PMID-sentid	Pub_year	Sent_text	comp_official_name	comp_offset	protein_name	organism	prot_offset
35543483-2	2022	Our previous studies revealed that the Arabidopsis mitogen-activated protein kinases MPK3 and MPK6 positively regulate pathogen-induced camalexin biosynthesis via phosphoactivating the transcription factor WRKY33.	camalexin	136-145	WRKY DNA-binding protein 33	Arabidopsis thaliana	206-212
34502184-0	2021	Transcription Factor WRKY33 Mediates the Phosphate Deficiency-Induced Remodeling of Root Architecture by Modulating Iron Homeostasis in Arabidopsis Roots.	Phosphates	41-50	WRKY DNA-binding protein 33	Arabidopsis thaliana	21-27
34502184-0	2021	Transcription Factor WRKY33 Mediates the Phosphate Deficiency-Induced Remodeling of Root Architecture by Modulating Iron Homeostasis in Arabidopsis Roots.	Iron	116-120	WRKY DNA-binding protein 33	Arabidopsis thaliana	21-27
34502184-6	2021	Furthermore, we revealed that WRKY33 negatively regulated the remodeling of root architecture by controlling the transcriptional expression of ALMT1 under Pi-deficient conditions, which further mediated the Fe3+ accumulation in root tips to inhibit the root growth.	ferric sulfate	207-211	WRKY DNA-binding protein 33	Arabidopsis thaliana	30-36
34502184-7	2021	In conclusion, this study demonstrates a previously unrecognized signaling crosstalk between WRKY33 and the ALMT1-mediated malate transport system to regulate the Pi deficiency responses.	malic acid	123-129	WRKY DNA-binding protein 33	Arabidopsis thaliana	93-99
35543483-7	2022	Taken together, our data reveal the multilayered synergistic regulation of camalexin biosynthesis by ethylene, JA, and MPK3/MPK6 signaling pathways via ERF1 and WRKY33 transcription factors in Arabidopsis.	camalexin	75-84	WRKY DNA-binding protein 33	Arabidopsis thaliana	161-167
35543483-7	2022	Taken together, our data reveal the multilayered synergistic regulation of camalexin biosynthesis by ethylene, JA, and MPK3/MPK6 signaling pathways via ERF1 and WRKY33 transcription factors in Arabidopsis.	ethylene	101-109	WRKY DNA-binding protein 33	Arabidopsis thaliana	161-167
35543483-3	2022	Here, we report that the ethylene and jasmonate (JA) pathways act synergistically with the MPK3/MPK6-WRKY33 module at multiple levels to induce camalexin biosynthesis in Arabidopsis upon pathogen infection.	camalexin	144-153	WRKY DNA-binding protein 33	Arabidopsis thaliana	101-107
35543483-5	2022	ERF1 also interacts with and depends on WRKY33 to upregulate camalexin biosynthetic genes, indicating that ERF1 and WRKY33 form transcriptional complexes to cooperatively activate camalexin biosynthetic genes, thereby mediating the synergy of ethylene/JA and MPK3/MPK6 signaling pathways to induce camalexin biosynthesis.	camalexin	61-70	WRKY DNA-binding protein 33	Arabidopsis thaliana	40-46
35543483-5	2022	ERF1 also interacts with and depends on WRKY33 to upregulate camalexin biosynthetic genes, indicating that ERF1 and WRKY33 form transcriptional complexes to cooperatively activate camalexin biosynthetic genes, thereby mediating the synergy of ethylene/JA and MPK3/MPK6 signaling pathways to induce camalexin biosynthesis.	camalexin	61-70	WRKY DNA-binding protein 33	Arabidopsis thaliana	116-122
35543483-5	2022	ERF1 also interacts with and depends on WRKY33 to upregulate camalexin biosynthetic genes, indicating that ERF1 and WRKY33 form transcriptional complexes to cooperatively activate camalexin biosynthetic genes, thereby mediating the synergy of ethylene/JA and MPK3/MPK6 signaling pathways to induce camalexin biosynthesis.	camalexin	180-189	WRKY DNA-binding protein 33	Arabidopsis thaliana	40-46
35543483-5	2022	ERF1 also interacts with and depends on WRKY33 to upregulate camalexin biosynthetic genes, indicating that ERF1 and WRKY33 form transcriptional complexes to cooperatively activate camalexin biosynthetic genes, thereby mediating the synergy of ethylene/JA and MPK3/MPK6 signaling pathways to induce camalexin biosynthesis.	camalexin	180-189	WRKY DNA-binding protein 33	Arabidopsis thaliana	116-122
33711100-4	2021	Interestingly, we demonstrated that WRKY33 upregulation triggers a higher expression of 21 genes cluster including other TFs, many of which related to N-metabolism, able to improve both NUE components.	Nitrogen	151-152	WRKY DNA-binding protein 33	Arabidopsis thaliana	36-42
