopsis AREB/ABF transcription factors function predominantly in gene expression downstream of SnRK2 kinases in abscisic acid signalling in response to osmotic stress | Q30389727 | ||
The transcriptional regulatory network in the drought response and its crosstalk in abiotic stress responses including drought, cold, and heat | Q30391565 | ||
Introduction of the rd29A:AtDREB2A CA gene into soybean (Glycine max L. Merril) and its molecular characterization in leaves and roots during dehydration. | Q30392579 | ||
Identification of cis-acting promoter elements in cold- and dehydration-induced transcriptional pathways in Arabidopsis, rice, and soybean | Q30395574 | ||
Structure, function and networks of transcription factors involved in abiotic stress responses | Q30428170 | ||
The FIGS (focused identification of germplasm strategy) approach identifies traits related to drought adaptation in Vicia faba genetic resources | Q30625163 | ||
Overexpression of sheepgrass R1-MYB transcription factor LcMYB1 confers salt tolerance in transgenic Arabidopsis | Q38943027 | ||
Induced over-expression of the transcription factor OsDREB2A improves drought tolerance in rice | Q38957542 | ||
Overexpression of Arabidopsis and rice stress genes' inducible transcription factor confers drought and salinity tolerance to rice | Q38962805 | ||
Phenotyping soybean plants transformed with rd29A:AtDREB1A for drought tolerance in the greenhouse and field | Q38966688 | ||
OsDREB genes in rice, Oryza sativa L., encode transcription activators that function in drought-, high-salt- and cold-responsive gene expression. | Q38978927 | ||
The soybean GmbZIP1 transcription factor enhances multiple abiotic stress tolerances in transgenic plants | Q39016843 | ||
Soybean NAC transcription factors promote abiotic stress tolerance and lateral root formation in transgenic plants | Q39045449 | ||
Whole-genome mapping of agronomic and metabolic traits to identify novel quantitative trait Loci in bread wheat grown in a water-limited environment | Q39067648 | ||
Functional analysis of rice DREB1/CBF-type transcription factors involved in cold-responsive gene expression in transgenic rice | Q39096837 | ||
OsTZF1, a CCCH-tandem zinc finger protein, confers delayed senescence and stress tolerance in rice by regulating stress-related genes | Q39100567 | ||
OsNAC5 overexpression enlarges root diameter in rice plants leading to enhanced drought tolerance and increased grain yield in the field | Q39104907 | ||
OsAREB1, an ABRE-binding protein responding to ABA and glucose, has multiple functions in Arabidopsis | Q39107515 | ||
A transcriptional repressor of the ERF family confers drought tolerance to rice and regulates genes preferentially located on chromosome 11. | Q39111082 | ||
Arabidopsis basic leucine zipper proteins that mediate stress-responsive abscisic acid signaling | Q39119343 | ||
Soybean DREB1/CBF-type transcription factors function in heat and drought as well as cold stress-responsive gene expression | Q39135372 | ||
An ABRE promoter sequence is involved in osmotic stress-responsive expression of the DREB2A gene, which encodes a transcription factor regulating drought-inducible genes in Arabidopsis | Q39136912 | ||
Development of abiotic stress tolerance via bZIP-type transcription factor LIP19 in common wheat | Q39142457 | ||
Genome-wide survey and expression analysis of the plant-specific NAC transcription factor family in soybean during development and dehydration stress | Q39164224 | ||
Soybean GmbZIP44, GmbZIP62 and GmbZIP78 genes function as negative regulator of ABA signaling and confer salt and freezing tolerance in transgenic Arabidopsis | Q39178702 | ||
Overexpression of rice NAC gene SNAC1 improves drought and salt tolerance by enhancing root development and reducing transpiration rate in transgenic cotton | Q39183380 | ||
Expression of a wheat MYB gene in transgenic tobacco enhances resistance to Ralstonia solanacearum, and to drought and salt stresses | Q39183566 | ||
Isolation and functional characterization of DgZFP: a gene encoding a Cys2/His2-type zinc finger protein in chrysanthemum | Q39184421 | ||
