| scholarly article | Q13442814 |
| P2093 | author name string | P McCourt | |
| Y Kamiya | |||
| H Kawaide | |||
| S Cutler | |||
| E Nambara | |||
| M Ghassemian | |||
| P2860 | cites work | GUS fusions: beta-glucuronidase as a sensitive and versatile gene fusion marker in higher plants | Q24555861 |
| The ethylene-receptor family from Arabidopsis: structure and function. | Q34067834 | ||
| EIR1, a root-specific protein involved in auxin transport, is required for gravitropism in Arabidopsis thaliana | Q35205989 | ||
| Ethylene can stimulate Arabidopsis hypocotyl elongation in the light | Q36056498 | ||
| Glucose and ethylene signal transduction crosstalk revealed by an Arabidopsis glucose-insensitive mutant | Q36292519 | ||
| Growth substances in context: a decade of sensitivity | Q36336804 | ||
| Histidine kinase activity of the ETR1 ethylene receptor from Arabidopsis | Q36513916 | ||
| Assignment of 30 microsatellite loci to the linkage map of Arabidopsis | Q36750590 | ||
| A small-scale procedure for the rapid isolation of plant RNAs. | Q40448262 | ||
| Molecular identification of zeaxanthin epoxidase of Nicotiana plumbaginifolia, a gene involved in abscisic acid biosynthesis and corresponding to the ABA locus of Arabidopsis thaliana. | Q41064973 | ||
| A dominant mutation in Arabidopsis confers resistance to auxin, ethylene and abscisic acid | Q41774900 | ||
| Physiology of Oil Seeds: IV. Role of Endogenous Ethylene and Inhibitory Regulators during Natural and Induced Afterripening of Dormant Virginia-type Peanut Seeds. | Q45935365 | ||
| Ethylene responses are negatively regulated by a receptor gene family in Arabidopsis thaliana | Q47720727 | ||
| EIN2, a bifunctional transducer of ethylene and stress responses in Arabidopsis | Q47952990 | ||
| ABSCISIC ACID SIGNAL TRANSDUCTION. | Q47974202 | ||
| A protein farnesyl transferase involved in abscisic acid signal transduction in Arabidopsis | Q48060931 | ||
| CTR1, a negative regulator of the ethylene response pathway in Arabidopsis, encodes a member of the raf family of protein kinases | Q48133418 | ||
| Insensitivity to Ethylene Conferred by a Dominant Mutation in Arabidopsis thaliana. | Q52250573 | ||
| Induction of dormancy during seed development by endogenous abscisic acid: studies on abscisic acid deficient genotypes of Arabidopsis thaliana (L.) Heynh. | Q52282138 | ||
| The sax1 dwarf mutant of Arabidopsis thaliana shows altered sensitivity of growth responses to abscisic acid, auxin, gibberellins and ethylene and is partially rescued by exogenous brassinosteroid. | Q54091448 | ||
| Cytokinin action is coupled to ethylene in its effects on the inhibition of root and hypocotyl elongation in Arabidopsis thaliana seedlings. | Q54175985 | ||
| The aux1 Mutation of Arabidopsis Confers Both Auxin and Ethylene Resistance. | Q54312040 | ||
| Interactions between Abscisic Acid and Ethylene Signaling Cascades | Q62989612 | ||
| Sterile techniques in Arabidopsis | Q74778177 | ||
| Characterization of an Arabidopsis thaliana mutant that has a defect in ABA accumulation: ABA-dependent and ABA-independent accumulation of free amino acids during dehydration | Q77460179 | ||
| Concomitant activation of jasmonate and ethylene response pathways is required for induction of a plant defensin gene in Arabidopsis | Q77629090 | ||
| The ethylene gas signal transduction pathway: a molecular perspective | Q77936226 | ||
| Deepwater rice: A model plant to study stem elongation | Q95442425 | ||
| P433 | issue | 7 | |
| P304 | page(s) | 1117-1126 | |
| P577 | publication date | 2000-07-01 | |
| P1433 | published in | The Plant Cell | Q3988745 |
| P1476 | title | Regulation of abscisic acid signaling by the ethylene response pathway in Arabidopsis. | |
| P478 | volume | 12 |
| Q35916246 | A Co-Opted Hormonal Cascade Activates Dormant Adventitious Root Primordia upon Flooding in Solanum dulcamara |
| Q33208277 | A WRKY gene from creosote bush encodes an activator of the abscisic acid signaling pathway |
| Q37962690 | A brand new START: abscisic acid perception and transduction in the guard cell |
| Q38978390 | A homolog of ETHYLENE OVERPRODUCER, OsETOL1, differentially modulates drought and submergence tolerance in rice |
