Publications – Daniel Klessig
AtTIP2;2 facilitates resistance to zinc toxicity via promoting zinc immobilization in the root and limiting root-to-shoot zinc translocation in Arabidopsis thaliana
2022.
Ecotoxicol Environ Saf..
233
:
Nematode Signaling Molecules Are Extensively Metabolized by Animals, Plants, and Microorganisms
2021.
ACS Chem Biol..
:
Arabidopsis SMALL DEFENSE-ASSOCIATED PROTEIN 1 Modulates Pathogen Defense and Tolerance to Oxidative Stress
2020.
Front Plant Sci..
11
:
Plant metabolism of nematode pheromones mediates plant-nematode interactions
2020.
Nat Commun..
11
:208
A genome-wide screen for human salicylic acid (SA)-binding proteins reveals targets through which SA may influence development of various diseases
2019.
Sci Rep..
:
A genome-wide screen for human salicylic acid (SA)-binding proteins reveals targets through which SA may influence development of various diseases
2019.
Scientific Reports.
9
:13084
Nematode ascaroside enhances resistance in a broad spectrum of plant–pathogen systems
2019.
Journal of Phytopathology.
167
:265–272
Mimicking the Host Regulation of Salicylic Acid: A Virulence Strategy by the Clubroot Pathogen Plasmodiophora brassicae
2019.
Molecular Plant-Microbe Interactions.
32
:296–305
Systemic Acquired Resistance and Salicylic Acid: Past, Present and Future
2018.
Molecular Plant-Microbe Interactions.
31
:871–888
Plant and Human MORC Proteins Have DNA-Modifying Activities Similar to Type II Topoisomerases, but Require One or More Additional Factors for Full Activity
2017.
Molecular Plant-Microbe Interactions.
30
:87–100
How does the multifaceted plant hormone salicylic acid combat disease in plants and are similar mechanisms utilized in humans?
2017.
BMC Biology.
15
:
Multiple Targets of Salicylic Acid and Its Derivatives in Plants and Animals
2016.
Frontiers in Immunology.
7
:
Newly Identified Targets of Aspirin and Its Primary Metabolite, Salicylic Acid
2016.
DNA and Cell Biology.
35
:163–166
Activation of Plant Innate Immunity by Extracellular High Mobility Group Box 3 and Its Inhibition by Salicylic Acid
2016.
PLoS Pathogens.
12
:e1005518–e1005518
Pathogen Infection and MORC Proteins Affect Chromatin Accessibility of Transposable Elements and Expression of Their Proximal Genes in Arabidopsis
2016.
Molecular Plant-Microbe Interactions.
29
:674–687
The GHKL ATPase MORC1 Modulates Species-Specific Plant Immunity in Solanaceae
2015.
Molecular Plant-Microbe Interactions.
28
:927–942
Salicylic acid binding of mitochondrial alpha-ketoglutarate dehydrogenase E2 affects mitochondrial oxidative phosphorylation and electron transport chain components and plays a role in basal defense against tobacco mosaic virus in tomato
2015.
New Phytologist.
205
:1296–1307
Aspirin’s Active Metabolite Salicylic Acid Targets High Mobility Group Box 1 to Modulate Inflammatory Responses
2015.
Molecular medicine (Cambridge, Mass.).
21
:526–535
Salicylic Acid Inhibits the Replication of Tomato bushy stunt virus by Directly Targeting a Host Component in the Replication Complex
2015.
Molecular Plant-Microbe Interactions.
28
:379–386
Conserved nematode signalling molecules elicit plant defenses and pathogen resistance
2015.
Nature Communications.
6
:7795–7795
Human GAPDH Is a Target of Aspirin’s Primary Metabolite Salicylic Acid and Its Derivatives
2015.
PLOS One.
10
:e0143447–e0143447
The Compromised Recognition of Turnip Crinkle Virus1 Subfamily of Microrchidia ATPases Regulates Disease Resistance in Barley to Biotrophic and Necrotrophic Pathogens
2014.
Plant Physiology.
164
:866–878
Structure of the Arabidopsis thaliana TOP2 oligopeptidase
2014.
Acta Crystallographica Section F Structural Biology Communications.
70
:555–559
Characterization of Arabidopsis CRT1 in plant immunity and genome stability
2013.
PHYTOPATHOLOGY.
