scholarly article | Q13442814 |
review article | Q7318358 |
P819 | ADS bibcode | 2000PNAS...97.8849K |
P356 | DOI | 10.1073/PNAS.97.16.8849 |
P8608 | Fatcat ID | release_by5v4vatbnhk7a52ybajw6dxiu |
P932 | PMC publication ID | 34022 |
P698 | PubMed publication ID | 10922045 |
P5875 | ResearchGate publication ID | 235612940 |
P2093 | author name string | S Zhang | |
J Shah | |||
D Kumar | |||
E Lam | |||
D F Klessig | |||
H Silva | |||
D Pontier | |||
J M Zhou | |||
J Durner | |||
P Kachroo | |||
D A Navarre | |||
D Wendehenne | |||
R Noad | |||
Y Trifa | |||
P2860 | cites work | Characterization of an Arabidopsis Mutant That Is Nonresponsive to Inducers of Systemic Acquired Resistance | Q24675175 |
Nitric oxide sensitivity of the aconitases | Q28249920 | ||
Current Status of the Gene-For-Gene Concept | Q29543452 | ||
SA, JA, ethylene, and disease resistance in plants | Q33538828 | ||
Interaction between inducible nitric oxide synthase and cyclooxygenase-2 after cerebral ischemia | Q33567203 | ||
Nitric oxide as a signal in plants | Q33745368 | ||
Inhibition of ascorbate peroxidase by salicylic acid and 2,6-dichloroisonicotinic acid, two inducers of plant defense responses | Q33772833 | ||
Isolation of Arabidopsis mutants with enhanced disease susceptibility by direct screening | Q33967803 | ||
Two inducers of plant defense responses, 2,6-dichloroisonicotinec acid and salicylic acid, inhibit catalase activity in tobacco. | Q34031111 | ||
Arabidopsis signal transduction mutant defective in chemically and biologically induced disease resistance | Q34143640 | ||
Nitric oxide mediates N-methyl-D-aspartate receptor-induced activation of p21ras | Q36099162 | ||
Defense activation and enhanced pathogen tolerance induced by H2O2 in transgenic tobacco | Q36100239 | ||
Defense gene induction in tobacco by nitric oxide, cyclic GMP, and cyclic ADP-ribose | Q36294003 | ||
Resistance gene N-mediated de novo synthesis and activation of a tobacco mitogen-activated protein kinase by tobacco mosaic virus infection | Q36490172 | ||
The tobacco wounding-activated mitogen-activated protein kinase is encoded by SIPK | Q36516825 | ||
Interaction of NPR1 with basic leucine zipper protein transcription factors that bind sequences required for salicylic acid induction of the PR-1 gene | Q37214614 | ||
Gene-for-gene complementarity in plant-pathogen interactions | Q37794706 | ||
Nitric oxide modulates the activity of tobacco aconitase | Q38314967 | ||
The Arabidopsis NPR1/NIM1 protein enhances the DNA binding activity of a subgroup of the TGA family of bZIP transcription factors | Q38315695 | ||
Regulation of cytosolic guanylyl cyclase by nitric oxide: the NO-cyclic GMP signal transduction system | Q40624472 | ||
NO at work | Q40630836 | ||
Redox signaling: nitrosylation and related target interactions of nitric oxide | Q40630842 | ||
Nitric oxide and cGMP signaling. | Q40945796 | ||
The role of iron-sulfur clusters in in vivo hydroxyl radical production | Q41197197 | ||
Resistance gene-dependent plant defense responses | Q41207506 | ||
The role of nitric oxide in the regulation of cellular iron metabolism. | Q41380303 | ||
Regulation of iron metabolism in eukaryotes | Q41506378 | ||
Signal perception and transduction in plant defense responses | Q41532632 | ||
Development of necrosis and activation of disease resistance in transgenic tobacco plants with severely reduced catalase levels. | Q43733109 | ||
THE OXIDATIVE BURST IN PLANT DISEASE RESISTANCE. | Q44073104 | ||
Characterization of a new Arabidopsis mutant exhibiting enhanced disease resistance | Q44099392 | ||
Temperature-Dependent Induction of Salicylic Acid and Its Conjugates during the Resistance Response to Tobacco Mosaic Virus Infection | Q45730709 | ||
Nitric oxide functions as a signal in plant disease resistance | Q46872524 | ||
The Arabidopsis NIM1 protein shows homology to the mammalian transcription factor inhibitor I kappa B. | Q47799528 | ||
Functional analysis of regulatory sequences controlling PR-1 gene expression in Arabidopsis | Q48004061 | ||
PIOX, a new pathogen-induced oxygenase with homology to animal cyclooxygenase | Q48026545 | ||
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 | ||
Pathogen-induced systemic activation of a plant defensin gene in Arabidopsis follows a salicylic acid-independent pathway | Q48057199 | ||
Tobacco MAP kinase: a possible mediator in wound signal transduction pathways | Q48068316 | ||