| Q38305153 | A mutation in the Arabidopsis HYL1 gene encoding a dsRNA binding protein affects responses to abscisic acid, auxin, and cytokinin |
| Q34615494 | A screen for genes that function in abscisic acid signaling in Arabidopsis thaliana. |
| Q45308581 | A soybean dual-specificity kinase, GmSARK, and its Arabidopsis homolog, AtSARK, regulate leaf senescence through synergistic actions of auxin and ethylene |
| Q44205930 | A unique short-chain dehydrogenase/reductase in Arabidopsis glucose signaling and abscisic acid biosynthesis and functions. |
| Q34491494 | ABA and sugar interactions regulating development: cross-talk or voices in a crowd? |
| Q36715219 | ABA crosstalk with ethylene and nitric oxide in seed dormancy and germination |
| Q43457196 | ABA inhibits entry into stomatal-lineage development in Arabidopsis leaves |
| Q42512321 | ABA signalling manipulation suppresses senescence of a leafy vegetable stored at room temperature |
| Q39518256 | ABA-dependent inhibition of the ubiquitin proteasome system during germination at high temperature in Arabidopsis |
| Q33843283 | Abscisic Acid Regulates Auxin Homeostasis in Rice Root Tips to Promote Root Hair Elongation |
| Q35625690 | Abscisic Acid biosynthesis and response |
| Q24597773 | Abscisic Acid synthesis and response |
| Q33363062 | Abscisic Acid: Hidden Architect of Root System Structure |
| Q33359820 | Abscisic acid (ABA) regulates grape bud dormancy, and dormancy release stimuli may act through modification of ABA metabolism |
| Q79984103 | Abscisic acid and ethylene interact in wheat grains in response to soil drying during grain filling |
| Q79422221 | Abscisic acid antagonizes ethylene-induced hyponastic growth in Arabidopsis |
| Q44205921 | Abscisic acid biosynthesis gene underscores the complexity of sugar, stress, and hormone interactions |
| Q50467129 | Abscisic acid determines arbuscule development and functionality in the tomato arbuscular mycorrhiza. |
| Q54359581 | Abscisic acid inhibits root growth in Arabidopsis through ethylene biosynthesis. |
| Q46770334 | Abscisic acid regulates TSRF1-mediated resistance to Ralstonia solanacearum by modifying the expression of GCC box-containing genes in tobacco |
| Q35683663 | Abscisic acid regulates root elongation through the activities of auxin and ethylene in Arabidopsis thaliana. |
| Q33362607 | Abscisic acid regulates root growth under osmotic stress conditions via an interacting hormonal network with cytokinin, ethylene and auxin |
| Q43295248 | Abscisic acid represses growth of the Arabidopsis embryonic axis after germination by enhancing auxin signaling |
| Q33343622 | Abscisic acid rescues the root meristem defects of the Medicago truncatula latd mutant |
| Q34667500 | Abscisic acid signaling in seeds and seedlings. |
| Q43174692 | Abscisic acid-induced resistance against the brown spot pathogen Cochliobolus miyabeanus in rice involves MAP kinase-mediated repression of ethylene signaling |
| Q38947057 | Abscisic acid-inducible nuclear proteins bind to bipartite promoter elements required for ABA response and embryo-regulated expression of the carrot Dc3 gene |
| Q43143092 | After-ripening alters the gene expression pattern of oxidases involved in the ethylene and gibberellin pathways during early imbibition of Sisymbrium officinale L. seeds |
| Q41901339 | After-ripening induced transcriptional changes of hormonal genes in wheat seeds: the cases of brassinosteroids, ethylene, cytokinin and salicylic acid |
| Q38297398 | An mRNA cap binding protein, ABH1, modulates early abscisic acid signal transduction in Arabidopsis |
| Q37276993 | Antagonism between abscisic acid and ethylene in Arabidopsis acts in parallel with the reciprocal regulation of their metabolism and signaling pathways |
| Q38874619 | Antagonistic interaction between abscisic acid and jasmonate-ethylene signaling pathways modulates defense gene expression and disease resistance in Arabidopsis |
| Q90705323 | Apocarotenoids Involved in Plant Development and Stress Response |
| Q57789341 | Arabidopsis ACC Oxidase 1 Coordinated by Multiple Signals Mediates Ethylene Biosynthesis and Is Involved in Root Development |
