| scholarly article | Q13442814 |
| P2093 | author name string | Jeffrey Leung | |
| Jerome Giraudat | |||
| P304 | page(s) | 199-222 | |
| P577 | publication date | 1998-06-01 | |
| P1433 | published in | Annual Review of Plant Biology | Q567367 |
| P1476 | title | ABSCISIC ACID SIGNAL TRANSDUCTION. | |
| P478 | volume | 49 |
| Q97067760 | A Clathrin-Related Protein, SCD2/RRP1, Participates in Abscisic Acid Signaling in Arabidopsis |
| Q60949417 | A Functional Connection between the Circadian Clock and Hormonal Timing in |
| Q39612355 | A Lily ASR protein involves abscisic acid signaling and confers drought and salt resistance in Arabidopsis |
| Q39633787 | A bZIP transcription factor, OsABI5, is involved in rice fertility and stress tolerance |
| Q46516521 | A basic helix-loop-helix transcription factor in Arabidopsis, MYC2, acts as a repressor of blue light-mediated photomorphogenic growth |
| Q44113653 | A calcium sensor and its interacting protein kinase are global regulators of abscisic acid signaling in Arabidopsis |
| Q33392877 | A central role of abscisic acid in stress-regulated carbohydrate metabolism. |
| Q39626301 | A cotton group C MAP kinase gene, GhMPK2, positively regulates salt and drought tolerance in tobacco |
| Q38861901 | A genome-wide survey of HD-Zip genes in rice and analysis of drought-responsive family members. |
| Q38970170 | A homeodomain leucine zipper gene from Craterostigma plantagineum regulates abscisic acid responsive gene expression and physiological responses. |
| Q28362443 | A new protein phosphatase 2C (FsPP2C1) induced by abscisic acid is specifically expressed in dormant beechnut seeds |
| Q39611751 | A novel ABA-hypersensitive mutant in Arabidopsis defines a genetic locus that confers tolerance to xerothermic stress |
| Q36161641 | A novel domain in the protein kinase SOS2 mediates interaction with the protein phosphatase 2C ABI2 |
| Q54382954 | A novel endosperm transfer cell-containing region-specific gene and its promoter in rice. |
| Q42167013 | A novel pepper membrane-located receptor-like protein gene CaMRP1 is required for disease susceptibility, methyl jasmonate insensitivity and salt tolerance. |
| Q44908074 | A novel zinc-finger protein with a proline-rich domain mediates ABA-regulated seed dormancy in Arabidopsis |
| Q39137081 | A nuclear factor regulates abscisic acid responses in Arabidopsis. |
| Q43839713 | A nuclear gene encoding the iron-sulfur subunit of mitochondrial complex II is regulated by B3 domain transcription factors during seed development in Arabidopsis. |
| Q33798144 | A potato skin SSH library yields new candidate genes for suberin biosynthesis and periderm formation. |
| Q34615494 | A screen for genes that function in abscisic acid signaling in Arabidopsis thaliana. |
| Q44205930 | A unique short-chain dehydrogenase/reductase in Arabidopsis glucose signaling and abscisic acid biosynthesis and functions. |
| Q44448355 | ABA action and interactions in seeds |
| Q74351703 | ABA and polyamines act independently in primary leaves of cold-stressed tomato (Lycopersicon esculentum) |
| Q35606610 | ABA inducible rice protein phosphatase 2C confers ABA insensitivity and abiotic stress tolerance in Arabidopsis |
| Q27011772 | ABA signal in rice under stress conditions |
| Q42757526 | ABA transport factors found in Arabidopsis ABC transporters |
| Q46844221 | ABA-hypersensitive germination3 encodes a protein phosphatase 2C (AtPP2CA) that strongly regulates abscisic acid signaling during germination among Arabidopsis protein phosphatase 2Cs. |
| Q30832989 | ABFs, a family of ABA-responsive element binding factors |
| Q39608432 | ABI-like transcription factor gene TaABL1 from wheat improves multiple abiotic stress tolerances in transgenic plants |
| Q39029633 | ABI1 protein phosphatase 2C is a negative regulator of abscisic acid signaling |
| Q49169462 | ABI3 affects plastid differentiation in dark-grown Arabidopsis seedlings |
| Q43796766 | ABI5 interacts with abscisic acid signaling effectors in rice protoplasts |
| Q39335949 | ABR1, an APETALA2-domain transcription factor that functions as a repressor of ABA response in Arabidopsis |
| Q38318891 | AREB1 is a transcription activator of novel ABRE-dependent ABA signaling that enhances drought stress tolerance in Arabidopsis |
| Q55294220 | Abiotic Stress Signaling in Wheat - An Inclusive Overview of Hormonal Interactions During Abiotic Stress Responses in Wheat. |
| Q28206448 | Abiotic stress signal transduction in plants: Molecular and genetic perspectives |
| Q39027898 | Abiotic stresses affecting water balance induce phosphoenolpyruvate carboxylase expression in roots of wheat seedlings. |
| Q27307184 | Abscisic Acid as an Internal Integrator of Multiple Physiological Processes Modulates Leaf Senescence Onset in Arabidopsis thaliana |
| Q35625690 | Abscisic Acid biosynthesis and response |
| Q46280082 | Abscisic Acid-Induced Reactive Oxygen Species Are Modulated by Flavonols to Control Stomata Aperture |
| Q78037254 | Abscisic acid |
| Q28363634 | Abscisic acid activation of plasma membrane Ca(2+) channels in guard cells requires cytosolic NAD(P)H and is differentially disrupted upstream and downstream of reactive oxygen species production in abi1-1 and abi2-1 protein phosphatase 2C mutants |
| Q37417761 | Abscisic acid controlled sex before transpiration in vascular plants |
| Q46910903 | Abscisic acid deficiency in the tomato mutant high-pigment 3 leading to increased plastid number and higher fruit lycopene content |
| Q34415437 | Abscisic acid dynamics in roots detected with genetically encoded FRET sensors. |
| Q41999608 | Abscisic acid effects on activity and expression of barley (Hordeum vulgare) plastidial glucose-6-phosphate dehydrogenase |
| Q84395768 | Abscisic acid in soil facilitates community succession in three forests in China |
| Q44973352 | Abscisic acid induces CBF gene transcription and subsequent induction of cold-regulated genes via the CRT promoter element |
| Q31904146 | Abscisic acid induces oscillations in guard-cell cytosolic free calcium that involve phosphoinositide-specific phospholipase C. |
| Q41729567 | Abscisic acid inhibition of radicle emergence but not seedling growth is suppressed by sugars |
| Q27024467 | Abscisic acid perception and signaling transduction in strawberry: a model for non-climacteric fruit ripening |
| Q45732356 | Abscisic acid plays an important role in the regulation of strawberry fruit ripening |
| Q45208598 | Abscisic acid plays critical role in ozone-induced taxol production of Taxus chinensis suspension cell cultures |
| Q37241234 | Abscisic acid receptors: multiple signal-perception sites |
| Q39458909 | Abscisic acid regulates gene expression in cortical fiber cells and silica cells of rice shoots |
| Q34667500 | Abscisic acid signaling in seeds and seedlings. |
| Q51008513 | Abscisic acid signaling is involved in regulating the mitogen-activated protein kinase cascade module, AIK1-MKK5-MPK6. |
| Q46890501 | Abscisic acid stimulates a calcium-dependent protein kinase in grape berry. |