Active oxygen species in the induction of plant systemic acquired resistance by salicylic acid | Q48087358 | ||
Cellular localization of Arabidopsis xyloglucan endotransglycosylase-related proteins during development and after wind stimulation. | Q52191799 | ||
NPR1 differentially interacts with members of the TGA/OBF family of transcription factors that bind an element of the PR-1 gene required for induction by salicylic acid. | Q54063737 | ||
Plant Defense Genes Are Synergistically Induced by Ethylene and Methyl Jasmonate. | Q54197738 | ||
Acquired Resistance Signal Transduction in Arabidopsis Is Ethylene Independent. | Q54205779 | ||
Structural and Functional Analysis of a Mutant Ras Protein That Is Insensitive to Nitric Oxide Activation† | Q57976106 | ||
Systemic Acquired Resistance | Q60017472 | ||
Hydrogen peroxide does not function downstream of salicylic acid in the induction of PR protein expression | Q61769897 | ||
Salicylate inhibits LDL oxidation initiated by superoxide/nitric oxide radicals | Q61978284 | ||
Systemic resistance in Arabidopsis induced by biocontrol bacteria is independent of salicylic acid accumulation and pathogenesis-related gene expression | Q71454618 | ||
Salicylic acid is a modulator of tobacco and mammalian catalases | Q71763220 | ||
Salicylate is a transcriptional inhibitor of the inducible nitric oxide synthase in cultured cardiac fibroblasts | Q71825747 | ||
Characterization of a salicylic acid-insensitive mutant (sai1) of Arabidopsis thaliana, identified in a selective screen utilizing the SA-inducible expression of the tms2 gene | Q72994033 | ||
Differential induction of tobacco MAP kinases by the defense signals nitric oxide, salicylic acid, ethylene, and jasmonic acid | Q73522031 | ||
Activation of the cardiac calcium release channel (ryanodine receptor) by poly-S-nitrosylation | Q74016180 | ||
Activation of the tobacco SIP kinase by both a cell wall-derived carbohydrate elicitor and purified proteinaceous elicitins from Phytophthora spp | Q74311413 | ||
Identification of a Soluble, High-Affinity Salicylic Acid-Binding Protein in Tobacco | Q74770409 | ||
Death Don't Have No Mercy: Cell Death Programs in Plant-Microbe Interactions | Q74806158 | ||
Salicylic acid-independent plant defence pathways | Q77420884 | ||
The Arabidopsis ssi1 mutation restores pathogenesis-related gene expression in npr1 plants and renders defensin gene expression salicylic acid dependent | Q77933592 | ||
Rapid Avr9- and Cf-9 -dependent activation of MAP kinases in tobacco cell cultures and leaves: convergence of resistance gene, elicitor, wound, and salicylate responses | Q77933615 | ||
Active oxygen in plant pathogenesis | Q79826934 | ||
P433 | issue | 16 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | salicylic acid | Q193572 |
defence against herbivory | Q2004252 | ||
Medical uses of salicylic acid | Q28453506 | ||
P304 | page(s) | 8849-8855 | |
P577 | publication date | 2000-08-01 | |
P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
P1476 | title | Nitric oxide and salicylic acid signaling in plant defense | |
P478 | volume | 97 |
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Q44129461 | A calmodulin-binding/CGCG box DNA-binding protein family involved in multiple signaling pathways in plants |
Q45346396 | A comparative proteomics analysis of soybean leaves under biotic and abiotic treatments |
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Q46855063 | A guanylyl cyclase-like gene is associated with Gibberella ear rot resistance in maize (Zea mays L.). |
Q28755037 | A horizontal gene transfer at the origin of phenylpropanoid metabolism: a key adaptation of plants to land |
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Q37120313 | A possible role of class 1 plant hemoglobin at the early stage of legume-rhizobium symbiosis |
Q42450551 | ACD6, a Novel Ankyrin Protein, Is a Regulator and an Effector of Salicylic Acid Signaling in the Arabidopsis Defense Response |
Q44427706 | Aerenchyma formation in roots of maize during sulphate starvation. |
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Q38362211 | Analysis and effects of cytosolic free calcium increases in response to elicitors in Nicotiana plumbaginifolia cells |
Q44879745 | Analysis of nitric oxide signaling functions in tobacco cells challenged by the elicitor cryptogein |
Q28193369 | Anti-inflammatory effects of aspirin and sodium salicylate |
Q27015236 | Apoplastic immunity and its suppression by filamentous plant pathogens |