| Q34632226 | Arabidopsis EIN2 modulates stress response through abscisic acid response pathway |
| Q44912117 | Arabidopsis ERF4 is a transcriptional repressor capable of modulating ethylene and abscisic acid responses |
| Q44945515 | Arabidopsis RADICAL-INDUCED CELL DEATH1 belongs to the WWE protein-protein interaction domain protein family and modulates abscisic acid, ethylene, and methyl jasmonate responses |
| Q43050611 | Arabidopsis RING E3 ligase XBAT32 regulates lateral root production through its role in ethylene biosynthesis |
| Q39119343 | Arabidopsis basic leucine zipper proteins that mediate stress-responsive abscisic acid signaling |
| Q46935053 | Arabidopsis nudix hydrolase 7 plays a role in seed germination |
| Q45262904 | Arabidopsis paired amphipathic helix proteins SNL1 and SNL2 redundantly regulate primary seed dormancy via abscisic acid-ethylene antagonism mediated by histone deacetylation |
| Q64295126 | Ascorbic Acid Integrates the Antagonistic Modulation of Ethylene and Abscisic Acid in the Accumulation of Reactive Oxygen Species |
| Q60912232 | Associating transcriptional regulation for rapid germination of rapeseed (Brassica napus L.) under low temperature stress through weighted gene co-expression network analysis |
| Q33967972 | Auxin Response Factor2 (ARF2) and its regulated homeodomain gene HB33 mediate abscisic acid response in Arabidopsis |
| Q28350975 | BIN2, a new brassinosteroid-insensitive locus in Arabidopsis |
| Q37951745 | Beyond gibberellins and abscisic acid: how ethylene and jasmonates control seed germination. |
| Q79680759 | Breaking the apple embryo dormancy by nitric oxide involves the stimulation of ethylene production |
| Q34225218 | Carbon and nitrogen sensing and signaling in plants: emerging 'matrix effects'. |
| Q44699073 | Characterization of mutants in Arabidopsis showing increased sugar-specific gene expression, growth, and developmental responses |
| Q60915800 | Chloroplasts at the Crossroad of Photosynthesis, Pathogen Infection and Plant Defense |
| Q38485826 | Chromium stress response effect on signal transduction and expression of signaling genes in rice |
| Q44582660 | Class I chitinase and beta-1,3-glucanase are differentially regulated by wounding, methyl jasmonate, ethylene, and gibberellin in tomato seeds and leaves. |
| Q35554615 | Columnar apple primary roots share some features of the columnar-specific gene expression profile of aerial plant parts as evidenced by RNA-Seq analysis |
| Q60936667 | Comparative Transcriptomic and Physiological Analyses of L. Indicates that Multiple Regulatory Networks Are Activated during Continuous ABA Treatment |
| Q42854091 | Comprehensive hormone profiling in developing Arabidopsis seeds: examination of the site of ABA biosynthesis, ABA transport and hormone interactions |
| Q36641332 | Concurrent profiling of indole-3-acetic acid, abscisic acid, and cytokinins and structurally related purines by high-performance-liquid-chromatography tandem electrospray mass spectrometry. |
| Q89796725 | Copper ions suppress abscisic acid biosynthesis to enhance defence against Phytophthora infestans in potato |
| Q89683219 | Coupling of Cell Division and Differentiation in Arabidopsis thaliana Cultured Cells with Interaction of Ethylene and ABA Signaling Pathways |
| Q33518668 | Cross-species approaches to seed dormancy and germination: conservation and biodiversity of ABA-regulated mechanisms and the Brassicaceae DOG1 genes |
| Q34727798 | Cross-talk in abscisic acid signaling |
| Q35114625 | Cross-talk in plant hormone signalling: what Arabidopsis mutants are telling us |
| Q45129437 | Crosstalk between salicylic acid and jasmonate in Arabidopsis investigated by an integrated proteomic and transcriptomic approach |
| Q35946728 | De novo analysis of transcriptome reveals genes associated with leaf abscission in sugarcane (Saccharum officinarum L.). |
| Q38521701 | Disruption of a guard cell-expressed protein phosphatase 2A regulatory subunit, RCN1, confers abscisic acid insensitivity in Arabidopsis. |
| Q42911292 | Dormancy removal in apple embryos by nitric oxide or cyanide involves modifications in ethylene biosynthetic pathway. |
