| P50 | author | Kenji Miura | Q56885763 |
| | Yasuomi Tada | Q43228038 |
| P2093 | author name string | Yasuomi Tada | |
| | Kenji Miura | |
| P2860 | cites work | Co-synergism of endophyte Penicillium resedanum LK6 with salicylic acid helped Capsicum annuum in biomass recovery and osmotic stress mitigation | Q21263097 |
| | Isochorismate synthase is required to synthesize salicylic acid for plant defence | Q28209340 |
| | Transcript levels of tandem-arranged alternative oxidase genes in rice are increased by low temperature | Q28258686 |
| | Evidence for a role of salicylic acid in the oxidative damage generated by NaCl and osmotic stress in Arabidopsis seedlings | Q28344189 |
| | Structural genes for salicylate biosynthesis from chorismate in Pseudomonas aeruginosa | Q28492949 |
| | Changes in cytosolic pH and calcium of guard cells precede stomatal movements | Q28775854 |
| | Oxidative stress, antioxidants and stress tolerance | Q29617617 |
| | Analysis of the pmsCEAB gene cluster involved in biosynthesis of salicylic acid and the siderophore pseudomonine in the biocontrol strain Pseudomonas fluorescens WCS374. | Q30655737 |
| | The AtGenExpress global stress expression data set: protocols, evaluation and model data analysis of UV-B light, drought and cold stress responses. | Q31106427 |
| | A genomic approach to identify regulatory nodes in the transcriptional network of systemic acquired resistance in plants | Q33263250 |
| | The MYB96 transcription factor mediates abscisic acid signaling during drought stress response in Arabidopsis | Q33347449 |
| | Abscisic acid-induced stomatal closure mediated by cyclic ADP-ribose | Q33617364 |
| | Inhibition of ascorbate peroxidase by salicylic acid and 2,6-dichloroisonicotinic acid, two inducers of plant defense responses | Q33772833 |
| | Structural and biochemical studies identify tobacco SABP2 as a methyl salicylate esterase and implicate it in plant innate immunity | Q33819850 |
| | The Arabidopsis SUMO E3 ligase SIZ1 controls phosphate deficiency responses. | Q33836286 |
| | Functional analysis of oxidative stress-activated mitogen-activated protein kinase cascade in plants | Q33893345 |
| | Arabidopsis map kinase 4 negatively regulates systemic acquired resistance. | Q33932105 |
| | Two inducers of plant defense responses, 2,6-dichloroisonicotinec acid and salicylic acid, inhibit catalase activity in tobacco. | Q34031111 |
| | Mitogen-activated protein kinase signaling in plants | Q34113621 |
| | Arabidopsis signal transduction mutant defective in chemically and biologically induced disease resistance | Q34143640 |
| | The tobacco salicylic acid-binding protein 3 (SABP3) is the chloroplast carbonic anhydrase, which exhibits antioxidant activity and plays a role in the hypersensitive defense response. | Q34153931 |
| | Calmodulin-binding protein CBP60g is a positive regulator of both disease resistance and drought tolerance in Arabidopsis | Q34216145 |
| | Overexpression of multiple dehydrin genes enhances tolerance to freezing stress in Arabidopsis | Q34346893 |
| | Proteomics reveals the effects of salicylic acid on growth and tolerance to subsequent drought stress in wheat | Q34458315 |
| | NDP kinase 2 interacts with two oxidative stress-activated MAPKs to regulate cellular redox state and enhances multiple stress tolerance in transgenic plants. | Q34468483 |
| | Systemic acquired resistance. | Q34549706 |
| | Plant stomata function in innate immunity against bacterial invasion | Q34564415 |
| | Defense-related transcription factors WRKY70 and WRKY54 modulate osmotic stress tolerance by regulating stomatal aperture in Arabidopsis. | Q34823355 |
| | The role of stomata in sensing and driving environmental change | Q35204084 |
| | Salicylic Acid biosynthesis and metabolism | Q35710881 |
| | ICE1: a regulator of cold-induced transcriptome and freezing tolerance in Arabidopsis | Q35964795 |
| | Tocopherol is the scavenger of singlet oxygen produced by the triplet states of chlorophyll in the PSII reaction centre | Q36484206 |
| | Roles for Arabidopsis CAMTA transcription factors in cold-regulated gene expression and freezing tolerance | Q44806341 |
| | Cytoplasmic alkalization precedes reactive oxygen species production during methyl jasmonate- and abscisic acid-induced stomatal closure | Q44830278 |
| | Salicylate accumulation inhibits growth at chilling temperature in Arabidopsis | Q44918288 |
| | Involvement of MPK4 in osmotic stress response pathways in cell suspensions and plantlets of Arabidopsis thaliana: activation by hypoosmolarity and negative role in hyperosmolarity tolerance | Q45052626 |