103
:19–19
Arabidopsis CRT1 dimerizes with itself and some of its family members through the C-terminal domain carrying a coiled-coil motif
2013.
PHYTOPATHOLOGY.
103
:70–71
Double-Stranded RNA-Binding Protein 4 Is Required for Resistance Signaling against Viral and Bacterial Pathogens
2013.
Cell Reports.
4
:1168–1184
Salicylic acid binds NPR3 and NPR4 to regulate NPR1-dependent defense responses
2012.
Cell Research.
22
:1631–1633
SOS – too many signals for systemic acquired resistance?
2012.
Trends in Plant Science.
17
:538–545
The CRT1 family is required for plant immunity against Phytophthora infestans
2012.
PHYTOPATHOLOGY.
102
:75–75
CRT1 is a nuclear-translocated MORC endonuclease that participates in multiple levels of plant immunity
2012.
Nature Communications.
3
:1297–1297
Abscisic Acid Deficiency Antagonizes High-Temperature Inhibition of Disease Resistance through Enhancing Nuclear Accumulation of Resistance Proteins SNC1 and RPS4 in Arabidopsis
2012.
The Plant Cell.
24
:1271–1284
The combined use of photoaffinity labeling and surface plasmon resonance-based technology identifies multiple salicylic acid-binding proteins
2012.
The Plant Journal.
72
:1027–1038
Coronatine Promotes Pseudomonas syringae Virulence in Plants by Activating a Signaling Cascade that Inhibits Salicylic Acid Accumulation
2012.
Cell Host & Microbe.
11
:587–596
Identification of salicylic acid signaling networks in plant immunity
2012.
PHYTOPATHOLOGY.
102
:119–119
The Extent to Which Methyl Salicylate Is Required for Signaling Systemic Acquired Resistance Is Dependent on Exposure to Light after Infection
2011.
Plant Physiology.
157
:2216–2226
Interconnection between Methyl Salicylate and Lipid-Based Long-Distance Signaling during the Development of Systemic Acquired Resistance in Arabidopsis and Tobacco
2011.
Plant Physiology.
155
:1762–1768
Interrelationships among SA, MeSA, lipids, and light in systemic acquired resistance (SAR)
2011.
PHYTOPATHOLOGY.
101
:S92–S92
Cryptochrome 2 and phototropin 2 regulate resistance protein-mediated viral defense by negatively regulating an E3 ubiquitin ligase
2010.
Proceedings of the National Academy of Sciences.
107
:13538–13543
NO synthesis and signaling in plants – where do we stand?
2010.
Physiologia Plantarum.
138
:372–383
Endosome-Associated CRT1 Functions Early in Resistance Gene-Mediated Defense Signaling in Arabidopsis and Tobacco
2010.
The Plant Cell.
22
:918–936
Systemic acquired resistance is induced by R gene-mediated responses independent of cell death
2010.
Molecular Plant Pathology.
11
:155–160
Methyl Esterase 1 ( StMES1 ) Is Required for Systemic Acquired Resistance in Potato
2010.
Molecular Plant-Microbe Interactions.
23
:1151–1163
Altering Expression of Benzoic Acid/Salicylic Acid Carboxyl Methyltransferase 1 Compromises Systemic Acquired Resistance and PAMP-Triggered Immunity in Arabidopsis
2010.
Molecular Plant-Microbe Interactions.
23
:82–90
The Lesion-Mimic Mutant cpr22 Shows Alterations in Abscisic Acid Signaling and Abscisic Acid Insensitivity in a Salicylic Acid-Dependent Manner
2010.
Plant Physiology.
152
:1901–1913
Salicylic Acid, a Multifaceted Hormone to Combat Disease
2009.
Annual Review of Phytopathology.
47
:177–206
Use of a Synthetic Salicylic Acid Analog to Investigate the Roles of Methyl Salicylate and Its Esterases in Plant Disease Resistance
2009.
Journal of Biological Chemistry.
284
:7307–7317
Enhanced Defense Responses in Arabidopsis Induced by the Cell Wall Protein Fractions from Pythium oligandrum Require SGT1, RAR1, NPR1 and JAR1
2009.
Plant and Cell Physiology.
50
:924–934
High Level Expression of a Virus Resistance Gene, RCY1 , Confers Extreme Resistance to Cucumber mosaic virus in Arabidopsis thaliana
2008.