35543483-5	2022	ERF1 also interacts with and depends on WRKY33 to upregulate camalexin biosynthetic genes, indicating that ERF1 and WRKY33 form transcriptional complexes to cooperatively activate camalexin biosynthetic genes, thereby mediating the synergy of ethylene/JA and MPK3/MPK6 signaling pathways to induce camalexin biosynthesis.	ethylene	243-251	WRKY DNA-binding protein 33	Arabidopsis thaliana	40-46
35543483-5	2022	ERF1 also interacts with and depends on WRKY33 to upregulate camalexin biosynthetic genes, indicating that ERF1 and WRKY33 form transcriptional complexes to cooperatively activate camalexin biosynthetic genes, thereby mediating the synergy of ethylene/JA and MPK3/MPK6 signaling pathways to induce camalexin biosynthesis.	ethylene	243-251	WRKY DNA-binding protein 33	Arabidopsis thaliana	116-122
35543483-5	2022	ERF1 also interacts with and depends on WRKY33 to upregulate camalexin biosynthetic genes, indicating that ERF1 and WRKY33 form transcriptional complexes to cooperatively activate camalexin biosynthetic genes, thereby mediating the synergy of ethylene/JA and MPK3/MPK6 signaling pathways to induce camalexin biosynthesis.	jasmonic acid	252-254	WRKY DNA-binding protein 33	Arabidopsis thaliana	40-46
35543483-5	2022	ERF1 also interacts with and depends on WRKY33 to upregulate camalexin biosynthetic genes, indicating that ERF1 and WRKY33 form transcriptional complexes to cooperatively activate camalexin biosynthetic genes, thereby mediating the synergy of ethylene/JA and MPK3/MPK6 signaling pathways to induce camalexin biosynthesis.	jasmonic acid	252-254	WRKY DNA-binding protein 33	Arabidopsis thaliana	116-122
35543483-5	2022	ERF1 also interacts with and depends on WRKY33 to upregulate camalexin biosynthetic genes, indicating that ERF1 and WRKY33 form transcriptional complexes to cooperatively activate camalexin biosynthetic genes, thereby mediating the synergy of ethylene/JA and MPK3/MPK6 signaling pathways to induce camalexin biosynthesis.	camalexin	298-307	WRKY DNA-binding protein 33	Arabidopsis thaliana	40-46
35543483-5	2022	ERF1 also interacts with and depends on WRKY33 to upregulate camalexin biosynthetic genes, indicating that ERF1 and WRKY33 form transcriptional complexes to cooperatively activate camalexin biosynthetic genes, thereby mediating the synergy of ethylene/JA and MPK3/MPK6 signaling pathways to induce camalexin biosynthesis.	camalexin	298-307	WRKY DNA-binding protein 33	Arabidopsis thaliana	116-122
35257500-0	2022	WRKY33-mediated indolic glucosinolate metabolic pathway confers resistance against Alternaria brassicicola in Arabidopsis and Brassica crops.	indolic glucosinolate	16-37	WRKY DNA-binding protein 33	Arabidopsis thaliana	0-6
35257500-3	2022	In this study, our results revealed that WRKY33 directly regulates IGS biosynthesis, notably the production of 4-methoxyindole-3-ylmethyl glucosinolate (4MI3G), conferring resistance to Alternaria brassicicola, an important pathogen which causes the black spot in Brassica crops.	4-methoxyindole-3-ylmethyl glucosinolate	111-151	WRKY DNA-binding protein 33	Arabidopsis thaliana	41-47
35257500-4	2022	WRKY33 directly activates the expression of CYP81F2, IGMT1, and IGMT2 to drive side-chain modification of indole-3-ylmethyl glucosinolate (I3G) to 4MI3G, in both Arabidopsis and Chinese kale (Brassica oleracea var.	indole-3-ylmethyl glucosinolate	106-137	WRKY DNA-binding protein 33	Arabidopsis thaliana	0-6
33711100-6	2021	Finally, a 35S::AtWRKY33 over expressing Arabidopsis transgenic line, that shows a more competitive root system more efficient to take up N from the soil, confirmed the pivotal role of WRKY33 for NUE improvement.	Nitrogen	138-139	WRKY DNA-binding protein 33	Arabidopsis thaliana	18-24
32439826-2	2020	We previously characterized the regulation of camalexin biosynthesis by the mitogen-activated protein kinases MPK3 and MPK6 and their downstream transcription factor WRKY33.	camalexin	46-55	WRKY DNA-binding protein 33	Arabidopsis thaliana	166-172
32706429-6	2020	By interacting with another nuclear protein TYROSYL-DNA PHOSPHODIESTERASE1 (TDP1), AN imposes transcriptional repression on MYB46, encoding a transcriptional activator of PHENYLALANINE AMMONIA-LYASE (PAL) genes which are required for SA biosynthesis, while releasing the TDP1-imposed transcriptional repression on WRKY33, a master regulator of the JA/ET signaling pathway.	Salicylic Acid	234-236	WRKY DNA-binding protein 33	Arabidopsis thaliana	314-320