| | Stress hormone-independent activation and nuclear translocation of mitogen-activated protein kinases in Arabidopsis thaliana during ozone exposure | Q45120662 |
| | Alterations in tocopherol cyclase activity in transgenic and mutant plants of Arabidopsis affect tocopherol content, tocopherol composition, and oxidative stress. | Q45234546 |
| | Temperature-Dependent Induction of Salicylic Acid and Its Conjugates during the Resistance Response to Tobacco Mosaic Virus Infection | Q45730709 |
| | Pathway of Salicylic Acid Biosynthesis in Healthy and Virus-Inoculated Tobacco. | Q45730932 |
| | Roles of CAMTA transcription factors and salicylic acid in configuring the low-temperature transcriptome and freezing tolerance of Arabidopsis | Q45837932 |
| | DEAR1, a transcriptional repressor of DREB protein that mediates plant defense and freezing stress responses in Arabidopsis. | Q45925297 |
| | Lack of salicylic acid in Arabidopsis protects plants against moderate salt stress. | Q45969124 |
| | Salicylic acid alleviates NaCl-induced changes in the metabolism of Matricaria chamomilla plants. | Q46043107 |
| | Salicylic acid improves acclimation to salt stress by stimulating abscisic aldehyde oxidase activity and abscisic acid accumulation, and increases Na+ content in leaves without toxicity symptoms in Solanum lycopersicum L. | Q46137546 |
| | Involvement of phospholipase D in the low temperature acclimation-induced thermotolerance in grape berry | Q46166203 |
| | Ca(2+)/calmodulin regulates salicylic-acid-mediated plant immunity | Q46175537 |
| | Voltage-dependent K+ channels as targets of osmosensing in guard cells | Q46242794 |
| | Salicylic acid improves the salinity tolerance of Medicago sativa in symbiosis with Sinorhizobium meliloti by preventing nitrogen fixation inhibition. | Q46259104 |
| | Roles of RCN1, regulatory A subunit of protein phosphatase 2A, in methyl jasmonate signaling and signal crosstalk between methyl jasmonate and abscisic acid | Q46466726 |
| | Salicylic acid accumulation under O3 exposure is regulated by ethylene in tobacco plants | Q46471254 |
| | Chilling tolerance of maize, cucumber and rice seedling leaves and roots are differentially affected by salicylic acid | Q46689455 |
| | Salicylic acid production in response to biotic and abiotic stress depends on isochorismate in Nicotiana benthamiana | Q46803784 |
| | The MKK2 pathway mediates cold and salt stress signaling in Arabidopsis | Q47268759 |
| | Auxin-binding-protein antibodies and peptides influence stomatal opening and alter cytoplasmic pH. | Q47765913 |
| | Salicylic acid activates a 48-kD MAP kinase in tobacco | Q48050393 |
| | The Arabidopsis NPR1 gene that controls systemic acquired resistance encodes a novel protein containing ankyrin repeats | Q48055052 |
| | Active oxygen species in the induction of plant systemic acquired resistance by salicylic acid | Q48087358 |
| | Salicylic acid induces H2O2 production and endochitinase gene expression but not ethylene biosynthesis in Castanea sativa in vitro model system. | Q50921154 |
| | Characterization of the plasma-membrane H(+)-ATPase from Vicia faba guard cells : Modulation by extracellular factors and seasonal changes. | Q51228878 |
| | Controlled levels of salicylic acid are required for optimal photosynthesis and redox homeostasis. | Q52570868 |
| | The coronatine-insensitive 1 mutation reveals the hormonal signaling interaction between abscisic acid and methyl jasmonate in Arabidopsis guard cells. Specific impairment of ion channel activation and second messenger production. | Q52576209 |
| | MAP kinase signalling cascade in Arabidopsis innate immunity. | Q52594626 |
| | Promotion of stomatal opening in the grass Anthephora pubescens nees by a range of natural and synthetic cytokinis. | Q52878552 |
| | Oligogalacturonic acid and chitosan reduce stomatal aperture by inducing the evolution of reactive oxygen species from guard cells of tomato and Commelina communis. | Q53925388 |
| | Three unique mutants of Arabidopsis identify eds loci required for limiting growth of a biotrophic fungal pathogen. | Q54030764 |
| | Salicylic acid induction-deficient mutants of Arabidopsis express PR-2 and PR-5 and accumulate high levels of camalexin after pathogen inoculation. | Q54082177 |
| | Salicylic acid alleviates decreases in photosynthesis under salt stress by enhancing nitrogen and sulfur assimilation and antioxidant metabolism differentially in two mungbean cultivars | Q54630241 |