| Q50458729 | Abscisic acid uridine diphosphate glucosyltransferases play a crucial role in abscisic acid homeostasis in Arabidopsis |
| Q34478493 | Abscisic acid-dependent multisite phosphorylation regulates the activity of a transcription activator AREB1. |
| Q28362473 | Abscisic acid-induced actin reorganization in guard cells of dayflower is mediated by cytosolic calcium levels and by protein kinase and protein phosphatase activities |
| Q33617364 | Abscisic acid-induced stomatal closure mediated by cyclic ADP-ribose |
| Q38947057 | Abscisic acid-inducible nuclear proteins bind to bipartite promoter elements required for ABA response and embryo-regulated expression of the carrot Dc3 gene |
| Q43768999 | Abscisic acid-specific binding sites in the flesh of developing apple fruit |
| Q73828061 | Abscissic acid specific expression of RAB18 involves activation of anion channels in Arabidopsis thaliana suspension cells |
| Q39498777 | Activated expression of AtWRKY53 negatively regulates drought tolerance by mediating stomatal movement |
| Q50525483 | Age-dependent action of an ABA-inducible receptor kinase, RPK1, as a positive regulator of senescence in Arabidopsis leaves. |
| Q38340216 | Alkaline-stress response in Glycine soja leaf identifies specific transcription factors and ABA-mediated signaling factors. |
| Q39220085 | Allelopathic potential of Macaranga tanarius (L.) muell.-arg |
| Q46516200 | An abscisic acid-induced protein, HVA22, inhibits gibberellin-mediated programmed cell death in cereal aleurone cells |
| Q51707417 | An excess of nonsynonymous polymorphism and extensive haplotype structure at the PtABI1B locus in European aspen (Populus tremula): a case of balancing selection in an obligately outcrossing plant? |
| Q38297398 | An mRNA cap binding protein, ABH1, modulates early abscisic acid signal transduction in Arabidopsis |
| Q35200956 | Analysis of Arabidopsis glucose insensitive mutants, gin5 and gin6, reveals a central role of the plant hormone ABA in the regulation of plant vegetative development by sugar. |
| Q43810651 | Analysis of celery (Apium graveolens) mannitol dehydrogenase (Mtd) promoter regulation in Arabidopsis suggests roles for MTD in key environmental and metabolic responses |
| Q46735211 | Analysis of phylogenetic and functional diverge in plant nine-cis epoxycarotenoid dioxygenase gene family |
| Q35729828 | Analyzing the Expression Profile of AREB/ABF and DREB/CBF Genes under Drought and Salinity Stresses in Grape (Vitis vinifera L.). |
| Q33881776 | Anion channels in higher plants: functional characterization, molecular structure and physiological role. |
| Q37276993 | Antagonism between abscisic acid and ethylene in Arabidopsis acts in parallel with the reciprocal regulation of their metabolism and signaling pathways |
| Q73511537 | Anthracenone ABA analogue as a potential photoaffinity reagent for ABA-binding proteins |
| Q92909503 | Application of chitosan on plant responses with special reference to abiotic stress |
| Q44733430 | Arabidopsis 3-ketoacyl-CoA thiolase-2 (KAT2), an enzyme of fatty acid β-oxidation, is involved in ABA signal transduction |
| Q30862588 | Arabidopsis ABI5 subfamily members have distinct DNA-binding and transcriptional activities |
| Q39612998 | Arabidopsis C3HC4-RING finger E3 ubiquitin ligase AtAIRP4 positively regulates stress-responsive abscisic acid signaling |
| Q33893836 | Arabidopsis CPR5 independently regulates seed germination and postgermination arrest of development through LOX pathway and ABA signaling |
| Q61763410 | Arabidopsis Cys2/His2 zinc-finger proteins AZF1 and AZF2 negatively regulate abscisic acid-repressive and auxin-inducible genes under abiotic stress conditions |
| Q55404340 | Arabidopsis IQM4, a Novel Calmodulin-Binding Protein, Is Involved With Seed Dormancy and Germination in Arabidopsis. |
| Q46729721 | Arabidopsis PPR40 connects abiotic stress responses to mitochondrial electron transport |
| Q38973641 | Arabidopsis RZFP34/CHYR1, a Ubiquitin E3 Ligase, Regulates Stomatal Movement and Drought Tolerance via SnRK2.6-Mediated Phosphorylation |
| Q37443491 | Arabidopsis SAG protein containing the MDN1 domain participates in seed germination and seedling development by negatively regulating ABI3 and ABI5. |
| Q41690609 | Arabidopsis abi1-1 and abi2-1 phosphatase mutations reduce abscisic acid-induced cytoplasmic calcium rises in guard cells. |
| Q39119343 | Arabidopsis basic leucine zipper proteins that mediate stress-responsive abscisic acid signaling |
| Q35333054 | Arabidopsis basic leucine zipper transcription factors involved in an abscisic acid-dependent signal transduction pathway under drought and high-salinity conditions. |
| Q39373564 | Arabidopsis drought-induced protein Di19-3 participates in plant response to drought and high salinity stresses |
| Q33348330 | Arabidopsis proline-rich extensin-like receptor kinase 4 modulates the early event toward abscisic acid response in root tip growth |
| Q42778127 | AsHSP17, a creeping bentgrass small heat shock protein modulates plant photosynthesis and ABA-dependent and independent signalling to attenuate plant response to abiotic stress |
| Q89281962 | AtARRE, an E3 ubiquitin ligase, negatively regulates ABA signaling in Arabidopsis thaliana |
| Q39608684 | AtCPK6, a functionally redundant and positive regulator involved in salt/drought stress tolerance in Arabidopsis |
| Q51128475 | AtGRP7 is involved in the regulation of abscisic acid and stress responses in Arabidopsis. |
| Q35564723 | AtPUB19, a U-box E3 ubiquitin ligase, negatively regulates abscisic acid and drought responses in Arabidopsis thaliana. |
| Q82336412 | AtSAP18, an orthologue of human SAP18, is involved in the regulation of salt stress and mediates transcriptional repression in Arabidopsis |
| Q44666343 | BLH1 and KNAT3 modulate ABA responses during germination and early seedling development in Arabidopsis |
| Q64287991 | BR deficiency causes increased sensitivity to drought and yield penalty in cotton |
| Q39082888 | BRASSINOSTEROID INSENSITIVE2 interacts with ABSCISIC ACID INSENSITIVE5 to mediate the antagonism of brassinosteroids to abscisic acid during seed germination in Arabidopsis |
| Q41412589 | Bacillus: A Biological Tool for Crop Improvement through Bio-Molecular Changes in Adverse Environments |
| Q33881892 | BdCIPK31, a Calcineurin B-Like Protein-Interacting Protein Kinase, Regulates Plant Response to Drought and Salt Stress |
| Q33597701 | Boolean modeling of transcriptome data reveals novel modes of heterotrimeric G-protein action |
| Q35182220 | C3HC4-type RING finger protein NbZFP1 is involved in growth and fruit development in Nicotiana benthamiana |
| Q24816047 | CAGER: classification analysis of gene expression regulation using multiple information sources |
| Q39136993 | CIPK3, a calcium sensor-associated protein kinase that regulates abscisic acid and cold signal transduction in Arabidopsis |
| Q35896919 | CPK12: A Ca2+-dependent protein kinase balancer in abscisic acid signaling |
| Q33881764 | Calcium channels in higher plants |