32439826-0	2020	Differential Phosphorylation of the Transcription Factor WRKY33 by the Protein Kinases CPK5/CPK6 and MPK3/MPK6 Cooperatively Regulates Camalexin Biosynthesis in Arabidopsis.	camalexin	135-144	WRKY DNA-binding protein 33	Arabidopsis thaliana	57-63
32706429-6	2020	By interacting with another nuclear protein TYROSYL-DNA PHOSPHODIESTERASE1 (TDP1), AN imposes transcriptional repression on MYB46, encoding a transcriptional activator of PHENYLALANINE AMMONIA-LYASE (PAL) genes which are required for SA biosynthesis, while releasing the TDP1-imposed transcriptional repression on WRKY33, a master regulator of the JA/ET signaling pathway.	jasmonic acid	348-350	WRKY DNA-binding protein 33	Arabidopsis thaliana	314-320
32706429-7	2020	These findings demonstrate that the transcriptional co-regulation of MYB46 and WRKY33 by AN mediates the coordination of SA and JA/ET pathways to optimize defenses against (hemi)biotrophic and necrotrophic pathogens.	Salicylic Acid	121-123	WRKY DNA-binding protein 33	Arabidopsis thaliana	79-85
32706429-7	2020	These findings demonstrate that the transcriptional co-regulation of MYB46 and WRKY33 by AN mediates the coordination of SA and JA/ET pathways to optimize defenses against (hemi)biotrophic and necrotrophic pathogens.	jasmonic acid	128-130	WRKY DNA-binding protein 33	Arabidopsis thaliana	79-85
32706429-7	2020	These findings demonstrate that the transcriptional co-regulation of MYB46 and WRKY33 by AN mediates the coordination of SA and JA/ET pathways to optimize defenses against (hemi)biotrophic and necrotrophic pathogens.	ethylene	131-133	WRKY DNA-binding protein 33	Arabidopsis thaliana	79-85
32928900-0	2020	Regulation of a cytochrome P450 gene CYP94B1 by WRKY33 transcription factor controls apoplastic barrier formation in roots to confer salt tolerance.	Salts	133-137	WRKY DNA-binding protein 33	Arabidopsis thaliana	48-54
32928900-8	2020	In addition, atwrky33 mutants exhibited reduced suberin and salt-sensitive phenotypes, which were rescued by expressing 35S::AtCYP94B1 in the atwrky33 background.	suberin	48-55	WRKY DNA-binding protein 33	Arabidopsis thaliana	13-21
32928900-8	2020	In addition, atwrky33 mutants exhibited reduced suberin and salt-sensitive phenotypes, which were rescued by expressing 35S::AtCYP94B1 in the atwrky33 background.	Salts	60-64	WRKY DNA-binding protein 33	Arabidopsis thaliana	13-21
32928900-8	2020	In addition, atwrky33 mutants exhibited reduced suberin and salt-sensitive phenotypes, which were rescued by expressing 35S::AtCYP94B1 in the atwrky33 background.	Sulfur-35	120-123	WRKY DNA-binding protein 33	Arabidopsis thaliana	13-21
32928900-8	2020	In addition, atwrky33 mutants exhibited reduced suberin and salt-sensitive phenotypes, which were rescued by expressing 35S::AtCYP94B1 in the atwrky33 background.	Sulfur-35	120-123	WRKY DNA-binding protein 33	Arabidopsis thaliana	142-150
32928900-9	2020	This further confirmed that AtWRKY33-mediated regulation of AtCYP94B1 is part of the salt tolerance mechanism.	Salts	85-89	WRKY DNA-binding protein 33	Arabidopsis thaliana	28-36
32439826-6	2020	Moreover, we identified that WRKY33 functions downstream of CPK5/CPK6 to activate camalexin biosynthetic genes, thereby inducing camalexin biosynthesis.	camalexin	82-91	WRKY DNA-binding protein 33	Arabidopsis thaliana	29-35
32439826-6	2020	Moreover, we identified that WRKY33 functions downstream of CPK5/CPK6 to activate camalexin biosynthetic genes, thereby inducing camalexin biosynthesis.	camalexin	129-138	WRKY DNA-binding protein 33	Arabidopsis thaliana	29-35
32439826-7	2020	CPK5 and CPK6 interact with WRKY33 and phosphorylate its Thr-229 residue, leading to an increase in the DNA binding ability of WRKY33.	Threonine	57-60	WRKY DNA-binding protein 33	Arabidopsis thaliana	28-34
32439826-7	2020	CPK5 and CPK6 interact with WRKY33 and phosphorylate its Thr-229 residue, leading to an increase in the DNA binding ability of WRKY33.	Threonine	57-60	WRKY DNA-binding protein 33	Arabidopsis thaliana	127-133
32439826-8	2020	By contrast, the MPK3/MPK6-mediated phosphorylation of WRKY33 on its N-terminal Ser residues enhances the transactivation activity of WRKY33.	Serine	80-83	WRKY DNA-binding protein 33	Arabidopsis thaliana	55-61