Q35204434 | Arabidopsis LIP5, a positive regulator of multivesicular body biogenesis, is a critical target of pathogen-responsive MAPK cascade in plant basal defense |
Q44463196 | Auxin induces redox regulation of ascorbate peroxidase 1 activity by S-nitrosylation/denitrosylation balance resulting in changes of root growth pattern in Arabidopsis |
Q50212011 | Biochemical basis of improvement of defense in tomato plant against Fusarium wilt by CaCl2. |
Q33844039 | CaRDR1, an RNA-Dependent RNA Polymerase Plays a Positive Role in Pepper Resistance against TMV. |
Q36546545 | Calcium in plant defence-signalling pathways |
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Q34443956 | Characterization of nitric oxide-inducing lipid A derived from Mesorhizobium loti lipopolysaccharide |
Q46880799 | Characterization of secretory phospholipase A₂ with phospholipase A₁ activity in tobacco, Nicotiana tabacum (L.). |
Q89965306 | Characterization, Expression Profiling, and Functional Analysis of PtDef, a Defensin-Encoding Gene From Populus trichocarpa |
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Q36014881 | Cloning, expression, purification and crystallization of a pair of novel virulence factors, SghA and SghR, from Agrobacterium tumefaciens |
Q29544280 | Coffee resistance to the main diseases: leaf rust and coffee berry disease |
Q33358679 | Comparison of good- and bad-quality cork: application of high-throughput sequencing of phellogenic tissue |
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Q42372733 | Cyclic Nucleotide Monophosphates and Their Cyclases in Plant Signaling. |
Q46616166 | Cyclic Nucleotide Monophosphates in Plants and Plant Signaling. |
Q37148103 | Cyclic nucleotide gated channels and related signaling components in plant innate immunity |
Q37148111 | Deciphering cGMP signatures and cGMP-dependent pathways in plant defence |
Q33718151 | Deciphering the structural and biological properties of the lipid A moiety of lipopolysaccharides from Burkholderia cepacia strain ASP B 2D, in Arabidopsis thaliana |
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Q37853325 | Developing a model of plant hormone interactions. |
Q33187213 | Differential expression of genes encoding calmodulin-binding proteins in response to bacterial pathogens and inducers of defense responses |
Q28488909 | Direct evidence for nitric oxide production by a nitric-oxide synthase-like protein from Bacillus subtilis |
Q28360422 | Direct interaction between the Arabidopsis disease resistance signaling proteins, EDS1 and PAD4 |
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Q90424501 | Dual Activities of Plant cGMP-Dependent Protein Kinase and Its Roles in Gibberellin Signaling and Salt Stress |
Q41871821 | Effect of nitrate supply and mycorrhizal inoculation on characteristics of tobacco root plasma membrane vesicles. |
Q41888709 | Effects of foliar application of salicylic acid and nitric oxide in alleviating iron deficiency induced chlorosis of Arachis hypogaea L. |
Q37087640 | Effects of nitric oxide on red blood cell development and phenotype. |
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Q64076357 | Endoplasmic Reticulum Plays a Critical Role in Integrating Signals Generated by Both Biotic and Abiotic Stress in Plants |
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Q40392791 | Environmental stress alters genes expression and induces ovule abortion: reactive oxygen species appear as ovules commit to abort |
Q57357498 | Ergosterol treatment leads to the expression of a specific set of defence-related genes in tobacco |
Q47171498 | Excessive Cellular S-nitrosothiol Impairs Endocytosis of Auxin Efflux Transporter PIN2. |
Q97519226 | Exogenous Nitric Oxide Enhances Disease Resistance by Nitrosylation and Inhibition of S-Nitrosoglutathione Reductase in Peach Fruit |
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Q53584568 | Expression of Vitreoscilla haemoglobin in tobacco cell cultures relieves nitrosative stress in vivo and protects from NO in vitro. |
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Q33398168 | FORCA, a promoter element that responds to crosstalk between defense and light signaling |
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Q50902872 | Functional characterization of the chaperon-like protein Cdc48 in cryptogein-induced immune response in tobacco. |
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