| Q34216145 | Calmodulin-binding protein CBP60g is a positive regulator of both disease resistance and drought tolerance in Arabidopsis |
| Q30320983 | Calystegines in root cultures of Atropa belladonna respond to sucrose, not to elicitation |
| Q91580922 | Can WRKY transcription factors help plants to overcome environmental challenges? |
| Q39146929 | Chaperone activity of ERD10 and ERD14, two disordered stress-related plant proteins |
| Q33383899 | Characterisation of two cold induced dehydrin genes from Cichorium intybus L. |
| Q90453936 | Characterization of PP2A-A3 mRNA expression and growth patterns in Arabidopsis thaliana under drought stress and abscisic acid |
| Q31107163 | Characterization of a novel rice gene OsATX and modulation of its expression by components of the stress signalling pathways |
| Q44477519 | Characterization of green seed, an enhancer of abi3-1 in Arabidopsis that affects seed longevity |
| Q33370301 | Characterization of the TaAIDFa gene encoding a CRT/DRE-binding factor responsive to drought, high-salt, and cold stress in wheat |
| Q37488138 | Chickpea transcription factor CaTLP1 interacts with protein kinases, modulates ROS accumulation and promotes ABA-mediated stomatal closure |
| Q34630912 | Chromosome regions and stress-related sequences involved in resistance to abiotic stress in Triticeae |
| Q55221813 | Circadian Regulation of Horticultural Traits: Integration of Environmental Signals |
| Q38338919 | CkDREB gene in Caragana korshinskii is involved in the regulation of stress response to multiple abiotic stresses as an AP2/EREBP transcription factor |
| Q42654495 | Cloning and characterization of farnesyl pyphosphate synthase gene from the ABA-producing fungi Botrytis cinerea |
| Q34138428 | Cloning and characterization of the abscisic acid-specific glucosyltransferase gene from adzuki bean seedlings |
| Q39184288 | Cloning and functional characterization of PpDBF1 gene encoding a DRE-binding transcription factor from Physcomitrella patens |
| Q45045332 | Cold acclimation in bryophytes: low-temperature-induced freezing tolerance in Physcomitrella patens is associated with increases in expression levels of stress-related genes but not with increase in level of endogenous abscisic acid |
| Q42507499 | Cold response of dedifferentiated barley cells at the gene expression, hormone composition, and freezing tolerance levels: studies on callus cultures |
| Q33338087 | Combining quantitative trait Loci analysis and an ecophysiological model to analyze the genetic variability of the responses of maize leaf growth to temperature and water deficit. |
| Q33893289 | Common and unique elements of the ABA-regulated transcriptome of Arabidopsis guard cells |
| Q33571445 | Comprehensive Transcriptome Analyses Reveal Differential Gene Expression Profiles of Camellia sinensis Axillary Buds at Para-, Endo-, Ecodormancy, and Bud Flush Stages |
| Q43591694 | Computational prediction and experimental verification of HVA1-like abscisic acid responsive promoters in rice (Oryza sativa). |
| Q59882399 | Conserved and differential transcriptional responses of peroxisome associated pathways to drought, dehydration and ABA |
| Q44116132 | Constitutive activation and transgenic evaluation of the function of an arabidopsis PKS protein kinase. |
| Q51063678 | Constitutive expression of the pea ABA-responsive 17 (ABR17) cDNA confers multiple stress tolerance in Arabidopsis thaliana. |
| Q33387175 | Cotton metallothionein GhMT3a, a reactive oxygen species scavenger, increased tolerance against abiotic stress in transgenic tobacco and yeast |
| Q48177083 | DNA replication licensing affects cell proliferation or endoreplication in a cell type-specific manner |
| Q34282324 | De novo transcriptome and small RNA analysis of two Chinese willow cultivars reveals stress response genes in Salix matsudana |
| Q37853325 | Developing a model of plant hormone interactions. |
| Q92276552 | Differential Function of Endogenous and Exogenous Abscisic Acid during Bacterial Pattern-Induced Production of Reactive Oxygen Species in Arabidopsis |
| Q39608132 | Disease resistance and abiotic stress tolerance in rice are inversely modulated by an abscisic acid-inducible mitogen-activated protein kinase |
| Q38521701 | Disruption of a guard cell-expressed protein phosphatase 2A regulatory subunit, RCN1, confers abscisic acid insensitivity in Arabidopsis. |
| Q43756989 | Dissection of abscisic acid signal transduction pathways in barley aleurone layers |
| Q46747483 | Do brassinosteroids mediate the water stress response? |
| Q30654628 | Downstream DNA sequences are required to modulate Pvlea-18 gene expression in response to dehydration |
| Q38908427 | Drought regulation of GST8, encoding the Arabidopsis homologue of ParC/Nt107 glutathione transferase/peroxidase |
| Q39380893 | Drought- and desiccation-induced modulation of gene expression in plants |
| Q39121645 | EARLY RESPONSIVE TO DEHYDRATION 15, a negative regulator of abscisic acid responses in Arabidopsis |
| Q33308777 | Early developmental and stress responsive ESTs from mungbean, Vigna radiata (L.) Wilczek, seedlings |
| Q39181226 | Ectopic expression of ABSCISIC ACID 2/GLUCOSE INSENSITIVE 1 in Arabidopsis promotes seed dormancy and stress tolerance. |
| Q50001293 | Effect of Abscisic Acid on Accumulation of Five Active Components in Root of Glycyrrhiza uralensis |
| Q34077081 | Effects of abiotic stress on plants: a systems biology perspective |
| Q91830306 | Effects of exogenous abscisic acid on phenolic characteristics of red Vitis vinifera grapes and wines |
| Q52785137 | Effects of exogenous plant growth regulator abscisic acid-induced resistance in rice on the expression of vitellogenin mRNA in Nilaparvata lugens (Hemiptera: Delphacidae) adult females. |
| Q41656952 | Effects of terbium (III) on signaling molecules in horseradish |
| Q38636866 | Emerging roles of protein kinase CK2 in abscisic acid signaling |
| Q35563995 | Endogenous abscisic acid promotes hypocotyl growth and affects endoreduplication during dark-induced growth in tomato (Solanum lycopersicum L.). |
| Q77918561 | Engineering seed dormancy by the modification of zeaxanthin epoxidase gene expression |
| Q39099667 | Enhancing Arabidopsis salt and drought stress tolerance by chemical priming for its abscisic acid responses |
| Q39509069 | Ethylene inhibits abscisic acid-induced stomatal closure in Arabidopsis |
| Q35989358 | Exogenous abscisic acid significantly affects proteome in tea plant (Camellia sinensis) exposed to drought stress. |
| Q44997051 | Exome resequencing reveals signatures of demographic and adaptive processes across the genome and range of black cottonwood (Populus trichocarpa). |
| Q90705293 | Expression Patterns of Key Hormones Related to Pea (Pisum sativum L.) Embryo Physiological Maturity Shift in Response to Accelerated Growth Conditions |
| Q46836098 | Expression of PsGRP1, a novel glycine rich protein gene of Pisum sativum, is induced in developing fruit and seed and by ABA in pistil and root |