32439826-8	2020	By contrast, the MPK3/MPK6-mediated phosphorylation of WRKY33 on its N-terminal Ser residues enhances the transactivation activity of WRKY33.	Serine	80-83	WRKY DNA-binding protein 33	Arabidopsis thaliana	134-140
32439826-10	2020	Taken together, these findings indicate that WRKY33 functions as a convergent substrate of CPK5/CPK6 and MPK3/MPK6, which cooperatively regulate camalexin biosynthesis via the differential phospho-regulation of WRKY33 activity.	camalexin	145-154	WRKY DNA-binding protein 33	Arabidopsis thaliana	45-51
32439826-10	2020	Taken together, these findings indicate that WRKY33 functions as a convergent substrate of CPK5/CPK6 and MPK3/MPK6, which cooperatively regulate camalexin biosynthesis via the differential phospho-regulation of WRKY33 activity.	camalexin	145-154	WRKY DNA-binding protein 33	Arabidopsis thaliana	211-217
32082343-4	2019	We identified WRKY33 as the condition-dependent master regulator and MYB51 as the dual functional regulator in a hierarchical gene network likely responsible for the gene expression dynamics and metabolic fluxes in the camalexin and 4-hydroxy-indole-3-carbonylnitrile (4OH-ICN) pathways.	camalexin	219-228	WRKY DNA-binding protein 33	Arabidopsis thaliana	14-20
32423827-0	2020	WRKY33-PIF4 loop is required for the regulation of H2O2 homeostasis.	Hydrogen Peroxide	51-55	WRKY DNA-binding protein 33	Arabidopsis thaliana	0-6
32423827-11	2020	Taken together, our results reveal a WRKY33-PIF4 regulatory loop that appears to play an important role in regulating the growth and development of seedlings by mediating H2O2 homeostasis.	Hydrogen Peroxide	171-175	WRKY DNA-binding protein 33	Arabidopsis thaliana	37-43
32082343-4	2019	We identified WRKY33 as the condition-dependent master regulator and MYB51 as the dual functional regulator in a hierarchical gene network likely responsible for the gene expression dynamics and metabolic fluxes in the camalexin and 4-hydroxy-indole-3-carbonylnitrile (4OH-ICN) pathways.	4-hydroxy-indole-3-carbonylnitrile	233-267	WRKY DNA-binding protein 33	Arabidopsis thaliana	14-20
32082343-4	2019	We identified WRKY33 as the condition-dependent master regulator and MYB51 as the dual functional regulator in a hierarchical gene network likely responsible for the gene expression dynamics and metabolic fluxes in the camalexin and 4-hydroxy-indole-3-carbonylnitrile (4OH-ICN) pathways.	Estetrol	269-272	WRKY DNA-binding protein 33	Arabidopsis thaliana	14-20
32082343-4	2019	We identified WRKY33 as the condition-dependent master regulator and MYB51 as the dual functional regulator in a hierarchical gene network likely responsible for the gene expression dynamics and metabolic fluxes in the camalexin and 4-hydroxy-indole-3-carbonylnitrile (4OH-ICN) pathways.	icn	273-276	WRKY DNA-binding protein 33	Arabidopsis thaliana	14-20
30228125-6	2018	ALD1 expression, Pip accumulation, and SAR were compromised in mutants defective in the MPK3/6-regulated transcription factor WRKY33.	pipecolic acid	17-20	WRKY DNA-binding protein 33	Arabidopsis thaliana	126-132
30228125-0	2018	A MPK3/6-WRKY33-ALD1-Pipecolic Acid Regulatory Loop Contributes to Systemic Acquired Resistance.	pipecolic acid	21-35	WRKY DNA-binding protein 33	Arabidopsis thaliana	9-15
31604523-6	2019	Of note, several genes in the ethylene pathway and the WRKY family, including WRKY33, were induced by flg22 in a MYB51-dependent manner.	ethylene	30-38	WRKY DNA-binding protein 33	Arabidopsis thaliana	78-84
31604523-7	2019	WRKY33 and ethylene were demonstrated to be crucial regulators in plant immunity defense and are functionally upstream of MYB51 during MAMP triggered immunity (MTI).	Acebutolol	135-139	WRKY DNA-binding protein 33	Arabidopsis thaliana	0-6
31134630-7	2019	Finally, CYP707As and WRKY33 also modulated Arabidopsis root architecture in response to the synthetic strigolactone rac-GR24, and wrky33-1 exhibited a shoot hyperbranched phenotype.	GR24 strigolactone	103-116	WRKY DNA-binding protein 33	Arabidopsis thaliana	22-28
31371717-3	2019	We show that the duplicated gene CYP82C2 has been recruited into the WRKY33 regulon and indole-3-carbonylnitrile (ICN) biosynthetic pathway through exaptation of a retroduplicated LINE retrotransposon (EPCOT3) into an enhancer.	icn	114-117	WRKY DNA-binding protein 33	Arabidopsis thaliana	69-75