The drought response displayed by a DRE-binding protein from Triticum dicoccoides | Q39192742 | ||
Comprehensive analysis of rice DREB2-type genes that encode transcription factors involved in the expression of abiotic stress-responsive genes | Q39225521 | ||
Contribution of the drought tolerance-related stress-responsive NAC1 transcription factor to resistance of barley to Ramularia leaf spot. | Q39234181 | ||
ABFs, a family of ABA-responsive element binding factors | Q30832989 | ||
Genetics- and genomics-based interventions for nutritional enhancement of grain legume crops: status and outlook. | Q30884578 | ||
Root-specific expression of OsNAC10 improves drought tolerance and grain yield in rice under field drought conditions | Q33348812 | ||
PEG-mediated osmotic stress induces premature differentiation of the root apical meristem and outgrowth of lateral roots in wheat | Q33358626 | ||
Gene structures, classification and expression models of the AP2/EREBP transcription factor family in rice | Q33775237 | ||
Comparative functional genomics of salt stress in related model and cultivated plants identifies and overcomes limitations to translational genomics | Q33828388 | ||
Agricultural biotechnology for crop improvement in a variable climate: hope or hype? | Q33874836 | ||
Dlf1, a WRKY transcription factor, is involved in the control of flowering time and plant height in rice | Q33921356 | ||
TaNAC2, a NAC-type wheat transcription factor conferring enhanced multiple abiotic stress tolerances in Arabidopsis | Q34157964 | ||
The interaction of plant biotic and abiotic stresses: from genes to the field | Q34265118 | ||
PlantTFDB 3.0: a portal for the functional and evolutionary study of plant transcription factors. | Q34381452 | ||
Genome-wide investigation and expression profiling of AP2/ERF transcription factor superfamily in foxtail millet (Setaria italica L.). | Q34542299 | ||
Overexpressing a NAM, ATAF, and CUC (NAC) transcription factor enhances drought resistance and salt tolerance in rice | Q34559402 | ||
bZIP transcription factors in Arabidopsis | Q34572869 | ||
Circadian clock-associated 1 and late elongated hypocotyl regulate expression of the C-repeat binding factor (CBF) pathway in Arabidopsis. | Q34880631 | ||
Genome-wide analysis of the AP2/ERF transcription factor superfamily in Chinese cabbage (Brassica rapa ssp. pekinensis). | Q34968188 | ||
Roles of NAC transcription factors in the regulation of biotic and abiotic stress responses in plants | Q34994136 | ||
Stabilization of Arabidopsis DREB2A is required but not sufficient for the induction of target genes under conditions of stress | Q35077487 | ||
Genome-wide analysis and expression profile of the bZIP transcription factor gene family in grapevine (Vitis vinifera). | Q35146019 | ||
Responses of reactive oxygen scavenging enzymes, proline and malondialdehyde to water deficits among six secondary successional seral species in Loess Plateau | Q35184735 | ||
Genome-wide evolutionary characterization and analysis of bZIP transcription factors and their expression profiles in response to multiple abiotic stresses in Brachypodium distachyon | Q35368559 | ||
Genome-Wide Analysis of the AP2/ERF Transcription Factors Family and the Expression Patterns of DREB Genes in Moso Bamboo (Phyllostachys edulis) | Q35620031 | ||
Introgression of the SbASR-1 gene cloned from a halophyte Salicornia brachiate enhances salinity and drought endurance in transgenic groundnut (arachis hypogaea)and acts as a transcription factor [corrected]. | Q35687046 | ||
Genome-wide analysis of the basic leucine zipper (bZIP) transcription factor gene family in six legume genomes | Q35864605 | ||
Transcriptional profiling of the leaves of near-isogenic rice lines with contrasting drought tolerance at the reproductive stage in response to water deficit | Q35881249 | ||
AP2/ERF Transcription Factor in Rice: Genome-Wide Canvas and Syntenic Relationships between Monocots and Eudicots | Q36094498 | ||
The SsDREB Transcription Factor from the Succulent Halophyte Suaeda salsa Enhances Abiotic Stress Tolerance in Transgenic Tobacco | Q36173197 | ||
NAC transcription factors in plant multiple abiotic stress responses: progress and prospects | Q36221342 | ||