| Q80258856 | Expression of a grape calcium-dependent protein kinase ACPK1 in Arabidopsis thaliana promotes plant growth and confers abscisic acid-hypersensitivity in germination, postgermination growth, and stomatal movement |
| Q38879153 | Expression of the Arabidopsis mutant ABI1 gene alters abscisic acid sensitivity, stomatal development, and growth morphology in gray poplars |
| Q90754579 | Expression regulation of myo-inositol 3-phosphate synthase 1 (INO1) in determination of phytic acid accumulation in rice grain |
| Q38883704 | Expression studies of the zeaxanthin epoxidase gene in nicotiana plumbaginifolia |
| Q39509814 | FAR-RED ELONGATED HYPOCOTYL3 and FAR-RED IMPAIRED RESPONSE1 transcription factors integrate light and abscisic acid signaling in Arabidopsis |
| Q28345353 | FIERY1 encoding an inositol polyphosphate 1-phosphatase is a negative regulator of abscisic acid and stress signaling in Arabidopsis |
| Q34596297 | Fibrillin expression is regulated by abscisic acid response regulators and is involved in abscisic acid-mediated photoprotection |
| Q52174980 | Flow cytometry and surface plasmon resonance analyses demonstrate that the monoclonal antibody JIM19 interacts with a rice cell surface component involved in abscisic acid signalling in protoplasts. |
| Q90735895 | Foliar Application of Calcium and Growth Regulators Modulate Sweet Cherry (Prunus avium L.) Tree Performance |
| Q37337467 | Foliar abscisic acid content underlies genotypic variation in stomatal responsiveness after growth at high relative air humidity. |
| Q39626882 | Function of the HD-Zip I gene Oshox22 in ABA-mediated drought and salt tolerances in rice. |
| Q35802670 | Functional Characterization and Substrate Promiscuity of UGT71 Glycosyltransferases from Strawberry (Fragaria × ananassa). |
| Q43856256 | Functional analysis in Arabidopsis of FsPTP1, a tyrosine phosphatase from beechnuts, reveals its role as a negative regulator of ABA signaling and seed dormancy and suggests its involvement in ethylene signaling modulation |
| Q39090310 | Functional characterization of Arabidopsis HsfA6a as a heat-shock transcription factor under high salinity and dehydration conditions |
| Q46860969 | Functional characterization of a cotton late embryogenesis-abundant D113 gene promoter in transgenic tobacco |
| Q50753405 | Functional characterization of two alternatively spliced transcripts of tomato ABSCISIC ACID INSENSITIVE3 (ABI3) gene. |
| Q24802241 | Functional genomics in the study of seed germination |
| Q43515738 | Functional interactions of lanthanum and phospholipase D with the abscisic acid signaling effectors VP1 and ABI1-1 in rice protoplasts |
| Q39179829 | Functional roles of the pepper RING finger protein gene, CaRING1, in abscisic acid signaling and dehydration tolerance |
| Q39167356 | Functional roles of the pepper pathogen-induced bZIP transcription factor, CAbZIP1, in enhanced resistance to pathogen infection and environmental stresses |
| Q38514618 | Functional-genomics-based identification of genes that regulate Arabidopsis responses to multiple abiotic stresses |
| Q53600467 | G-protein complex mutants are hypersensitive to abscisic acid regulation of germination and postgermination development. |
| Q39396500 | GIGANTEA enables drought escape response via abscisic acid-dependent activation of the florigens and SUPPRESSOR OF OVEREXPRESSION OF CONSTANS. |
| Q64295410 | GOLDEN2-LIKE Transcription Factors Regulate Expression in Response to Abscisic Acid |
| Q43661041 | Gain-of-function and loss-of-function phenotypes of the protein phosphatase 2C HAB1 reveal its role as a negative regulator of abscisic acid signalling |
| Q46431195 | Gene expression analysis by cDNA-AFLP highlights a set of new signaling networks and translational control during seed dormancy breaking in Nicotiana plumbaginifolia |
| Q48061877 | Gene expression changes during short day induced terminal bud formation in Norway spruce |
| Q34017042 | Gene expression profile changes in germinating rice |
| Q35163092 | Gene expression profiling of plant responses to abiotic stress |
| Q38294995 | Generation of superoxide anion in chloroplasts of Arabidopsis thaliana during active photosynthesis: a focus on rapidly induced genes. |
| Q51983533 | Genetic basis of barley caryopsis dormancy and seedling desiccation tolerance at the germination stage. |
| Q34399348 | Genetic interactions between ABA, ethylene and sugar signaling pathways |
| Q64078719 | Genome-Wide Identification, Evolution, and Transcriptional Profiling of Gene Family in |
| Q33292923 | Genome-wide analysis of ABA-responsive elements ABRE and CE3 reveals divergent patterns in Arabidopsis and rice |
| Q34639801 | Genome-wide analysis of microRNAs and their target genes related to leaf senescence of rice |
| Q33385842 | Genome-wide and expression analysis of protein phosphatase 2C in rice and Arabidopsis. |
| Q31029117 | Genome-wide expression analysis offers new insights into the origin and evolution of Physcomitrella patens stress response |
| Q34306385 | Genome-wide identification of differentially expressed genes under water deficit stress in upland cotton (Gossypium hirsutum L.). |
| Q39666128 | Genome-wide identification of the expansin gene family in tobacco (Nicotiana tabacum). |
| Q44499531 | Gibberellin biosynthesis and response during Arabidopsis seed germination |
| Q28360392 | Gibberellin/abscisic acid antagonism in barley aleurone cells: site of action of the protein kinase PKABA1 in relation to gibberellin signaling molecules |
| Q26768522 | Global Plant Stress Signaling: Reactive Oxygen Species at the Cross-Road |
| Q34194610 | Guard cell abscisic acid signalling and engineering drought hardiness in plants |
| Q37121883 | Guard-cell signalling for hydrogen peroxide and abscisic acid |
| Q33957531 | H2O2 mediates the crosstalk of brassinosteroid and abscisic acid in tomato responses to heat and oxidative stresses |
| Q33999958 | HHP1, a novel signalling component in the cross-talk between the cold and osmotic signalling pathways in Arabidopsis. |
| Q38971780 | Hahb-4, a sunflower homeobox-leucine zipper gene, is a developmental regulator and confers drought tolerance to Arabidopsis thaliana plants |
| Q43991736 | Harlequin (hlq) and short blue root (sbr), two Arabidopsis mutants that ectopically express an abscisic acid- and auxin-inducible transgenic carrot promoter and have pleiotropic effects on morphogenesis |
| Q39647485 | Homeodomain protein ATHB6 is a target of the protein phosphatase ABI1 and regulates hormone responses in Arabidopsis |
| Q37334102 | Hormone interactions in stomatal function |
| Q47622774 | Hypericum perforatum hydroxyalkylpyrone synthase involved in sporopollenin biosynthesis--phylogeny, site-directed mutagenesis, and expression in nonanther tissues |
| Q39509426 | Identification and Functional Divergence Analysis of WOX Gene Family in Paper Mulberry |
| Q43828350 | Identification and characterization of class I chitinase in Panax ginseng C. A. Meyer |
| Q49211280 | Identification and functional analysis of two alternatively spliced transcripts of ABSCISIC ACID INSENSITIVE3 (ABI3) in linseed flax (Linum usitatissimum L.). |