31371717-4	2019	The stepwise development of a chromatin-accessible WRKY33-binding site on EPCOT3 has potentiated the regulatory neofunctionalization of CYP82C2 and the evolution of inducible defense metabolite 4-hydroxy-ICN in Arabidopsis thaliana.	4-hydroxy-icn	194-207	WRKY DNA-binding protein 33	Arabidopsis thaliana	51-57
30228125-8	2018	We found that Pip triggers activation of MPK3 and MPK6 and that MAPK activation after Pto AvrRpt2 inoculation is compromised in wrky33 and ald1 mutants.	pipecolic acid	14-17	WRKY DNA-binding protein 33	Arabidopsis thaliana	128-134
27317674-0	2016	Arabidopsis HOOKLESS1 Regulates Responses to Pathogens and Abscisic Acid through Interaction with MED18 and Acetylation of WRKY33 and ABI5 Chromatin.	Abscisic Acid	59-72	WRKY DNA-binding protein 33	Arabidopsis thaliana	123-129
28708934-6	2017	As a consequence, the expression levels of direct WRKY33 target genes, including those involved in the biosynthesis of camalexin, were also reduced upon infection.	camalexin	119-128	WRKY DNA-binding protein 33	Arabidopsis thaliana	50-56
28112571-6	2017	mRNA of WRKY33 - a downstream gene of MPK3 and an upstream gene of ethylene biosynthesis, exhibited high levels of accumulation, although the level of endogenous ABA was not significantly different between UBP1b-ox and control plants.	ethylene	67-75	WRKY DNA-binding protein 33	Arabidopsis thaliana	8-14
28112571-6	2017	mRNA of WRKY33 - a downstream gene of MPK3 and an upstream gene of ethylene biosynthesis, exhibited high levels of accumulation, although the level of endogenous ABA was not significantly different between UBP1b-ox and control plants.	alisol B 23-acetate	162-165	WRKY DNA-binding protein 33	Arabidopsis thaliana	8-14
28207847-5	2017	The expression profile of 12-oxo-phytodienoic acid- and phytoprostane A1-treated Arabidopsis plants in response to B. cinerea revealed that cyclopentenones can also modulate WRKY33 regulation upon inoculation with B. cinerea.	12-oxophytodienoic acid	26-50	WRKY DNA-binding protein 33	Arabidopsis thaliana	174-180
28207847-5	2017	The expression profile of 12-oxo-phytodienoic acid- and phytoprostane A1-treated Arabidopsis plants in response to B. cinerea revealed that cyclopentenones can also modulate WRKY33 regulation upon inoculation with B. cinerea.	phytoprostane	56-69	WRKY DNA-binding protein 33	Arabidopsis thaliana	174-180
28207847-5	2017	The expression profile of 12-oxo-phytodienoic acid- and phytoprostane A1-treated Arabidopsis plants in response to B. cinerea revealed that cyclopentenones can also modulate WRKY33 regulation upon inoculation with B. cinerea.	cyclopentenone	140-155	WRKY DNA-binding protein 33	Arabidopsis thaliana	174-180
27317674-4	2016	HLS1 modulates the expression of WRKY33 and ABA INSENSITIVE5 (ABI5), known regulators of pathogen and ABA responses, respectively, through direct association with these loci.	Abscisic Acid	102-105	WRKY DNA-binding protein 33	Arabidopsis thaliana	33-39
27317674-5	2016	Histone 3 acetylation (H3Ac), a positive mark of transcription, at WRKY33 and ABI5 requires HLS1 function.	h3ac	23-27	WRKY DNA-binding protein 33	Arabidopsis thaliana	67-73
27317674-6	2016	ABA treatment and pathogen infection enhance HLS1 recruitment and H3Ac at WRKY33.	Abscisic Acid	0-3	WRKY DNA-binding protein 33	Arabidopsis thaliana	74-80
27317674-10	2016	ABA-mediated priming of resistance to fungal infection was abrogated in hls1 and wrky33 mutants but correlated with ABA-induced HLS1 accumulation.	Abscisic Acid	0-3	WRKY DNA-binding protein 33	Arabidopsis thaliana	81-87
26076231-0	2015	Negative regulation of ABA signaling by WRKY33 is critical for Arabidopsis immunity towards Botrytis cinerea 2100.	Abscisic Acid	23-26	WRKY DNA-binding protein 33	Arabidopsis thaliana	40-46
26973671-6	2016	Decreasing camalexin levels by mutation of the camalexin synthetase gene PAD3 or the camalexin synthesis regulator AtWRKY33 compromised the powdery mildew resistance in these mutants.	camalexin	11-20	WRKY DNA-binding protein 33	Arabidopsis thaliana	115-123