Molecular Plant-Microbe Interactions.
21
:1398–1407
CRT1, an Arabidopsis ATPase that Interacts with Diverse Resistance Proteins and Modulates Disease Resistance to Turnip Crinkle Virus
2008.
Cell Host & Microbe.
3
:48–57
Identification of likely orthologs of tobacco salicylic acid-binding protein 2 and their role in systemic acquired resistance in Arabidopsis thaliana
2008.
The Plant Journal.
56
:445–456
The search for the salicylic acid receptor led to discovery of the SAR signal receptor
2008.
Plant Signaling and Behavior.
3
:691–692
Systemic acquired resistance: the elusive signal(s)
2008.
Current Opinion in Plant Biology.
11
:436–442
The structure of YqeH: An AtNOS1/AtNOA1 ortholog that couples gtp hydrolysis to molecular recognition
2008.
Journal of Biological Chemistry.
283
:32968–32976
Inactive Methyl Indole-3-Acetic Acid Ester Can Be Hydrolyzed and Activated by Several Esterases Belonging to the AtMES Esterase Family of Arabidopsis
2008.
Plant Physiology.
147
:1034–1045
AtNOS/AtNOA1 Is a Functional Arabidopsis thaliana cGTPase and Not a Nitric-oxide Synthase
2008.
Journal of Biological Chemistry.
283
:32957–32967
HRT-Mediated Hypersensitive Response and Resistance to Turnip crinkle virus in Arabidopsis Does Not Require the Function of TIP, the Presumed Guardee Protein
2008.
Molecular Plant-Microbe Interactions.
21
:1316–1324
The Arabidopsis Gain-of-Function Mutant ssi4 Requires RAR1 and SGT1b Differentially for Defense Activation and Morphological Alterations
2008.
Molecular Plant-Microbe Interactions.
21
:40–49
The involvement of the Arabidopsis CRT1 ATPase family in disease resistance protein-mediated signaling
2008.
Plant Signaling and Behavior.
3
:689–690
Methyl Salicylate Is a Critical Mobile Signal for Plant Systemic Acquired Resistance
2007.
Science.
318
:113–116
Overexpression of CRK13, an Arabidopsis cysteine-rich receptor-like kinase, results in enhanced resistance to Pseudomonas syringae
2007.
The Plant Journal.
50
:488–499
Functional insights from structural genomics
2007.
Journal of Structural and Functional Genomics.
8
:37–44
Aconitase plays a role in regulating resistance to oxidative stress and cell death in Arabidopsis and Nicotiana benthamiana
2007.
Plant Molecular Biology.
63
:273–287
Arabidopsis GH3-LIKE DEFENSE GENE 1 is required for accumulation of salicylic acid, activation of defense responses and resistance to Pseudomonas syringae
2007.
The Plant Journal.
51
:234–246
The roles of salicylic acid-binding protein 2 and methyl salicylate in systemic acquired resistance to TMV in tobacco
2006.
PHYTOPATHOLOGY.
96
:S150–S150
Plant Signal Transduction and Defense Against Viral Pathogens
2006.
ADVANCES IN VIRUS RESEARCH, VOL 89.
65
:161–191
Validation of RNAi silencing specificity using synthetic genes: Salicylic acid-binding protein 2 is required for innate immunity in plants
2006.
The Plant Journal.
45
:863–868
Assessing the involvement of NO and AtNOS1 in plant defense using GFP-reporter system and NO spin trapping
2006.
NITRIC OXIDE-BIOLOGY AND CHEMISTRY.
14
:A2–A2
The Chimeric Arabidopsis CYCLIC NUCLEOTIDE-GATED ION CHANNEL11/12 Activates Multiple Pathogen Resistance Responses
2006.
The Plant Cell.
18
:747–763
Ancient signals: comparative genomics of plant MAPK and MAPKK gene families
2006.
Trends in Plant Science.
11
:192–198
Structural and biochemical studies identify tobacco SABP2 as a methyl salicylate esterase and implicate it in plant innate immunity
2005.
Proceedings of the National Academy of Sciences.
102
:1773–1778
Arabidopsis ssi2 -Conferred Susceptibility to Botrytis cinerea Is Dependent on EDS5 and PAD4
2005.
Molecular Plant-Microbe Interactions.