| Q39180009 | Identification and functional roles of CaDIN1 in abscisic acid signaling and drought sensitivity |
| Q42594871 | Identification of a dehydration and ABA-responsive promoter regulon and isolation of corresponding DNA binding proteins for the group 4 LEA gene CpC2 from C. plantagineum |
| Q46679068 | Identification of further Craterostigma plantagineum cdt mutants affected in abscisic acid mediated desiccation tolerance |
| Q52549360 | Identification of mutants of Arabidopsis defective in acclimation of photosynthesis to the light environment. |
| Q43094394 | Identification of quantitative trait loci for ABA responsiveness at the seedling stage associated with ABA-regulated gene expression in common wheat |
| Q79789454 | Identification of quantitative trait loci for ABA sensitivity at seed germination and seedling stages in rice |
| Q81605487 | Identification of salt stress-induced transcripts in potato leaves by cDNA-AFLP |
| Q28361775 | Identification of two loci in tomato reveals distinct mechanisms for salt tolerance |
| Q33495608 | Identification of up-regulated genes in flag leaves during rice grain filling and characterization of OsNAC5, a new ABA-dependent transcription factor |
| Q64251262 | Impact of Climate Change on Crops Adaptation and Strategies to Tackle Its Outcome: A Review |
| Q35217916 | Impacts of altered RNA metabolism on abscisic acid signaling |
| Q37550138 | Improved cold tolerance in Elymus nutans by exogenous application of melatonin may involve ABA-dependent and ABA-independent pathways |
| Q28344281 | Inactivation of AtRac1 by abscisic acid is essential for stomatal closure |
| Q38927135 | Induced drought tolerance through wild and mutant bacterial strain Pseudomonas simiae in mung bean (Vigna radiata L.). |
| Q83967571 | Induction of abscisic acid-regulated gene expression by diacylglycerol pyrophosphate involves Ca2+ and anion currents in Arabidopsis suspension cells |
| Q46451052 | Induction of expression of the dehydrin gene TADHN and accumulation of abscisic acid in wheat plants in hypothermia. |
| Q35350950 | Inspection of the grapevine BURP superfamily highlights an expansion of RD22 genes with distinctive expression features in berry development and ABA-mediated stress responses |
| Q36670193 | Integration of light and abscisic acid signaling during seed germination and early seedling development. |
| Q45122212 | Interaction between abscisic acid and nitric oxide in PB90-induced catharanthine biosynthesis of catharanthus roseus cell suspension cultures |
| Q62989612 | Interactions between Abscisic Acid and Ethylene Signaling Cascades |
| Q42087451 | Intracellular Ca2+ stores could participate to abscisic acid-induced depolarization and stomatal closure in Arabidopsis thaliana |
| Q40825392 | Involvement of abscisic acid-dependent and -independent pathways in the upregulation of antioxidant enzyme activity during NaCl stress in cotton callus tissue |
| Q26995173 | Ion channels in plants |
| Q32074422 | Isolation and RNA gel blot analysis of genes that could serve as potential molecular markers for leaf senescence in Arabidopsis thaliana. |
| Q33287147 | Isolation and characterization of expressed sequence tags (ESTs) from subtracted cDNA libraries of Pennisetum glaucum seedlings |
| Q45163121 | Isolation and characterization of novel mutants affecting the abscisic acid sensitivity of Arabidopsis germination and seedling growth |
| Q38491788 | Isolation of genes related to abscisic acid production in Botrytis cinerea TB-3-H8 by cDNA-AFLP. |
| Q34448269 | Knockout of multiple Arabidopsis cation/H(+) exchangers suggests isoform-specific roles in metal stress response, germination and seed mineral nutrition |
| Q50081006 | LBD14/ASL17 Positively Regulates Lateral Root Formation and is Involved in ABA Response for Root Architecture in Arabidopsis |
| Q39136551 | Light signalling mediated by phytochrome plays an important role in cold-induced gene expression through the C-repeat/dehydration responsive element (C/DRE) in Arabidopsis thaliana |
| Q30957552 | Localization and control of expression of Nt-Syr1, a tobacco SNARE protein. |
| Q44213646 | Localization, ion channel regulation, and genetic interactions during abscisic acid signaling of the nuclear mRNA cap-binding protein, ABH1. |
| Q38914549 | Long term transcript accumulation during the development of dehydration adaptation in Cicer arietinum |
| Q34503990 | Long-distance CO(2) signalling in plants |
| Q53398694 | Long-term impact of deficit irrigation on the physical quality of berries in 'Crimson Seedless' table grapes. |
| Q43020510 | MOTHER OF FT AND TFL1 regulates seed germination through a negative feedback loop modulating ABA signaling in Arabidopsis |
| Q57817625 | Mitogen-Activated Protein Kinase Cascades in Plant Hormone Signaling |
| Q34073341 | Mitogen-activated protein [MAP] kinase pathways in plants: versatile signaling tools |
| Q39608166 | Modulation of abscisic acid signal transduction and biosynthesis by an Sm-like protein in Arabidopsis. |
| Q37629826 | Molecular and Functional Characterization of Wheat ARGOS Genes Influencing Plant Growth and Stress Tolerance |
| Q41239452 | Molecular and Functional Characterization of a Wheat B2 Protein Imparting Adverse Temperature Tolerance and Influencing Plant Growth |
| Q34461889 | Molecular and physiological approaches to maize improvement for drought tolerance |
| Q39613702 | Molecular cloning and characterization of a gene encoding RING zinc finger ankyrin protein from drought-tolerant Artemisia desertorum |
| Q42645777 | Molecular cloning and expression analysis of rice phosphoribulokinase gene that is regulated by environmental stresses |
| Q31075929 | Molecular cloning of a functional protein phosphatase 2C (FsPP2C2) with unusual features and synergistically up-regulated by ABA and calcium in dormant seeds of Fagus sylvatica |
| Q34795397 | Molecular mechanisms in the activation of abscisic acid receptor PYR1. |
| Q38115779 | Molecular regulation of fruit ripening |
| Q52431479 | Mutation in Rice Abscisic Acid2 Results in Cell Death, Enhanced Disease-Resistance, Altered Seed Dormancy and Development. |
| Q50722101 | NADK3, a novel cytoplasmic source of NADPH, is required under conditions of oxidative stress and modulates abscisic acid responses in Arabidopsis. |
| Q29040611 | Na+ Tolerance and Na+ Transport in Higher Plants |
| Q44240359 | Negative regulation of abscisic acid signaling by the Fagus sylvatica FsPP2C1 plays a role in seed dormancy regulation and promotion of seed germination |
| Q87327052 | New phenotypic characteristics of three tmm alleles in Arabidopsis thaliana |
| Q34242375 | Nitric Oxide and Hydrogen Peroxide Production are Involved in Systemic Drought Tolerance Induced by 2R,3R-Butanediol in Arabidopsis thaliana |
| Q79875763 | Novel calcium-binding GTPase (AtCBG) involved in ABA-mediated salt stress signaling in Arabidopsis |
| Q42689819 | OSM1/SYP61: a syntaxin protein in Arabidopsis controls abscisic acid-mediated and non-abscisic acid-mediated responses to abiotic stress. |