26143252-7	2015	Additionally, MED16 is required for the recruitment of RNA polymerase II to PDF1.2 and OCTADECANOID-RESPONSIVE ARABIDOPSIS ETHYLENE/ETHYLENE-RESPONSIVE FACTOR59 (ORA59), two target genes of both JA/ET-mediated and the transcription factor WRKY33-activated defense pathways.	octadecanoid	87-99	WRKY DNA-binding protein 33	Arabidopsis thaliana	239-245
26143252-7	2015	Additionally, MED16 is required for the recruitment of RNA polymerase II to PDF1.2 and OCTADECANOID-RESPONSIVE ARABIDOPSIS ETHYLENE/ETHYLENE-RESPONSIVE FACTOR59 (ORA59), two target genes of both JA/ET-mediated and the transcription factor WRKY33-activated defense pathways.	ethylene	123-131	WRKY DNA-binding protein 33	Arabidopsis thaliana	239-245
26143252-7	2015	Additionally, MED16 is required for the recruitment of RNA polymerase II to PDF1.2 and OCTADECANOID-RESPONSIVE ARABIDOPSIS ETHYLENE/ETHYLENE-RESPONSIVE FACTOR59 (ORA59), two target genes of both JA/ET-mediated and the transcription factor WRKY33-activated defense pathways.	ethylene	132-140	WRKY DNA-binding protein 33	Arabidopsis thaliana	239-245
26076231-2	2015	We identified &amp;gt;1680 Botrytis-induced WRKY33 binding sites associated with 1576 Arabidopsis genes.	Adenosine Monophosphate	15-18	WRKY DNA-binding protein 33	Arabidopsis thaliana	44-50
26076231-5	2015	We confirmed known WRKY33 targets involved in hormone signaling and phytoalexin biosynthesis, but also uncovered a novel negative role of abscisic acid (ABA) in resistance towards B. cinerea 2100.	phytoalexins	68-79	WRKY DNA-binding protein 33	Arabidopsis thaliana	19-25
26076231-6	2015	The ABA biosynthesis genes NCED3 and NCED5 were identified as direct targets required for WRKY33-mediated resistance.	Abscisic Acid	4-7	WRKY DNA-binding protein 33	Arabidopsis thaliana	90-96
26076231-7	2015	Loss-of-WRKY33 function resulted in elevated ABA levels and genetic studies confirmed that WRKY33 acts upstream of NCED3/NCED5 to negatively regulate ABA biosynthesis.	Abscisic Acid	45-48	WRKY DNA-binding protein 33	Arabidopsis thaliana	8-14
26076231-7	2015	Loss-of-WRKY33 function resulted in elevated ABA levels and genetic studies confirmed that WRKY33 acts upstream of NCED3/NCED5 to negatively regulate ABA biosynthesis.	Abscisic Acid	150-153	WRKY DNA-binding protein 33	Arabidopsis thaliana	8-14
26076231-7	2015	Loss-of-WRKY33 function resulted in elevated ABA levels and genetic studies confirmed that WRKY33 acts upstream of NCED3/NCED5 to negatively regulate ABA biosynthesis.	Abscisic Acid	150-153	WRKY DNA-binding protein 33	Arabidopsis thaliana	91-97
22392279-4	2012	Subsequent detailed kinetic analyses revealed that loss of WRKY33 function results in inappropriate activation of the salicylic acid (SA)-related host response and elevated SA levels post infection and in the down-regulation of jasmonic acid (JA)-associated responses at later stages.	Salicylic Acid	118-132	WRKY DNA-binding protein 33	Arabidopsis thaliana	59-65
25033038-9	2014	In case of WRKY33, this might involve the production of the phytoalexin camalexin.	phytoalexins	60-71	WRKY DNA-binding protein 33	Arabidopsis thaliana	11-17
25033038-9	2014	In case of WRKY33, this might involve the production of the phytoalexin camalexin.	camalexin	72-81	WRKY DNA-binding protein 33	Arabidopsis thaliana	11-17
23524660-2	2013	Previously, we characterized the regulation of phytoalexin biosynthesis by Arabidopsis MPK3/MPK6 cascade and its downstream WRKY33 transcription factor.	phytoalexins	47-58	WRKY DNA-binding protein 33	Arabidopsis thaliana	124-130
22392279-4	2012	Subsequent detailed kinetic analyses revealed that loss of WRKY33 function results in inappropriate activation of the salicylic acid (SA)-related host response and elevated SA levels post infection and in the down-regulation of jasmonic acid (JA)-associated responses at later stages.	Salicylic Acid	134-136	WRKY DNA-binding protein 33	Arabidopsis thaliana	59-65
22392279-4	2012	Subsequent detailed kinetic analyses revealed that loss of WRKY33 function results in inappropriate activation of the salicylic acid (SA)-related host response and elevated SA levels post infection and in the down-regulation of jasmonic acid (JA)-associated responses at later stages.	Salicylic Acid	173-175	WRKY DNA-binding protein 33	Arabidopsis thaliana	59-65
22392279-4	2012	Subsequent detailed kinetic analyses revealed that loss of WRKY33 function results in inappropriate activation of the salicylic acid (SA)-related host response and elevated SA levels post infection and in the down-regulation of jasmonic acid (JA)-associated responses at later stages.	jasmonic acid	228-241	WRKY DNA-binding protein 33	Arabidopsis thaliana	59-65