18
:363–370
Involvement of the Small GTPase Rac in the Defense Responses of Tobacco to Pathogens
2005.
Molecular Plant-Microbe Interactions.
18
:116–124
Tobacco Transcription Factor WRKY1 Is Phosphorylated by the MAP Kinase SIPK and Mediates HR-Like Cell Death in Tobacco
2005.
Molecular Plant-Microbe Interactions.
18
:1027–1034
Salicylic acid-inducible Arabidopsis CK2-like activity phosphorylates TGA2
2005.
Plant Molecular Biology.
57
:541–557
Suppression of pathogen-inducible NO synthase (iNOS) activity in tomato increases susceptibility to Pseudomonas syringae
2004.
Proceedings of the National Academy of Sciences of the United States of America.
101
:8239–8244
Silencing of the Mitogen-Activated Protein Kinase MPK6 Compromises Disease Resistance in Arabidopsis
2004.
The Plant Cell.
16
:897–907
Complementation of the yeast deletion mutant Delta NCE103 by members of the beta class of carbonic anhydrases is dependent on carbonic anhydrase activity rather than on antioxidant activity
2004.
The Biochemical Journal.
379
:609–615
Nitric oxide: a new player in plant signalling and defence responses
2004.
Current Opinion in Plant Biology.
7
:449–455
The Timing of Senescence and Response to Pathogens Is Altered in the Ascorbate-Deficient Arabidopsis Mutant vitamin c-1
2004.
Plant Physiology.
134
:1784–1792
The pathogen-inducible nitric oxide synthase (iNOS) in plants is a variant of the p protein of the glycine decarboxylase complex (Retraction of vol 113, pg 469, 2003)
2004.
Cell.
119
:445–445
The Pseudomonas syringae type III effector AvrRpt2 functions downstream or independently of SA to promote virulence on Arabidopsis thaliana
2004.
The Plant Journal.
37
:494–504
High humidity suppresses ssi4-mediated cell death and disease resistance upstream of MAP kinase activation, H2O2 production and defense gene expression
2004.
The Plant Journal.
39
:920–932
Arabidopsis DND2 , a Second Cyclic Nucleotide-Gated Ion Channel Gene for Which Mutation Causes the “ Defense, No Death ” Phenotype
2004.
Molecular Plant-Microbe Interactions.
17
:511–520
Identification of a SA receptor required for plant innate immunity
2004.
PHYTOPATHOLOGY.
94
:S55–S55
HRT-mediated Turnip crinkle virus Resistance in Arabidopsis
2003.
The plant pathology journal.
19
:19–23
INTELLECTUAL PROPERTY RIGHTS: Public Sector Collaboration for Agricultural IP Management
2003.
Science.
301
:174–175
High-affinity salicylic acid-binding protein 2 is required for plant innate immunity and has salicylic acid-stimulated lipase activity
2003.
Proceedings of the National Academy of Sciences.
100
:16101–16106
Ethylene and Jasmonic Acid Signaling Affect the NPR1-Independent Expression of Defense Genes Without Impacting Resistance to Pseudomonas syringae and Peronospora parasitica in the Arabidopsis ssi1 Mutant
2003.
Molecular Plant-Microbe Interactions.
16
:588–599
The Pathogen-Inducible Nitric Oxide Synthase (iNOS) in Plants Is a Variant of the P Protein of the Glycine Decarboxylase Complex
2003.
Cell.
113
:469–482
Restoration of Defective Cross Talk in ssi2 Mutants: Role of Salicylic Acid, Jasmonic Acid, and Fatty Acids in SSI2 -Mediated Signaling
2003.
Molecular Plant-Microbe Interactions.
16
:1022–1029
A Gain-of-Function Mutation in an Arabidopsis Toll Interleukin1 Receptor-Nucleotide Binding Site-Leucine-Rich Repeat Type R Gene Triggers Defense Responses and Results in Enhanced Disease Resistance
2002.
The Plant Cell.
14
:3149–3162
Differential regulation of TGA transcription factors by post-transcriptional control
2002.
The Plant Journal.
32
:641–653
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
2002.
Proceedings of the National Academy of Sciences.
99
:11640–11645
Mitogen-activated protein kinase cascades in plants: a new nomenclature
2002.
Trends in Plant Science.