| Q42164250 | Downstream divergence of the ethylene signaling pathway for harpin-stimulated Arabidopsis growth and insect defense. |
| Q38941351 | Drought-Up-Regulated TaNAC69-1 is a Transcriptional Repressor of TaSHY2 and TaIAA7, and Enhances Root Length and Biomass in Wheat |
| Q64064678 | ETR1/RDO3 Regulates Seed Dormancy by Relieving the Inhibitory Effect of the ERF12-TPL Complex on Expression |
| Q43412141 | Effect of light on the gene expression and hormonal status of winter and spring wheat plants during cold hardening |
| Q34152789 | Effects of abscisic acid, ethylene and sugars on the mobilization of storage proteins and carbohydrates in seeds of the tropical tree Sesbania virgata (Leguminosae). |
| Q34984072 | Effects of abscisic acid, gibberellin, ethylene and their interactions on production of phenolic acids in salvia miltiorrhiza bunge hairy roots |
| Q44502231 | Effects of ethylene and abscisic acid upon heterophylly in Ludwigia arcuata (Onagraceae). |
| Q24614710 | Endodermal ABA signaling promotes lateral root quiescence during salt stress in Arabidopsis seedlings |
| Q38344611 | Environmental, developmental, and genetic factors controlling root system architecture |
| Q46709504 | Epidermal cell death in rice is regulated by ethylene, gibberellin, and abscisic acid |
| Q35625622 | Ethylene |
| Q47381491 | Ethylene Receptors Signal via a Noncanonical Pathway to Regulate Abscisic Acid Responses |
| Q26800287 | Ethylene and Hormonal Cross Talk in Vegetative Growth and Development |
| Q24553333 | Ethylene biosynthesis and signaling networks |
| Q28298539 | Ethylene biosynthesis and signaling: an overview |
| Q39509069 | Ethylene inhibits abscisic acid-induced stomatal closure in Arabidopsis |
| Q53971856 | Ethylene insensitivity results in down-regulation of rubisco expression and photosynthetic capacity in tobacco. |
| Q43214461 | Ethylene interacts with abscisic acid to regulate endosperm rupture during germination: a comparative approach using Lepidium sativum and Arabidopsis thaliana |
| Q44008095 | Ethylene limits abscisic acid- or soil drying-induced stomatal closure in aged wheat leaves |
| Q48614004 | Ethylene modulates root-wave responses in Arabidopsis |
| Q50702465 | Ethylene promotes submergence-induced expression of OsABA8ox1, a gene that encodes ABA 8'-hydroxylase in rice. |
| Q92224292 | Ethylene regulates post-germination seedling growth in wheat through spatial and temporal modulation of ABA/GA balance |
| Q50593267 | Ethylene responses in rice roots and coleoptiles are differentially regulated by a carotenoid isomerase-mediated abscisic acid pathway. |
| Q34053511 | Ethylene signaling: from mutants to molecules. |
| Q30427767 | Ethylene, a key factor in the regulation of seed dormancy. |
| Q54392850 | Ethylene-dependent/ethylene-independent ABA regulation of tomato plants colonized by arbuscular mycorrhiza fungi. |
| Q34350925 | Ethylene-induced inhibition of root growth requires abscisic acid function in rice (Oryza sativa L.) seedlings |
| Q39627489 | Expressing TERF1 in tobacco enhances drought tolerance and abscisic acid sensitivity during seedling development |
| Q45943295 | Expression analysis and functional characterization of a novel cold-responsive gene CbCOR15a from Capsella bursa-pastoris. |
| Q38879153 | Expression of the Arabidopsis mutant ABI1 gene alters abscisic acid sensitivity, stomatal development, and growth morphology in gray poplars |
| Q42272568 | Expression of the ethylene biosynthetic machinery in maize roots is regulated in response to hypoxia |
| Q46505347 | Expression of the ethylene response factor gene TSRF1 enhances abscisic acid responses during seedling development in tobacco |
| Q28345353 | FIERY1 encoding an inositol polyphosphate 1-phosphatase is a negative regulator of abscisic acid and stress signaling in Arabidopsis |
| Q53600467 | G-protein complex mutants are hypersensitive to abscisic acid regulation of germination and postgermination development. |
| 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 |