22392279-4	2012	Subsequent detailed kinetic analyses revealed that loss of WRKY33 function results in inappropriate activation of the salicylic acid (SA)-related host response and elevated SA levels post infection and in the down-regulation of jasmonic acid (JA)-associated responses at later stages.	jasmonic acid	243-245	WRKY DNA-binding protein 33	Arabidopsis thaliana	59-65
22392279-6	2012	Moreover, genes involved in redox homeostasis, SA signaling, ethylene-JA-mediated cross-communication, and camalexin biosynthesis were identified as direct targets of WRKY33.	Salicylic Acid	47-49	WRKY DNA-binding protein 33	Arabidopsis thaliana	167-173
22392279-6	2012	Moreover, genes involved in redox homeostasis, SA signaling, ethylene-JA-mediated cross-communication, and camalexin biosynthesis were identified as direct targets of WRKY33.	ethylene	61-69	WRKY DNA-binding protein 33	Arabidopsis thaliana	167-173
22392279-6	2012	Moreover, genes involved in redox homeostasis, SA signaling, ethylene-JA-mediated cross-communication, and camalexin biosynthesis were identified as direct targets of WRKY33.	jasmonic acid	70-72	WRKY DNA-binding protein 33	Arabidopsis thaliana	167-173
22392279-6	2012	Moreover, genes involved in redox homeostasis, SA signaling, ethylene-JA-mediated cross-communication, and camalexin biosynthesis were identified as direct targets of WRKY33.	camalexin	107-116	WRKY DNA-binding protein 33	Arabidopsis thaliana	167-173
22392279-7	2012	Genetic studies indicate that although SA-mediated repression of the JA pathway may contribute to the susceptibility of wrky33 plants to B. cinerea, it is insufficient for WRKY33-mediated resistance.	Salicylic Acid	39-41	WRKY DNA-binding protein 33	Arabidopsis thaliana	120-126
22392279-7	2012	Genetic studies indicate that although SA-mediated repression of the JA pathway may contribute to the susceptibility of wrky33 plants to B. cinerea, it is insufficient for WRKY33-mediated resistance.	jasmonic acid	69-71	WRKY DNA-binding protein 33	Arabidopsis thaliana	120-126
20709683-3	2010	The expression of AtWRKY25, AtWRKY26, and AtWRKY33 changed during stress treatments including thermal factors, NaCl, abscisic acid (ABA) and osmotic stress, and significantly under NaCl and cold treatments, suggesting a specific role of the three AtWRKYs in adaptation to environmental stresses in plants.	Sodium Chloride	111-115	WRKY DNA-binding protein 33	Arabidopsis thaliana	42-50
21336597-7	2011	In addition, our findings provided evidence that WRKY25, WRKY26, and WRKY33 were involved in regulation of the heat-induced ethylene-dependent response and demonstrated positive cross-regulation within these three genes.	ethylene	124-132	WRKY DNA-binding protein 33	Arabidopsis thaliana	69-75
21336597-8	2011	Together, these results indicate that WRKY25, WRKY26, and WRKY33 positively regulate the cooperation between the ethylene-activated and heat shock proteins-related signaling pathways that mediate responses to heat stress; and that these three proteins interact functionally and play overlapping and synergetic roles in plant thermotolerance.	ethylene	113-121	WRKY DNA-binding protein 33	Arabidopsis thaliana	58-64
21498677-3	2011	In search of the transcription factors downstream of MPK3/MPK6, we found that WRKY33 is required for MPK3/MPK6-induced camalexin biosynthesis.	camalexin	119-128	WRKY DNA-binding protein 33	Arabidopsis thaliana	78-84
21498677-8	2011	Mutation of MPK3/MPK6 phosphorylation sites in WRKY33 compromises its ability to complement the camalexin induction in the wrky33 mutant.	camalexin	96-105	WRKY DNA-binding protein 33	Arabidopsis thaliana	47-53
21498677-8	2011	Mutation of MPK3/MPK6 phosphorylation sites in WRKY33 compromises its ability to complement the camalexin induction in the wrky33 mutant.	camalexin	96-105	WRKY DNA-binding protein 33	Arabidopsis thaliana	123-129
21150304-7	2010	To date, AtWRKY33 and OsTGAP1 have been identified as transcriptional activators of phytoalexin biosynthesis in Arabidopsis and rice.	phytoalexins	84-95	WRKY DNA-binding protein 33	Arabidopsis thaliana	9-17