7
:301–308
Resistance to Pseudomonas syringae conferred by an Arabidopsis thaliana coronatine-insensitive (coi1) mutation occurs through two distinct mechanisms
2001.
The Plant Journal.
26
:509–522
Environmentally sensitive, SA-dependent defense responses in the cpr22 mutant of Arabidopsis
2001.
The Plant journal : for cell and molecular biology.
26
:447–459
Probenazole induces systemic acquired resistance in Arabidopsis with a novel type of action
2001.
The Plant Journal.
25
:149–157
A recessive mutation in the Arabidopsis SSI2 gene confers SA- and NPR1-independent expression of PR genes and resistance against bacterial and oomycete pathogens
2001.
The Plant Journal.
25
:563–574
A fatty acid desaturase modulates the activation of defense signaling pathways in plants
2001.
Proceedings of the National Academy of Sciences.
98
:9448–9453
Nitric oxide: Comparative synthesis and signaling in animal and plant cells
2001.
Trends in Plant Science.
6
:177–183
A Harpin Binding Site in Tobacco Plasma Membranes Mediates Activation of the Pathogenesis-Related Gene HIN1 Independent of Extracellular Calcium but Dependent on Mitogen-Activated Protein Kinase Activity
2001.
The Plant Cell.
13
:1079–1093
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
2000.
Molecular Plant-Microbe Interactions.
13
:191–202
Osmotic Stress Induces Rapid Activation of a Salicylic Acid-Induced Protein Kinase and a Homolog of Protein Kinase ASK1 in Tobacco Cells
2000.
The Plant Cell.
12
:165–178
The Amino Terminus of the Coat Protein of Turnip crinkle virus Is the AVR Factor Recognized by Resistant Arabidopsis
2000.
Molecular Plant-Microbe Interactions.
13
:1015–1018
Members of the Arabidopsis HRT/RPP8 Family of Resistance Genes Confer Resistance to Both Viral and Oomycete Pathogens
2000.
The Plant Cell.
12
:663–676
Osmotic stress induces rapid activation of a salicylic acid-induced protein kinase and a homolog of protein kinase ASK1 in tobacco cells. (vol 12, pg 165, 2000)
2000.
The Plant Cell.
12
:611–611
Molecular Cloning and Characterization of a Tobacco MAP Kinase Kinase That Interacts with SIPK
2000.
Molecular Plant-Microbe Interactions.
13
:118–124
Multiple levels of tobacco WIPK activation during the induction of cell death by fungal elicitins
2000.
The Plant Journal.
23
:339–347
Differential Induction of Tobacco MAP Kinases by the Defense Signals Nitric Oxide, Salicylic Acid, Ethylene, and Jasmonic Acid
2000.
Molecular Plant-Microbe Interactions.
13
:347–351
Nitric Oxide Inhibition of Tobacco Catalase and Ascorbate Peroxidase
2000.
Molecular Plant-Microbe Interactions.
13
:1380–1384
Activation of a diverse set of genes during the tobacco resistance response to TMV is independent of salicylic acid; induction of a subset is also ethylene independent
2000.
The Plant Journal.
21
:409–418
Pathogen-induced MAP kinases in tobacco
2000.
Results and problems in cell differentiation.
27
:65–84
Salicylic acid- and nitric oxide-mediated signal transduction in plant disease resistance
2000.
:
13–18
Nitric oxide and salicylic acid signaling in plant defense
2000.
Proceedings of the National Academy of Sciences.
97
:8849–8855
Arabidopsis MAP Kinase 4 Negatively Regulates Systemic Acquired Resistance
2000.
Cell.
103
:1111–1120
Resistance to Turnip Crinkle Virus in Arabidopsis Is Regulated by Two Host Genes and Is Salicylic Acid Dependent but NPR1, Ethylene, and Jasmonate Independent
2000.
The Plant Cell.
12
:677–690
Rapid Avr 9- and Cf-9 Dependent Activation of MAP Kinases in Tobacco Cell Cultures and Leaves: Convergence of Resistance Gene, Elicitor, Wound, and Salicylate Responses
1999.
The Plant Cell.
11
:273–287
Characterization of a New Arabidopsis Mutant Exhibiting Enhanced Disease Resistance
1999.
Molecular Plant-Microbe Interactions.
12
:1053–1063
Nitric oxide as a signal in plants (vol 2, pg 369, 1999)
1999.
Current Opinion in Plant Biology.