| Q38962688 | Open or close the gate - stomata action under the control of phytohormones in drought stress conditions |
| Q84425291 | Opening a new era of ABA research |
| Q92072484 | Overexpression of ABA Receptor PYL10 Gene Confers Drought and Cold Tolerance to Indica Rice |
| Q39038077 | Overexpression of AtDREB1D transcription factor improves drought tolerance in soybean |
| Q37214952 | Overexpression of AtEDT1/HDG11 in Chinese Kale (Brassica oleracea var. alboglabra) Enhances Drought and Osmotic Stress Tolerance |
| Q39604758 | Overexpression of Muscadinia rotundifolia CBF2 gene enhances biotic and abiotic stress tolerance in Arabidopsis |
| Q43882211 | Overexpression of Pyrabactin Resistance-Like Abscisic Acid Receptors Enhances Drought, Osmotic, and Cold Tolerance in Transgenic Poplars |
| Q48325212 | Overexpression of SDH confers tolerance to salt and osmotic stress, but decreases ABA sensitivity in Arabidopsis. |
| Q38916395 | Overexpression of StDREB1 transcription factor increases tolerance to salt in transgenic potato plants |
| Q54565080 | Overexpression of TMAC2, a novel negative regulator of abscisic acid and salinity responses, has pleiotropic effects in Arabidopsis thaliana. |
| Q28534078 | Overexpression of VrUBC1, a Mung Bean E2 Ubiquitin-Conjugating Enzyme, Enhances Osmotic Stress Tolerance in Arabidopsis |
| Q35352043 | Overexpression of a cotton annexin gene, GhAnn1, enhances drought and salt stress tolerance in transgenic cotton |
| Q48086363 | Overexpression of a protein phosphatase 2C from beech seeds in Arabidopsis shows phenotypes related to abscisic acid responses and gibberellin biosynthesis |
| Q37238216 | Overexpression of an Arabidopsis cysteine-rich receptor-like protein kinase, CRK5, enhances abscisic acid sensitivity and confers drought tolerance |
| Q39013202 | Overexpression of barley hva1 gene in creeping bentgrass for improving drought tolerance. |
| Q39611856 | Overexpression of the Arabidopsis 14-3-3 protein GF14 lambda in cotton leads to a "stay-green" phenotype and improves stress tolerance under moderate drought conditions |
| Q36474914 | Overexpression of the MYB37 transcription factor enhances abscisic acid sensitivity, and improves both drought tolerance and seed productivity in Arabidopsis thaliana |
| Q35915751 | Overexpression of the NDR1/HIN1-Like Gene NHL6 Modifies Seed Germination in Response to Abscisic Acid and Abiotic Stresses in Arabidopsis |
| Q34757123 | POEAS: Automated Plant Phenomic Analysis Using Plant Ontology |
| Q59791435 | Pathways and Network Based Analysis of Candidate Genes to Reveal Cross-Talk and Specificity in the Sorghum ( (L.) Moench) Responses to Drought and It's Co-occurring Stresses |
| Q49151505 | Phosphonamide pyrabactin analogues as abscisic acid agonists. |
| Q31063370 | Physical and functional interaction of the Arabidopsis K(+) channel AKT2 and phosphatase AtPP2CA. |
| Q43698219 | Physical interactions between ABA response loci of Arabidopsis. |
| Q56136135 | Plant ABC Transporters |
| Q46311139 | Plant growth promoting effect of Bacillus amyloliquefaciens H-2-5 on crop plants and influence on physiological changes in soybean under soil salinity. |
| Q43910022 | Plant hormone signaling: getting the message out. |
| Q35545173 | Plant responses to drought, salinity and extreme temperatures: towards genetic engineering for stress tolerance |
| Q30499890 | Plants in a cold climate |
| Q44894567 | Plasma membrane depolarization induced by abscisic acid in Arabidopsis suspension cells involves reduction of proton pumping in addition to anion channel activation, which are both Ca2+ dependent |
| Q44133963 | Plasmalemma abscisic acid perception leads to RAB18 expression via phospholipase D activation in Arabidopsis suspension cells |
| Q43545935 | Pleiotropic morphological and abiotic stress resistance phenotypes of the hyper-abscisic acid producing Abo- mutant in the periwinkle Catharanthus roseus |
| Q46348665 | Powdery mildew resistance conferred by loss of the ENHANCED DISEASE RESISTANCE1 protein kinase is suppressed by a missense mutation in KEEP ON GOING, a regulator of abscisic acid signaling |
| Q56784236 | Prospects for utilising plant-adaptive mechanisms to improve wheat and other crops in drought- and salinity-prone environments |
| Q33366334 | Protein tyrosine kinases and protein tyrosine phosphatases are involved in abscisic acid-dependent processes in Arabidopsis seeds and suspension cells |
| Q44909767 | Proteomic identification of annexins, calcium-dependent membrane binding proteins that mediate osmotic stress and abscisic acid signal transduction in Arabidopsis |
| Q33337461 | PtABI3 impinges on the growth and differentiation of embryonic leaves during bud set in poplar. |
| Q44709072 | Purification and characterization of a barley aleurone abscisic acid-binding protein |
| Q43884446 | Purification and identification of a 42-kilodalton abscisic acid-specific-binding protein from epidermis of broad bean leaves |
| Q43825039 | Quantitative analysis by flow cytometry of abscisic acid-inducible gene expression in transiently transformed rice protoplasts |
| Q35660587 | Rapid and sensitive hormonal profiling of complex plant samples by liquid chromatography coupled to electrospray ionization tandem mass spectrometry. |
| Q46087992 | Reevaluation of abscisic acid-binding assays shows that G-Protein-Coupled Receptor2 does not bind abscisic Acid |
| Q46202817 | Regulation and function of the Arabidopsis ABA-insensitive4 gene in seed and abscisic acid response signaling networks |
| Q44102599 | Regulation and role of the Arabidopsis abscisic acid-insensitive 5 gene in abscisic acid, sugar, and stress response |
| Q52166771 | Regulation of abscisic acid signaling by the ethylene response pathway in Arabidopsis. |
| Q34088871 | Regulation of drought tolerance by gene manipulation of 9-cis-epoxycarotenoid dioxygenase, a key enzyme in abscisic acid biosynthesis in Arabidopsis |
| Q53211462 | Regulation of miR319 during cold stress in sugarcane. |
| Q46407131 | Regulation of phosphoenolpyruvate carboxylase phosphorylation by metabolites and abscisic acid during the development and germination of barley seeds. |
| Q39428544 | Regulation of plant water loss by manipulating the expression of phospholipase Dalpha. |
| Q38899157 | Regulation of the ABA-sensitive Arabidopsis potassium channel gene GORK in response to water stress |
| Q36402785 | Regulatory networks of the phytohormone abscisic acid |
| Q37276316 | Research advances in major cereal crops for adaptation to abiotic stresses |
| Q90271812 | Responses of PYR/PYL/RCAR ABA Receptors to Contrasting stresses, Heat and Cold in Arabidopsis |
| Q39478322 | Role of an Arabidopsis AP2/EREBP-type transcriptional repressor in abscisic acid and drought stress responses |
| Q33268414 | SAGE of the developing wheat caryopsis |
| Q39627938 | SDIR1 is a RING finger E3 ligase that positively regulates stress-responsive abscisic acid signaling in Arabidopsis |
| Q44918288 | Salicylate accumulation inhibits growth at chilling temperature in Arabidopsis |