20709683-3	2010	The expression of AtWRKY25, AtWRKY26, and AtWRKY33 changed during stress treatments including thermal factors, NaCl, abscisic acid (ABA) and osmotic stress, and significantly under NaCl and cold treatments, suggesting a specific role of the three AtWRKYs in adaptation to environmental stresses in plants.	Abscisic Acid	117-130	WRKY DNA-binding protein 33	Arabidopsis thaliana	42-50
20709683-3	2010	The expression of AtWRKY25, AtWRKY26, and AtWRKY33 changed during stress treatments including thermal factors, NaCl, abscisic acid (ABA) and osmotic stress, and significantly under NaCl and cold treatments, suggesting a specific role of the three AtWRKYs in adaptation to environmental stresses in plants.	Abscisic Acid	132-135	WRKY DNA-binding protein 33	Arabidopsis thaliana	42-50
20709683-3	2010	The expression of AtWRKY25, AtWRKY26, and AtWRKY33 changed during stress treatments including thermal factors, NaCl, abscisic acid (ABA) and osmotic stress, and significantly under NaCl and cold treatments, suggesting a specific role of the three AtWRKYs in adaptation to environmental stresses in plants.	Sodium Chloride	181-185	WRKY DNA-binding protein 33	Arabidopsis thaliana	42-50
15990873-5	2005	WRKY25 and WRKY33 were shown to be in vitro substrates of MPK4, and a wrky33 knockout mutant was found to exhibit increased expression of the SA-related defense gene PR1.	Salicylic Acid	142-144	WRKY DNA-binding protein 33	Arabidopsis thaliana	11-17
18839316-0	2009	Functional characterization of Arabidopsis NaCl-inducible WRKY25 and WRKY33 transcription factors in abiotic stresses.	Sodium Chloride	43-47	WRKY DNA-binding protein 33	Arabidopsis thaliana	69-75
18839316-1	2009	Previous microarray analyses of Arabidopsis roots identified two closely related WRKY transcription factors (WRKY25 and WRKY33) among the transcripts that increased in abundance following treatment with NaCl.	Sodium Chloride	203-207	WRKY DNA-binding protein 33	Arabidopsis thaliana	120-126
18839316-2	2009	Here, we report further characterization of these genes, which we found to be inducible by a variety of abiotic stresses in an SOS-pathway independent manner, although WRKY33 induction was dependent on ABA signaling.	sulfur monoxide	127-130	WRKY DNA-binding protein 33	Arabidopsis thaliana	168-174
18839316-2	2009	Here, we report further characterization of these genes, which we found to be inducible by a variety of abiotic stresses in an SOS-pathway independent manner, although WRKY33 induction was dependent on ABA signaling.	alisol B 23-acetate	202-205	WRKY DNA-binding protein 33	Arabidopsis thaliana	168-174
18839316-6	2009	Nevertheless, overexpression of WRKY25 or WRKY33 was sufficient to increase Arabidopsis NaCl tolerance, while increasing sensitivity to ABA.	Sodium Chloride	88-92	WRKY DNA-binding protein 33	Arabidopsis thaliana	42-48
18839316-6	2009	Nevertheless, overexpression of WRKY25 or WRKY33 was sufficient to increase Arabidopsis NaCl tolerance, while increasing sensitivity to ABA.	alisol B 23-acetate	136-139	WRKY DNA-binding protein 33	Arabidopsis thaliana	42-48
17427812-4	2007	Although rapid pathogen-induced AtWRKY33 expression does not require salicylic acid (SA) signaling, it is dependent on PAD4, a key regulator upstream of SA.	Salicylic Acid	153-155	WRKY DNA-binding protein 33	Arabidopsis thaliana	32-40
17059405-7	2006	The susceptibility of WRKY33-over-expressing plants to P. syringae is associated with reduced expression of the salicylate-regulated PR-1 gene.	Salicylates	112-122	WRKY DNA-binding protein 33	Arabidopsis thaliana	22-28
17059405-8	2006	The WRKY33 transcript is induced in response to pathogen infection, or treatment with salicylate or the paraquat herbicide that generates activated oxygen species in exposed cells.	Salicylates	86-96	WRKY DNA-binding protein 33	Arabidopsis thaliana	4-10
17059405-8	2006	The WRKY33 transcript is induced in response to pathogen infection, or treatment with salicylate or the paraquat herbicide that generates activated oxygen species in exposed cells.	Oxygen	148-154	WRKY DNA-binding protein 33	Arabidopsis thaliana	4-10
15990873-5	2005	WRKY25 and WRKY33 were shown to be in vitro substrates of MPK4, and a wrky33 knockout mutant was found to exhibit increased expression of the SA-related defense gene PR1.	Salicylic Acid	142-144	WRKY DNA-binding protein 33	Arabidopsis thaliana	70-76