2
:525–525
Overexpression of P to Activates Defense Responses and Confers Broad Resistance
1999.
The Plant Cell.
11
:15–29
Activation of the tobacco SIP kinase by both a cell wall-derived carbohydrate elicitor and purified proteinaceous elicitins from Phytophthora spp. (vol 10, pg 435, 1998)
1999.
The Plant Cell.
11
:987–987
The Arabidopsis ssi1 Mutation Restores Pathogenesis-Related Gene Expression in npr1 Plants and Renders Defensin Gene Expression Salicylic Acid Dependent
1999.
The Plant Cell.
11
:191–206
PAD4 Functions Upstream from Salicylic Acid to Control Defense Responses in Arabidopsis
1998.
The Plant Cell.
10
:1021–1030
Salicylic acid-mediated signal transduction in plant disease resistance
1998.
PHYTOCHEMICAL SIGNALS AND PLANT-MICROBE INTERACTIONS.
32
:119–137
Characterization of a tobacco epoxide hydrolase gene induced during the resistance response to TMV
1998.
The Plant Journal.
15
:647–656
Benzothiadiazole, an inducer of plant defenses, inhibits catalase and ascorbate peroxidase
1998.
Phytochemistry.
47
:651–657
A single amino acid change in turnip crinkle virus movement protein p8 affects RNA binding and virulence on Arabidopsis thaliana
1998.
Journal of Virology.
72
:6247–6250
Defense gene induction in tobacco by nitric oxide, cyclic GMP, and cyclic ADP-ribose
1998.
Proceedings of the National Academy of Sciences.
95
:10328–10333
Uncoupling PR Gene Expression from NPR1 and Bacterial Resistance: Characterization of the Dominant Arabidopsis cpr 6-1 Mutant
1998.
The Plant Cell.
10
:557–569
The tobacco wounding-activated mitogen-activated protein kinase is encoded by SIPK
1998.
Proceedings of the National Academy of Sciences.
95
:7225–7230
Tobacco plants perturbed in the ubiquitin-dependent protein degradation system accumulate callose, salicylic acid, and pathogenesis-related protein 1
1998.
Plant Cell Reports.
17
:876–880
Possible involvement of lipid peroxidation in salicylic acid-mediated induction of PR-1 gene expression
1998.
Phytochemistry.
47
:555–566
Resistance gene N-mediated de novo synthesis and activation of a tobacco mitogen-activated protein kinase by tobacco mosaic virus infection
1998.
Proceedings of the National Academy of Sciences.
95
:7433–7438
Activation of the Tobacco SIP Kinase by Both a Cell WallDerived Carbohydrate Elicitor and Purified Proteinaceous Elicitins from Phytophthora spp
1998.
The Plant Cell.
10
:435–449
Signal perception and transduction in plant defense responses
1997.
Genes & development.
11
:1621–1639
Characterization of a S alicylic A cid- I nsensitive Mutant ( sai1 ) of Arabidopsis thaliana , Identified in a Selective Screen Utilizing the SA-Inducible Expression of the tms2 Gene
1997.
Molecular Plant-Microbe Interactions.
10
:69–78
Role for Salicylic Acid in the Activation of Defense Responses in Catalase-Deficient Transgenic Tobacco
1997.
Molecular Plant-Microbe Interactions.
10
:922–925
Development of necrosis and activation of disease resistance in transgenic tobacco plants with severely reduced catalase levels
1997.
The Plant Journal.
11
:993–1005
Is the High Basal Level of Salicylic Acid Important for Disease Resistance in Potato?
1997.
Plant Physiology.
115
:343–349
Protein dephosphorylation mediates salicylic acid-induced expression of PR-1 genes in tobacco
1997.
The Plant Journal.
11
:747–757
The cpr5 Mutant of Arabidopsis Expresses Both NPR1-Dependent and NPR1-Independent Resistance
1997.
The Plant Cell.
9
:1573–1584
Identification of a Soluble, High-Affinity Salicylic Acid-Binding Protein in Tobacco
1997.
Plant Physiology.
113
:1319–1327
Differential Accumulation of Salicylic Acid and Salicylic Acid-Sensitive Catalase in Different Rice Tissues
1997.
Plant Physiology.
114
:193–201
Identification of an Arabidopsis locus required for resistance to turnip crinkle virus
1997.