| Q48138250 | Gene expression analyses in tomato near isogenic lines provide evidence for ethylene and abscisic acid biosynthesis fine-tuning during arbuscular mycorrhiza development |
| Q39193309 | Gene expression profiling of ozone-treated Arabidopsis abi1td insertional mutant: protein phosphatase 2C ABI1 modulates biosynthesis ratio of ABA and ethylene. |
| Q33347527 | Gene-expression profiling of grape bud response to two alternative dormancy-release stimuli expose possible links between impaired mitochondrial activity, hypoxia, ethylene-ABA interplay and cell enlargement |
| Q43766406 | Genetic Variation for Thermotolerance in Lettuce Seed Germination Is Associated with Temperature-Sensitive Regulation of ETHYLENE RESPONSE FACTOR1 (ERF1). |
| Q35036760 | Genetic approaches to understanding sugar-response pathways |
| Q34399348 | Genetic interactions between ABA, ethylene and sugar signaling pathways |
| Q46138636 | Genetic variation for lettuce seed thermoinhibition is associated with temperature-sensitive expression of abscisic Acid, gibberellin, and ethylene biosynthesis, metabolism, and response genes |
| Q44992503 | Global transcription profiling reveals multiple sugar signal transduction mechanisms in Arabidopsis |
| Q44675442 | Glucose delays seed germination in Arabidopsis thaliana |
| Q24645375 | Glucosinolate metabolites required for an Arabidopsis innate immune response |
| Q41454848 | H2O2 mediates the regulation of ABA catabolism and GA biosynthesis in Arabidopsis seed dormancy and germination. |
| Q58782669 | High-density genetic map construction and quantitative trait loci analysis of the stony hard phenotype in peach based on restriction-site associated DNA sequencing |
| Q38204740 | Hormonal crosstalk for root development: a combined experimental and modeling perspective |
| Q33346056 | Hormone interactions at the root apical meristem. |
| Q33354454 | Hormone symphony during root growth and development |
| Q43278886 | Hormone- and light-mediated regulation of heat-induced differential petiole growth in Arabidopsis |
| Q35917517 | Hormones are in the air. |
| Q37514917 | How ethylene works in the reproductive organs of higher plants: a signaling update from the third millennium |
| Q44065042 | Hypersensitivity of abscisic acid-induced cytosolic calcium increases in the Arabidopsis farnesyltransferase mutant era1-2. |
| Q41978432 | Increased ABA sensitivity results in higher seed dormancy in soft white spring wheat cultivar 'Zak'. |
| Q36523000 | Integration of abscisic acid signalling into plant responses |
| Q38968753 | Interaction between sugar and abscisic acid signalling during early seedling development in Arabidopsis |
| Q42913054 | Interactions between ethylene, abscisic acid and cytokinin during germination and seedling establishment in Arabidopsis |
| Q46701713 | Interactions between ethylene, gibberellin and abscisic acid regulate emergence and growth rate of adventitious roots in deepwater rice |
| Q21146414 | Interdependency of brassinosteroid and auxin signaling in Arabidopsis |
| Q45163121 | Isolation and characterization of novel mutants affecting the abscisic acid sensitivity of Arabidopsis germination and seedling growth |
| Q51978036 | Isolation and characterization of shs1, a sugar-hypersensitive and ABA-insensitive mutant with multiple stress responses. |
| Q33359881 | Leaf responses to mild drought stress in natural variants of Arabidopsis |
| Q42250921 | MBF1s regulate ABA-dependent germination of Arabidopsis seeds |
| Q43818372 | Maize VP1 complements Arabidopsis abi3 and confers a novel ABA/auxin interaction in roots |
| Q80044732 | Mapping diploid wheat homologues of Arabidopsis seed ABA signaling genes and QTLs for seed dormancy |
| Q44511184 | Mechanisms of glucose signaling during germination of Arabidopsis |
| Q39633316 | Mild salinity stimulates a stress-induced morphogenic response in Arabidopsis thaliana roots |
| Q49331504 | New insights into the metabolism of aspartate-family amino acids in plant seeds |
| Q73409073 | New interactions between classical plant hormones |
| Q73305774 | New ways for old genes |
| Q34816474 | Novel connections and gaps in ethylene signaling from the ER membrane to the nucleus |