| | Salicylic acid-mediated innate immunity in Arabidopsis is regulated by SIZ1 SUMO E3 ligase | Q56785281 |
| | Cytokinin and auxin inhibit abscisic acid-induced stomatal closure by enhancing ethylene production in Arabidopsis | Q57736745 |
| | K+ channels of Cf-9 transgenic tobacco guard cells as targets for Cladosporium fulvum Avr9 elicitor-dependent signal transduction | Q57748418 |
| | MEKK1 is required for flg22-induced MPK4 activation in Arabidopsis plants | Q57980284 |
| | CPR5 is involved in cell proliferation and cell death control and encodes a novel transmembrane protein | Q61730597 |
| | MEKK1 Is Required for MPK4 Activation and Regulates Tissue-specific and Temperature-dependent Cell Death inArabidopsis | Q63640856 |
| | Various abiotic stresses rapidly activate Arabidopsis MAP kinases ATMPK4 and ATMPK6 | Q63640916 |
| | beta-Carotene quenches singlet oxygen formed by isolated photosystem II reaction centers | Q72858606 |
| | The gain-of-function Arabidopsis acd6 mutant reveals novel regulation and function of the salicylic acid signaling pathway in controlling cell death, defenses, and cell growth | Q72994160 |
| | Auxin induces mitogenic activated protein kinase (MAPK) activation in roots of Arabidopsis seedlings | Q73338594 |
| | The cpr5 mutant of Arabidopsis expresses both NPR1-dependent and NPR1-independent resistance | Q73808082 |
| | Identification of a Soluble, High-Affinity Salicylic Acid-Binding Protein in Tobacco | Q74770409 |
| | Hydrogen Peroxide Stimulates Salicylic Acid Biosynthesis in Tobacco | Q74781769 |
| | Anion-Channel Blockers Inhibit S-Type Anion Channels and Abscisic Acid Responses in Guard Cells | Q74781898 |
| | A Salicylic Acid-Binding Activity and a Salicylic Acid-Inhibitable Catalase Activity Are Present in a Variety of Plant Species | Q74790389 |
| | Two Distinct Sources of Elicited Reactive Oxygen Species in Tobacco Epidermal Cells | Q74801435 |
| | Guard cell-specific inhibition of Arabidopsis MPK3 expression causes abnormal stomatal responses to abscisic acid and hydrogen peroxide | Q79741021 |
| | Ethylene-induced stomatal closure in Arabidopsis occurs via AtrbohF-mediated hydrogen peroxide synthesis | Q80233304 |
| | The phytotoxin coronatine contributes to pathogen fitness and is required for suppression of salicylic acid accumulation in tomato inoculated with Pseudomonas syringae pv. tomato DC3000 | Q80850789 |
| | Conditional oxidative stress responses in the Arabidopsis photorespiratory mutant cat2 demonstrate that redox state is a key modulator of daylength-dependent gene expression, and define photoperiod as a crucial factor in the regulation of H2O2-induc | Q81315014 |
| | Involvement of extracellular oxidative burst in salicylic acid-induced stomatal closure in Arabidopsis | Q82378477 |
| | Induction of BAP1 by a moderate decrease in temperature is mediated by ICE1 in Arabidopsis | Q82563773 |
| | Combined salicyclic acid and ultrasound treatments for reducing the chilling injury on peach fruit | Q83197234 |
| | Chemical quenching of singlet oxygen by carotenoids in plants | Q83207495 |
| | Hormonal activity in detached lettuce leaves as affected by leaf water content | Q83251228 |
| | Salicylic acid induced changes on some physiological parameters symptomatic for oxidative stress and mineral nutrition in maize (Zea mays L.) grown under salinity | Q83322045 |
| | Complex phytohormone responses during the cold acclimation of two wheat cultivars differing in cold tolerance, winter Samanta and spring Sandra | Q83391769 |
| | Enhanced salt tolerance of tomatoes by exogenous salicylic acid applied through rooting medium | Q83643754 |
| | Ethylene signaling in salt stress- and salicylic acid-induced programmed cell death in tomato suspension cells | Q83996446 |
| | Germin, a protein marker of early plant development, is an oxalate oxidase. | Q36784803 |
| | Reactive oxygen species mediate growth and death in submerged plants | Q36898301 |
| | Salicylic Acid, a multifaceted hormone to combat disease. | Q37462957 |
| | The origin and evolution of lignin biosynthesis. | Q37774032 |
| | Regulatory mechanisms of nitric oxide and reactive oxygen species generation and their role in plant immunity. | Q37824975 |
| | Salicylic acid beyond defence: its role in plant growth and development. | Q37847798 |
| | Drought tolerance established by enhanced expression of the CC-NBS-LRR gene, ADR1, requires salicylic acid, EDS1 and ABI1. | Q38341176 |
| | Rice gene network inferred from expression profiling of plants overexpressing OsWRKY13, a positive regulator of disease resistance. | Q38513890 |