| Q57600024 | Salicylic acid-mediated changes in photosynthesis, nutrients content and antioxidant metabolism in two mustard (Brassica juncea L.) cultivars differing in salt tolerance |
| Q24599872 | Salt and drought stress signal transduction in plants |
| Q46770649 | Salt resistance is determined by osmotic adjustment and abscisic acid in newly developed maize hybrids in the first phase of salt stress |
| Q35632015 | Sequence and expression variations suggest an adaptive role for the DA1-like gene family in the evolution of soybeans |
| Q34877823 | Silencing SlELP2L, a tomato Elongator complex protein 2-like gene, inhibits leaf growth, accelerates leaf, sepal senescence, and produces dark-green fruit |
| Q47271628 | SlbZIP38, a Tomato bZIP Family Gene Downregulated by Abscisic Acid, Is a Negative Regulator of Drought and Salt Stress Tolerance |
| Q44463095 | Small ubiquitin-like modifier modulates abscisic acid signaling in Arabidopsis. |
| Q24558759 | Solution structure of the B3 DNA binding domain of the Arabidopsis cold-responsive transcription factor RAV1 |
| Q38969159 | Spatial and temporal analysis of the local response to wounding in Arabidopsis leaves. |
| Q38302953 | Stress inducible expression of the DREB1A transcription factor from xeric, Hordeum spontaneum L. in turf and forage grass (Paspalum notatum Flugge) enhances abiotic stress tolerance |
| Q28208360 | Stress memory in plants: a negative regulation of stomatal response and transient induction of rd22 gene to light in abscisic acid‐entrained Arabidopsis plants |
| Q28347989 | Sucrose and light regulation of a cold-inducible UDP-glucose pyrophosphorylase gene via a hexokinase-independent and abscisic acid-insensitive pathway in Arabidopsis |
| Q38097769 | Sucrose non-fermenting 1-related protein kinase 2 (SnRK2): a family of protein kinases involved in hyperosmotic stress signaling |
| Q40618793 | Sugar and abscisic acid signaling orthologs are activated at the onset of ripening in grape |
| Q38980991 | Sugar/osmoticum levels modulate differential abscisic acid-independent expression of two stress-responsive sucrose synthase genes in Arabidopsis |
| Q79408889 | Suppression by ABA of salicylic acid and lignin accumulation and the expression of multiple genes, in Arabidopsis infected with Pseudomonas syringae pv. tomato |
| Q82636658 | Suppression of 9-cis-epoxycarotenoid dioxygenase, which encodes a key enzyme in abscisic acid biosynthesis, alters fruit texture in transgenic tomato |
| Q39119461 | System responses to long-term drought and re-watering of two contrasting alfalfa varieties |
| Q38525777 | Systemic induction of a Phytolacca insularis antiviral protein gene by mechanical wounding, jasmonic acid, and abscisic acid |
| Q39168804 | TOC1 functions as a molecular switch connecting the circadian clock with plant responses to drought |
| Q43408150 | Targeted degradation of abscisic acid receptors is mediated by the ubiquitin ligase substrate adaptor DDA1 in Arabidopsis. |
| Q46833159 | Taxonomically restricted genes of Craterostigma plantagineum are modulated in their expression during dehydration and rehydration. |
| Q43935658 | Temporal and spatial expression pattern of the OSVP1 and OSEM genes during seed development in rice |
| Q44587134 | Temporal progression of gene expression responses to salt shock in maize roots |
| Q32028976 | The ABI1 and ABI2 protein phosphatases 2C act in a negative feedback regulatory loop of the abscisic acid signalling pathway |
| Q28350960 | The Arabidopsis LOS5/ABA3 locus encodes a molybdenum cofactor sulfurase and modulates cold stress- and osmotic stress-responsive gene expression |
| Q36952408 | The Arabidopsis LYST INTERACTING PROTEIN 5 Acts in Regulating Abscisic Acid Signaling and Drought Response |
| Q46087991 | The Arabidopsis RING finger E3 ligase RHA2a is a novel positive regulator of abscisic acid signaling during seed germination and early seedling development |
| Q39175246 | The Arabidopsis RING finger E3 ligase RHA2b acts additively with RHA2a in regulating abscisic acid signaling and drought response |
| Q41729659 | The Arabidopsis abscisic acid response gene ABI5 encodes a basic leucine zipper transcription factor |
| Q42139667 | The Arabidopsis adaptor protein AP-3μ interacts with the G-protein β subunit AGB1 and is involved in abscisic acid regulation of germination and post-germination development |
| Q44499528 | The Arabidopsis cupin domain protein AtPirin1 interacts with the G protein alpha-subunit GPA1 and regulates seed germination and early seedling development |
| Q43057982 | The Arabidopsis mitogen-activated protein kinase phosphatase PP2C5 affects seed germination, stomatal aperture, and abscisic acid-inducible gene expression |
| Q35570134 | The Arabidopsis sn-1-specific mitochondrial acylhydrolase AtDLAH is positively correlated with seed viability |
| Q33343186 | The Arabidopsis tetratricopeptide repeat-containing protein TTL1 is required for osmotic stress responses and abscisic acid sensitivity. |
| Q33339577 | The Arabidopsis thaliana ABSCISIC ACID-INSENSITIVE8 encodes a novel protein mediating abscisic acid and sugar responses essential for growth |
| Q44392177 | The Arabidopsis thaliana homeobox gene ATHB5 is a potential regulator of abscisic acid responsiveness in developing seedlings |
| Q26780149 | The Calcium Sensor CBL-CIPK Is Involved in Plant's Response to Abiotic Stresses |
| Q39022903 | The Craterostigma plantagineum glycine-rich protein CpGRP1 interacts with a cell wall-associated protein kinase 1 (CpWAK1) and accumulates in leaf cell walls during dehydration. |
| Q37471271 | The E-Subgroup Pentatricopeptide Repeat Protein Family in Arabidopsis thaliana and Confirmation of the Responsiveness PPR96 to Abiotic Stresses |
| Q39503831 | The HD-Zip gene ATHB6 in Arabidopsis is expressed in developing leaves, roots and carpels and up-regulated by water deficit conditions |
| Q48084011 | The Mg-chelatase H subunit is an abscisic acid receptor |
| Q46900381 | The RNA-binding protein FCA is an abscisic acid receptor |
| Q35691046 | The SOS3 family of calcium sensors and SOS2 family of protein kinases in Arabidopsis |
| Q90374612 | The Ubiquitin E3 Ligase RHA2b Promotes Degradation of MYB30 in Abscisic Acid Signaling |
| Q44416348 | The abi1‐1 mutation blocks ABA signaling downstream of cADPR action |
| Q38942808 | The ascorbic acid redox state controls guard cell signaling and stomatal movement |
| Q39175282 | The bHLH-type transcription factor AtAIB positively regulates ABA response in Arabidopsis |
| Q38873090 | The bZIP transcription factor OsABF1 is an ABA responsive element binding factor that enhances abiotic stress signaling in rice |
| Q50717638 | The barley ERF-type transcription factor HvRAF confers enhanced pathogen resistance and salt tolerance in Arabidopsis. |
| Q44945526 | The calcium sensor calcineurin B-like 9 modulates abscisic acid sensitivity and biosynthesis in Arabidopsis. |
| Q46431088 | The complex developmental expression of a novel stress-responsive barley Ltp gene is determined by a shortened promoter sequence |