Genome-wide analysis of bZIP-encoding genes in maize | Q36446829 | ||
Overexpression of a Stress-Responsive NAC Transcription Factor Gene ONAC022 Improves Drought and Salt Tolerance in Rice | Q36488457 | ||
Wheat Transcription Factor TaAREB3 Participates in Drought and Freezing Tolerances in Arabidopsis | Q36534075 | ||
Biotechnological approaches to study plant responses to stress | Q36665095 | ||
Association of SNP Haplotypes of HKT Family Genes with Salt Tolerance in Indian Wild Rice Germplasm | Q36739874 | ||
Genome-wide expansion and expression divergence of the basic leucine zipper transcription factors in higher plants with an emphasis on sorghum. | Q51892006 | ||
Genome-wide analysis of the AP2/ERF gene family in Populus trichocarpa. | Q51958581 | ||
The Stomatal Response to Reduced Relative Humidity Requires Guard Cell-Autonomous ABA Synthesis | Q56027345 | ||
A Review of Drought in the Middle East and Southwest Asia | Q56575161 | ||
Size and variability of crop productivity both impacted by CO2 enrichment and warming—A case study of 4 year field experiment in a Chinese paddy | Q57028094 | ||
Climate change and Mediterranean agriculture: Impacts on winter wheat and tomato crop evapotranspiration, irrigation requirements and yield | Q58223142 | ||
Does a terminal drought tolerance QTL contribute to differences in ROS scavenging enzymes and photosynthetic pigments in pearl millet exposed to drought? | Q60679497 | ||
Transcription factor families inferred from genome sequences of photosynthetic stramenopiles | Q62084124 | ||
Intertissue signal transfer of abscisic acid from vascular cells to guard cells | Q63640784 | ||
Metabolic profiling of transgenic potato tubers expressing Arabidopsis dehydration response element-binding protein 1A (DREB1A) | Q85835906 | ||
Group A PP2Cs evolved in land plants as key regulators of intrinsic desiccation tolerance | Q37064885 | ||
Overexpression of the soybean GmERF3 gene, an AP2/ERF type transcription factor for increased tolerances to salt, drought, and diseases in transgenic tobacco | Q37330875 | ||
Genome-wide analysis of soybean HD-Zip gene family and expression profiling under salinity and drought treatments | Q37548535 | ||
DNA-binding specificities of plant transcription factors and their potential to define target genes | Q37587737 | ||
Genetic engineering for modern agriculture: challenges and perspectives | Q37700610 | ||
Research on plant abiotic stress responses in the post-genome era: past, present and future | Q37735378 | ||
ABA-mediated transcriptional regulation in response to osmotic stress in plants | Q37854517 | ||
Plant tolerance to drought and salinity: stress regulating transcription factors and their functional significance in the cellular transcriptional network | Q37863055 | ||
Signal transduction during cold, salt, and drought stresses in plants | Q37875769 | ||
Functions and application of the AP2/ERF transcription factor family in crop improvement | Q37890046 | ||
Achievements and challenges in understanding plant abiotic stress responses and tolerance | Q37914488 | ||
AP2/ERF family transcription factors in plant abiotic stress responses | Q37922256 | ||
The role of WRKY transcription factors in plant abiotic stresses | Q37941431 | ||
NAC proteins: regulation and role in stress tolerance. | Q37996659 | ||
Pivotal role of the AREB/ABF-SnRK2 pathway in ABRE-mediated transcription in response to osmotic stress in plants. | Q38004068 | ||
Structure and function of abscisic acid receptors. | Q38069687 | ||
ABA signaling in stress-response and seed development | Q38093771 | ||
Flooding tolerance: O2 sensing and survival strategies. | Q38119737 | ||
The role of ABA and MAPK signaling pathways in plant abiotic stress responses | Q38148928 | ||
Toward understanding transcriptional regulatory networks in abiotic stress responses and tolerance in rice | Q38207005 | ||
bZIPs and WRKYs: two large transcription factor families executing two different functional strategies | Q38211021 | ||
Comparative functional analysis of six drought-responsive promoters in transgenic rice | Q38312379 | ||