| Q64277370 | Overexpression of Improves Melatonin Production and Enhances Drought Tolerance in Transgenic |
| Q39005737 | Overexpression of oligouridylate binding protein 1b results in ABA hypersensitivity. |
| Q44545740 | Overproduction of cytokinins in petunia flowers transformed with P(SAG12)-IPT delays corolla senescence and decreases sensitivity to ethylene |
| Q42085389 | Oxidative signaling in seed germination and dormancy |
| Q83389867 | Photomorphogenesis |
| Q58544178 | Plant Hormone Signaling Crosstalks between Biotic and Abiotic Stress Responses |
| Q38014014 | Plant hormone interactions: innovative targets for crop breeding and management |
| Q37461647 | Plant stress surveillance monitored by ABA and disease signaling interactions |
| Q44205940 | Plasma membrane-associated ROP10 small GTPase is a specific negative regulator of abscisic acid responses in Arabidopsis |
| 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 |
| Q44571368 | Proanthocyanidins inhibit seed germination by maintaining a high level of abscisic acid in Arabidopsis thaliana. |
| Q39218608 | Proteomes and Ubiquitylomes Analysis Reveals the Involvement of Ubiquitination in Protein Degradation in Petunias. |
| Q35183878 | Reactive oxygen species and hormonal control of cell death |
| Q35217328 | Regulation of abscisic acid biosynthesis. |
| Q33354672 | Regulation of soybean seed germination through ethylene production in response to reactive oxygen species |
| Q36973302 | Responses of root architecture development to low phosphorus availability: a review |
| Q59808896 | Revisiting the Role of Ethylene and N-End Rule Pathway on Chilling-Induced Dormancy Release in Arabidopsis Seeds |
| Q38288101 | Role of a heterotrimeric G protein in regulation of Arabidopsis seed germination |
| Q38249131 | Roles of plant hormones in the regulation of host-virus interactions. |
| Q41852525 | Root and shoot gas exchange respond additively to moderate ozone and methyl jasmonate without induction of ethylene: ethylene is induced at higher O3 concentrations |
| Q48245597 | Salt Stress and Ethylene Antagonistically Regulate Nucleocytoplasmic Partitioning of COP1 to Control Seed Germination. |
| Q29395151 | Salt Tolerance |
| Q41809646 | Seed dormancy and ABA signaling: the breakthrough goes on. |
| Q34491502 | Seed dormancy and germination |
| Q83389925 | Seed dormancy and germination |
| Q38466981 | Sequencing, assembly, annotation, and gene expression: novel insights into the hormonal control of carrot root development revealed by a high-throughput transcriptome |
| Q57015917 | Signal processing and transduction in plant cells: the end of the beginning? |
| Q47557398 | Single-Cell Genomic Analysis in Plants. |
| Q39931891 | Sugar sensing and signaling |
| Q34667530 | Sugar sensing and signaling in plants |
| Q38976032 | The ABI2-dependent abscisic acid signalling controls HrpN-induced drought tolerance in Arabidopsis |
| Q48058229 | The Arabidopsis C2H2 zinc finger INDETERMINATE DOMAIN1/ENHYDROUS promotes the transition to germination by regulating light and hormonal signaling during seed maturation. |
| Q46925211 | The Arabidopsis cax3 mutants display altered salt tolerance, pH sensitivity and reduced plasma membrane H+-ATPase activity. |
| Q42489662 | The Arabidopsis mitochondria-localized pentatricopeptide repeat protein PGN functions in defense against necrotrophic fungi and abiotic stress tolerance |
| Q44367278 | The Arabidopsis mutant alh1 illustrates a cross talk between ethylene and auxin. |
| 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 |
| Q41547411 | The Biphasic Root Growth Response to Abscisic Acid in Arabidopsis Involves Interaction with Ethylene and Auxin Signalling Pathways. |
| Q92239700 | The Coordination of Ethylene and Other Hormones in Primary Root Development |
| Q87858219 | The Ethylene Receptors ETHYLENE RESPONSE1 and ETHYLENE RESPONSE2 Have Contrasting Roles in Seed Germination of Arabidopsis during Salt Stress |
| Q38470247 | The MaASR gene as a crucial component in multiple drought stress response pathways in Arabidopsis |
| Q48091088 | The Role of ENHANCED RESPONSES TO ABA1 (ERA1) in Arabidopsis Stomatal Responses Is Beyond ABA Signaling |