The Plant Journal.
11
:301–311
Identification of a salicylic acid-responsive element in the promoter of the tobacco pathogenesis-related beta-1,3-glucanase gene, PR-2d
1996.
The Plant Journal.
10
:1089–1101
Isolation and characterization of a tobacco mosaic virus-inducible myb oncogene homolog from tobacco
1996.
Proceedings of the National Academy of Sciences.
93
:14972–14977
Studies of the salicylic acid signal transduction pathway
1996.
:
33–38
Dissection of the Salicylic Acid Signaling Pathway in Tobacco
1996.
Molecular Plant-Microbe Interactions.
9
:474–482
Salicylic Acid Is a Modulator of Tobacco and Mammalian Catalases
1996.
Journal of Biological Chemistry.
271
:28492–28501
INDUCTION, MODIFICATION, AND TRANSDUCTION OF THE SALICYLIC-ACID SIGNAL IN PLANT DEFENSE RESPONSES
1995.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA.
92
:4134–4137
Inhibition of ascorbate peroxidase by salicylic acid and 2,6-dichloroisonicotinic acid, two inducers of plant defense responses
1995.
Proceedings of the National Academy of Sciences.
92
:11312–11316
Two inducers of plant defense responses, 2,6-dichloroisonicotinec acid and salicylic acid, inhibit catalase activity in tobacco
1995.
Proceedings of the National Academy of Sciences.
92
:7143–7147
Identification of a High-Molecular-Weight Cellular Protein Complex Containing the Adenovirus DNA Binding Protein
1994.
Virology.
202
:715–723
A Mutation in Arabidopsis That Leads to Constitutive Expression of Systemic Acquired Resistance
1994.
The Plant Cell.
6
:1845–1857
A Salicylic Acid-Binding Activity and a Salicylic Acid-Inhibitable Catalase Activity Are Present in a Variety of Plant Species
1994.
Plant Physiology.
106
:1675–1679
Programmed cell death in plants: a pathogen-triggered response activated coordinately with multiple defense functions
1994.
Cell.
77
:551–563
The salicylic acid signal for activation of plant defenses is mediated by active oxygen species
1994.
21
:349–354
Salicylic acid, active oxygen species and systemic acquired resistance in plants
1994.
Trends in Cell Biology.
4
:334–338
Induction, modification, and perception of the salicylic acid signal in plant defence
1994.
BIOCHEMICAL SOCIETY SYMPOSIUM.
60
:219–229
Active oxygen species in the induction of plant systemic acquired resistance by salicylic acid
1993.
Science.
262
:1883–1886
SYNTHESIS AND CHARACTERIZATION OF THE SALICYLIC-ACID BETA-D-GLUCOPYRANOSIDE
1993.
POLISH JOURNAL OF CHEMISTRY.
67
:1251–1254
Interconversion of the salicylic acid signal and its glucoside in tobacco
1993.
The Plant Journal.
4
:593–600
Phosphorylation of the Adenovirus DNA-Binding Protein and Epitope Mapping of Monoclonal Antibodies against It
1993.
Virology.
197
:564–575
Resistance and Susceptible Responses of Arabidopsis thaliana to Turnip Crinkle Virus
1993.
Phytopathology.
83
:1021–1029
Pathogen, salicylic acid and developmental dependent expression of a beta-1,3-glucanase/GUS gene fusion in transgenic tobacco plants
1993.
The Plant Journal.
4
:481–493
INDUCTION, MODIFICATION, AND RECEPTION OF THE SALICYLIC-ACID SIGNAL IN PLANT DEFENSE
1993.
2
:185–195
Purification and characterization of a soluble salicylic acid-binding protein from tobacco
1993.
Proceedings of the National Academy of Sciences.
90
:9533–9537
Role of salicylic acid in systemic acquired resistance
1993.
11
:230–232
Multiple Functions of the Adenovirus DNA-Binding Protein Are Required for Efficient Viral DNA Synthesis
1993.
Virology.
196
:269–281
Adenovirus containing a deletion of the early region 2A gene allows growth of adeno-associated virus with decreased efficiency
1992.
Virology.
191
:473–476
Characterization of the nucleic acid binding region of adenovirus DNA binding protein by partial proteolysis and photochemical cross-linking
1992.
Journal of Biological Chemistry.
267
:17872–17881
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