AREB1 is a transcription activator of novel ABRE-dependent ABA signaling that enhances drought stress tolerance in Arabidopsis | Q38318891 | ||
GmDREB2A;2, a canonical DEHYDRATION-RESPONSIVE ELEMENT-BINDING PROTEIN2-type transcription factor in soybean, is posttranslationally regulated and mediates dehydration-responsive element-dependent gene expression | Q38320006 | ||
The abiotic stress-responsive NAC-type transcription factor OsNAC5 regulates stress-inducible genes and stress tolerance in rice | Q38342491 | ||
HvDRF1 is involved in abscisic acid-mediated gene regulation in barley and produces two forms of AP2 transcriptional activators, interacting preferably with a CT-rich element | Q38345807 | ||
Can diversity in root architecture explain plant water use efficiency? A modeling study | Q38386463 | ||
Genetic control of flowering time in legumes | Q38443560 | ||
Transcriptome analysis reveals salt-stress-regulated biological processes and key pathways in roots of cotton (Gossypium hirsutum L.). | Q38502328 | ||
Comparative analysis of drought-responsive transcriptome in Indica rice genotypes with contrasting drought tolerance | Q38505229 | ||
In silico analysis of transcription factor repertoire and prediction of stress responsive transcription factors in soybean | Q38508471 | ||
Overexpression of HARDY, an AP2/ERF gene from Arabidopsis, improves drought and salt tolerance by reducing transpiration and sodium uptake in transgenic Trifolium alexandrinum L. | Q38857366 | ||
DREB1A overexpression in transgenic chickpea alters key traits influencing plant water budget across water regimes. | Q38874240 | ||
Overexpression of EaDREB2 and pyramiding of EaDREB2 with the pea DNA helicase gene (PDH45) enhance drought and salinity tolerance in sugarcane (Saccharum spp. hybrid). | Q38883873 | ||
Characterization of the stress-inducible OsNCED3 promoter in different transgenic rice organs and over three homozygous generations | Q38891227 | ||
VrDREB2A, a DREB-binding transcription factor from Vigna radiata, increased drought and high-salt tolerance in transgenic Arabidopsis thaliana | Q38941527 | ||
Over-expression of OsDREB genes lead to enhanced drought tolerance in rice | Q38941805 | ||
Improvement of stress tolerance of wheat and barley by modulation of expression of DREB/CBF factors | Q39270310 | ||
Functional analysis of a NAC-type transcription factor OsNAC6 involved in abiotic and biotic stress-responsive gene expression in rice | Q39292410 | ||
Arabidopsis CBF3/DREB1A and ABF3 in transgenic rice increased tolerance to abiotic stress without stunting growth | Q39318358 | ||
Biotechnology of water and salinity stress tolerance. | Q39338116 | ||
Dissecting root proteome of transgenic rice cultivars unravels metabolic alterations and accumulation of novel stress responsive proteins under drought stress | Q39343681 | ||
Basic leucine zipper family in barley: genome-wide characterization of members and expression analysis | Q39365815 | ||
Over-expression of TaMYB33 encoding a novel wheat MYB transcription factor increases salt and drought tolerance in Arabidopsis | Q39373836 | ||
Comparative Physiological and Transcriptional Analyses of Two Contrasting Drought Tolerant Alfalfa Varieties. | Q39374334 | ||
The overexpression of OsNAC9 alters the root architecture of rice plants enhancing drought resistance and grain yield under field conditions. | Q39389004 | ||
The Arabidopsis thaliana MYB60 promoter provides a tool for the spatio-temporal control of gene expression in stomatal guard cells | Q39414439 | ||
The TaDREB3 transgene transferred by conventional crossings to different genetic backgrounds of bread wheat improves drought tolerance | Q39453619 | ||
Natural allelic diversity in OsDREB1F gene in the Indian wild rice germplasm led to ascertain its association with drought tolerance | Q39466517 | ||
Physiological mechanisms underlying OsNAC5-dependent tolerance of rice plants to abiotic stress | Q39478646 | ||
Over-represented promoter motifs in abiotic stress-induced DREB genes of rice and sorghum and their probable role in regulation of gene expression | Q39484824 | ||
Molecular characterization of novel TaNAC genes in wheat and overexpression of TaNAC2a confers drought tolerance in tobacco | Q39509916 | ||