| Q44870895 | The Triple Response Assay and Its Use to Characterize Ethylene Mutants in Arabidopsis. |
| Q34164157 | The embryonic leaf identity gene FUSCA3 regulates vegetative phase transitions by negatively modulating ethylene-regulated gene expression in Arabidopsis |
| Q34467835 | The ethylene pathway: a paradigm for plant hormone signaling and interaction |
| Q39178089 | The ethylene response factor AtERF11 that is transcriptionally modulated by the bZIP transcription factor HY5 is a crucial repressor for ethylene biosynthesis in Arabidopsis |
| Q52601135 | The ethylene signaling pathway has a negative impact on sucrose-induced anthocyanin accumulation in Arabidopsis. |
| Q39417226 | The nuclear interactor PYL8/RCAR3 of Fagus sylvatica FsPP2C1 is a positive regulator of abscisic acid signaling in seeds and stress. |
| Q42941288 | The plant-specific SR45 protein negatively regulates glucose and ABA signaling during early seedling development in Arabidopsis |
| Q33229795 | The protein phosphatase AtPP2CA negatively regulates abscisic acid signal transduction in Arabidopsis, and effects of abh1 on AtPP2CA mRNA. |
| Q35896895 | The reciprocal regulation of abscisic acid and ethylene biosyntheses |
| Q46862111 | The reductase activity of the Arabidopsis caleosin RESPONSIVE TO DESSICATION20 mediates gibberellin-dependent flowering time, abscisic acid sensitivity, and tolerance to oxidative stress. |
| Q38846226 | The regulatory roles of ethylene and reactive oxygen species (ROS) in plant salt stress responses |
| Q37080020 | The role of phytohormone signaling in ozone-induced cell death in plants |
| Q46129045 | The short-rooted phenotype of the brevis radix mutant partly reflects root abscisic acid hypersensitivity. |
| Q84615026 | The time required for dormancy release in Arabidopsis is determined by DELAY OF GERMINATION1 protein levels in freshly harvested seeds |
| Q46372564 | Thermoinhibition uncovers a role for strigolactones in Arabidopsis seed germination |
| Q50541635 | Thirty-seven transcription factor genes differentially respond to a harpin protein and affect resistance to the green peach aphid 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 |
| Q34616293 | Three redundant brassinosteroid early response genes encode putative bHLH transcription factors required for normal growth |
| Q44256577 | Tomato tos1 mutation identifies a gene essential for osmotic tolerance and abscisic acid sensitivity. |
| Q38962680 | Towards the identification of new genes involved in ABA-dependent abiotic stresses using Arabidopsis suppressor mutants of abh1 hypersensitivity to ABA during seed germination |
| Q44579784 | Transcriptional activator TSRF1 reversely regulates pathogen resistance and osmotic stress tolerance in tobacco |
| Q46100211 | Transcriptional regulation of the ethylene response factor LeERF2 in the expression of ethylene biosynthesis genes controls ethylene production in tomato and tobacco |
| Q33376955 | Transcriptome analysis of proliferating Arabidopsis endosperm reveals biological implications for the control of syncytial division, cytokinin signaling, and gene expression regulation |
| Q38319328 | Transcriptome analysis reveals specific modulation of abscisic acid signaling by ROP10 small GTPase in Arabidopsis |
| Q57092550 | Transcriptome profiling provides insights into dormancy release during cold storage of Lilium pumilum |
| Q45091410 | Uncoupling the effects of abscisic acid on plant growth and water relations. Analysis of sto1/nced3, an abscisic acid-deficient but salt stress-tolerant mutant in Arabidopsis |
| Q44606635 | Vascularization, high-volume solution flow, and localized roles for enzymes of sucrose metabolism during tumorigenesis by Agrobacterium tumefaciens |
| Q44511220 | Viviparous1 alters global gene expression patterns through regulation of abscisic acid signaling |
| Q36884007 | WRKY8 transcription factor functions in the TMV-cg defense response by mediating both abscisic acid and ethylene signaling in Arabidopsis |
| Q43034650 | Wheat ABA-insensitive mutants result in reduced grain dormancy |
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