| Q46798993 | The disturbance of small RNA pathways enhanced abscisic acid response and multiple stress responses in Arabidopsis |
| Q28346703 | The effect of exogenous abscisic acid on stomatal development, stomatal mechanics, and leaf gas exchange in Tradescantia virginiana |
| Q52169319 | The expression of small heat shock proteins in seeds responds to discrete developmental signals and suggests a general protective role in desiccation tolerance. |
| Q31029666 | The fasciclin-like arabinogalactan proteins of Arabidopsis. A multigene family of putative cell adhesion molecules |
| Q60400119 | The floral volatile, methyl benzoate, from snapdragon (Antirrhinum majus) triggers phytotoxic effects in Arabidopsis thaliana |
| Q33890599 | The function of OsbHLH068 is partially redundant with its homolog, AtbHLH112, in the regulation of the salt stress response but has opposite functions to control flowering in Arabidopsis. |
| Q93140207 | The fungal sesquiterpenoid pyrenophoric acid B uses the plant ABA biosynthetic pathway to inhibit seed germination |
| Q50275634 | The genetic and physiological analysis of late-flowering phenotype of T-DNA insertion mutants of AtCAL1 and AtCAL2 in Arabidopsis |
| Q36402764 | The genomic view of genes responsive to the antagonistic phytohormones, abscisic acid, and gibberellin |
| Q33355746 | The glutamate carboxypeptidase AMP1 mediates abscisic acid and abiotic stress responses in Arabidopsis |
| Q34933613 | The guard cell as a single-cell model towards understanding drought tolerance and abscisic acid action |
| Q39545846 | The homeodomain-leucine zipper (HD-Zip) class I transcription factors ATHB7 and ATHB12 modulate abscisic acid signalling by regulating protein phosphatase 2C and abscisic acid receptor gene activities. |
| Q33302017 | The involvement of a P38-like MAP kinase in ABA-induced and H2O2-mediated stomatal closure in Vicia faba L. |
| Q45965020 | The magnesium-chelatase H subunit binds abscisic acid and functions in abscisic acid signaling: new evidence in Arabidopsis. |
| Q44936884 | The novel gene CpEdi-9 from the resurrection plant C. plantagineum encodes a hydrophilic protein and is expressed in mature seeds as well as in response to dehydration in leaf phloem tissues |
| Q39417226 | The nuclear interactor PYL8/RCAR3 of Fagus sylvatica FsPP2C1 is a positive regulator of abscisic acid signaling in seeds and stress. |
| Q39179851 | The pepper late embryogenesis abundant protein CaLEA1 acts in regulating abscisic acid signaling, drought and salt stress response |
| Q39140318 | The plant multidrug resistance ABC transporter AtMRP5 is involved in guard cell hormonal signalling and water use. |
| Q40752729 | The possible involvement of a phosphate-induced transcription factor encoded by phi-2 gene from tobacco in ABA-signaling pathways |
| Q38466464 | The regulatory network of ThbZIP1 in response to abscisic acid treatment |
| Q39084686 | The response of mulberry trees after seedling hardening to summer drought in the hydro-fluctuation belt of Three Gorges Reservoir Areas |
| Q38097670 | The rice MAPKK-MAPK interactome: the biological significance of MAPK components in hormone signal transduction |
| Q33950437 | The role of ABA and the transpiration stream in the regulation of the osmotic water permeability of leaf cells |
| Q43663258 | The role of calcium in ABA-induced gene expression and stomatal movements. |
| Q53595551 | The role of reactive oxygen species in hormonal responses. |
| Q28360007 | The salt stress-inducible protein kinase gene, Esi47, from the salt-tolerant wheatgrass Lophopyrum elongatum is involved in plant hormone signaling |
| Q24554257 | The short-chain alcohol dehydrogenase ABA2 catalyzes the conversion of xanthoxin to abscisic aldehyde |
| Q35211886 | The soybean GmDi19-5 interacts with GmLEA3.1 and increases sensitivity of transgenic plants to abiotic stresses |
| Q39016843 | The soybean GmbZIP1 transcription factor enhances multiple abiotic stress tolerances in transgenic plants |
| Q78007955 | The synergistic effects of sugar and abscisic acid on myo-inositol-1-phosphate synthase expression |
| Q44267802 | The transcription factors HvABI5 and HvVP1 are required for the abscisic acid induction of gene expression in barley aleurone cells |
| Q38891919 | The tumor necrosis factor receptor-associated factor (TRAF)-like family protein SEVEN IN ABSENTIA 2 (SINA2) promotes drought tolerance in an ABA-dependent manner in Arabidopsis. |
| Q44582651 | Three genes that affect sugar sensing (abscisic acid insensitive 4, abscisic acid insensitive 5, and constitutive triple response 1) are differentially regulated by glucose in Arabidopsis |
| Q39339230 | Three zinc-finger RNA-binding proteins in cabbage (Brassica rapa) play diverse roles in seed germination and plant growth under normal and abiotic stress conditions |
| Q44256577 | Tomato tos1 mutation identifies a gene essential for osmotic tolerance and abscisic acid sensitivity. |
| Q38973698 | Transcription factor WRKY46 regulates osmotic stress responses and stomatal movement independently in Arabidopsis. |
| Q44776100 | Transcriptional profiling of genes responsive to abscisic acid and gibberellin in rice: phenotyping and comparative analysis between rice and Arabidopsis |
| Q28686915 | Transcriptomic analysis of a tertiary relict plant, extreme xerophyte Reaumuria soongorica to identify genes related to drought adaptation |
| Q39041110 | Trivalent ions activate abscisic acid-inducible promoters through an ABI1-dependent pathway in rice protoplasts |
| Q46962294 | Two calcium-dependent protein kinases, CPK4 and CPK11, regulate abscisic acid signal transduction in Arabidopsis |
| Q39175059 | Two cotton Cys2/His2-type zinc-finger proteins, GhDi19-1 and GhDi19-2, are involved in plant response to salt/drought stress and abscisic acid signaling |
| Q39635027 | Two differentially regulated Arabidopsis genes define a new branch of the DFR superfamily. |
| Q36743750 | Type 2C protein phosphatase ABI1 is a negative regulator of strawberry fruit ripening |
| Q39185596 | UDP-glucosyltransferase71c5, a major glucosyltransferase, mediates abscisic acid homeostasis in Arabidopsis. |
| Q59694195 | Understanding and Improving Salt Tolerance in Plants |
| Q88961625 | Unraveling the induction of phytoene synthase 2 expression by salt stress and abscisic acid in Daucus carota |
| Q39246330 | Use of infrared thermal imaging to isolate Arabidopsis mutants defective in stomatal regulation |
| Q37249784 | Variation in dehydration tolerance, ABA sensitivity and related gene expression patterns in D-genome progenitor and synthetic hexaploid wheat lines |
| Q46304978 | Vivipary as a tool to analyze late embryogenic events in maize |
| Q38316541 | Water deficit triggers phospholipase D activity in the resurrection plant Craterostigma plantagineum |
| Q36190365 | β-Aminobutyric acid increases abscisic acid accumulation and desiccation tolerance and decreases water use but fails to improve grain yield in two spring wheat cultivars under soil drying |
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