SodERF3, a novel sugarcane ethylene responsive factor (ERF), enhances salt and drought tolerance when overexpressed in tobacco plants | Q39534906 | ||
Overexpression of a rice OsDREB1F gene increases salt, drought, and low temperature tolerance in both Arabidopsis and rice | Q39575457 | ||
Characterization of OsbZIP23 as a key player of the basic leucine zipper transcription factor family for conferring abscisic acid sensitivity and salinity and drought tolerance in rice | Q39607215 | ||
Zinc finger protein 1 (ThZF1) from salt cress (Thellungiella halophila) is a Cys-2/His-2-type transcription factor involved in drought and salt stress | Q39608941 | ||
Overexpression of TaNAC69 leads to enhanced transcript levels of stress up-regulated genes and dehydration tolerance in bread wheat | Q39609411 | ||
Dwarf apple MbDREB1 enhances plant tolerance to low temperature, drought, and salt stress via both ABA-dependent and ABA-independent pathways. | Q39613495 | ||
AREB1, AREB2, and ABF3 are master transcription factors that cooperatively regulate ABRE-dependent ABA signaling involved in drought stress tolerance and require ABA for full activation | Q39617318 | ||
A STRESS-RESPONSIVE NAC1-regulated protein phosphatase gene rice protein phosphatase18 modulates drought and oxidative stress tolerance through abscisic acid-independent reactive oxygen species scavenging in rice | Q39617694 | ||
EAR motif mutation of rice OsERF3 alters the regulation of ethylene biosynthesis and drought tolerance | Q39625686 | ||
Functional analyses of ethylene response factor JERF3 with the aim of improving tolerance to drought and osmotic stress in transgenic rice | Q39625730 | ||
A novel wheat bZIP transcription factor, TabZIP60, confers multiple abiotic stress tolerances in transgenic Arabidopsis | Q39626243 | ||
Characterization of the promoter region of an Arabidopsis gene for 9-cis-epoxycarotenoid dioxygenase involved in dehydration-inducible transcription | Q42546282 | ||
ATAF1 transcription factor directly regulates abscisic acid biosynthetic gene NCED3 in Arabidopsis thaliana | Q42552252 | ||
ABF2, an ABRE-binding bZIP factor, is an essential component of glucose signaling and its overexpression affects multiple stress tolerance | Q42635630 | ||
DREB2C interacts with ABF2, a bZIP protein regulating abscisic acid-responsive gene expression, and its overexpression affects abscisic acid sensitivity | Q43097894 | ||
A tomato bZIP transcription factor, SlAREB, is involved in water deficit and salt stress response | Q43112544 | ||
Genetics and phosphoproteomics reveal a protein phosphorylation network in the abscisic acid signaling pathway in Arabidopsis thaliana | Q43997052 | ||
The Arabidopsis NAC transcription factor ANAC096 cooperates with bZIP-type transcription factors in dehydration and osmotic stress responses | Q44327537 | ||
Plant genetics. The blue revolution, drop by drop, gene by gene | Q50459721 | ||
Ectopic expression of Pokkali phosphoglycerate kinase-2 (OsPGK2-P) improves yield in tobacco plants under salinity stress. | Q50558994 | ||
Physiological and gene expression responses of sunflower (Helianthus annuus L.) plants differ according to irrigation placement. | Q51054079 | ||
Physiological and biochemical responses to acute ozone-induced oxidative stress in Medicago truncatula. | Q51186187 | ||
P407 | language of work or name | English | Q1860 |
P921 | main subject | drought | Q43059 |
P304 | page(s) | 1029 | |
P577 | publication date | 2016-07-14 | |
P1433 | published in | Frontiers in Plant Science | Q27723840 |
P1476 | title | Transcription Factors and Plants Response to Drought Stress: Current Understanding and Future Directions | |
P478 | volume | 7 |
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Q64243332 | Transcriptomic response is more sensitive to water deficit in shoots than roots of Vitis riparia (Michx.) |
Q39044312 | WRKY transcription factors in plant responses to stresses |
Q55260276 | mRNA Decapping and 5'-3' Decay Contribute to the Regulation of ABA Signaling in Arabidopsis thaliana. |
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