| | Stomatal and nonstomatal regulation of water use in cotton, corn, and sorghum | Q38859364 |
| | Overexpression of wheat dehydrin DHN-5 enhances tolerance to salt and osmotic stress in Arabidopsis thaliana | Q38921470 |
| | A guard-cell-specific MYB transcription factor regulates stomatal movements and plant drought tolerance | Q38951335 |
| | Identification and functional expression of the pepper pathogen-induced gene, CAPIP2, involved in disease resistance and drought and salt stress tolerance | Q39167352 |
| | Alleviation of osmotic stress effects by exogenous application of salicylic or abscisic acid on wheat seedlings | Q39214294 |
| | SIZ1 deficiency causes reduced stomatal aperture and enhanced drought tolerance via controlling salicylic acid-induced accumulation of reactive oxygen species in Arabidopsis | Q39255595 |
| | Photo- and antioxidative protection, and a role for salicylic acid during drought and recovery in field-grown Phillyrea angustifolia plants | Q39281483 |
| | New Plant Growth Regulators Protect Photosynthesis and Enhance Growth Under Drought of Jack Pine Seedlings | Q39379611 |
| | MYB96-mediated abscisic acid signals induce pathogen resistance response by promoting salicylic acid biosynthesis in Arabidopsis | Q39446455 |
| | Stomatal response to abscisic Acid is a function of current plant water status. | Q39511675 |
| | Identification of drought tolerance determinants by genetic analysis of root response to drought stress and abscisic Acid. | Q39608127 |
| | NADPH oxidase AtrbohD and AtrbohF genes function in ROS-dependent ABA signaling in Arabidopsis. | Q39758932 |
| | Salicylic acid improves salinity tolerance in Arabidopsis by restoring membrane potential and preventing salt-induced K+ loss via a GORK channel. | Q40717956 |
| | Salicylic acid is a systemic signal and an inducer of pathogenesis-related proteins in virus-infected tobacco | Q41151431 |
| | NPR3 and NPR4 are receptors for the immune signal salicylic acid in plants | Q41831053 |
| | Endogenous salicylic acid protects rice plants from oxidative damage caused by aging as well as biotic and abiotic stress | Q42471493 |
| | A Mitogen-activated protein kinase kinase kinase mediates reactive oxygen species homeostasis in Arabidopsis | Q42600749 |
| | AtMYB61, an R2R3-MYB transcription factor controlling stomatal aperture in Arabidopsis thaliana | Q42661906 |
| | Modulation of salt (NaCl)-induced effects on oil composition and fatty acid profile of sunflower (Helianthus annuus L.) by exogenous application of salicylic acid | Q42934359 |
| | Salicylic acid promotes seed germination under high salinity by modulating antioxidant activity in Arabidopsis | Q42956049 |
| | Peroxisomal hydrogen peroxide is coupled to biotic defense responses by ISOCHORISMATE SYNTHASE1 in a daylength-related manner | Q43027447 |
| | SIZ1 controls cell growth and plant development in Arabidopsis through salicylic acid | Q43223109 |
| | SIZ1, a small ubiquitin-related modifier ligase, controls cold signaling through regulation of salicylic acid accumulation. | Q43230476 |
| | Involvement of superoxide generation in salicylic acid-induced stomatal closure in Vicia faba | Q43843639 |
| | Jasmonate and salicylate induce the expression of pathogenesis-related-protein genes and increase resistance to chilling injury in tomato fruit | Q43952751 |
| | Characterization and biological function of the ISOCHORISMATE SYNTHASE2 gene of Arabidopsis | Q44002268 |
| | Oxidation of the two beta-carotene molecules in the photosystem II reaction center | Q44292316 |
| | Mechanism of the reaction catalyzed by dehydroascorbate reductase from spinach chloroplasts | Q44326232 |
| | The pattern of systemic acquired resistance induction within the Arabidopsis rosette in relation to the pattern of translocation | Q44477474 |
| | Activation of a novel transcription factor through phosphorylation by WIPK, a wound-induced mitogen-activated protein kinase in tobacco plants | Q44522426 |
| | Targeted activation tagging of the Arabidopsis NBS-LRR gene, ADR1, conveys resistance to virulent pathogens | Q44541411 |
| | Salicylic acid is an uncoupler and inhibitor of mitochondrial electron transport. | Q44699070 |
| P921 | main subject | salicylic acid | Q193572 |
| | Medical uses of salicylic acid | Q28453506 |
| P304 | page(s) | 4 | |
| P577 | publication date | 2014-01-23 | |
| P1433 | published in | Frontiers in Plant Science | Q27723840 |
| P1476 | title | Regulation of water, salinity, and cold stress responses by salicylic acid | |
| P478 | volume | 5 | |