Arabidopsis MAP kinase 4 regulates gene expression through transcription factor release in the nucleus

Qiu, Jin‐Long; Fiil, Berthe Katrine; Petersen, Kathrine Birch; Nielsen, Henrik Bjørn; Botanga, Christopher; Thorgrimsen, Stephan; Palma, Kristoffer; Suarez-Rodriguez, Maria Cristina; Sandbech-Clausen, Signe; Lichota, Jacek; Brodersen, Peter; Grasser, Klaus D.; Mattsson, Ole; Glazebrook, Jane; Mundy, John; Petersen, Morten

doi:10.1038/emboj.2008.147

Cited by 417 publications

(417 citation statements)

References 44 publications

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“…The D motif within several WRKY TFs contains consensus phosphorylation sites for MAP kinases, and several WRKY TFs have been shown to be phosphorylated in vitro (Kim and Zhang, 2004;Menke et al, 2005;Eulgem and Somssich, 2007;Popescu et al, 2009). Recently, the association of MAP Kinase4 (MPK4) with AtWRKY33 and a coupling factor, MKS1, within the plant cell nucleus was demonstrated (Qiu et al, 2008b). Upon virulent P. syringae infection, MPK4 is phosphorylated, thereby releasing MKS1 and WRKY33 and thus allowing recruitment of WRKY33 to target promoters.…”

Section: Regulation Via Other Tfs and Proteinsmentioning

confidence: 99%

“…ChIP studies in parsley identified two PcWRKY1 target genes activated upon PAMP treatment (Turck et al, 2004). Similarly, PAD3, a gene encoding a key enzyme of camalexin biosynthesis, was detected as a direct target of AtWRKY33 following pathogen infection (Qiu et al, 2008b). Recently, using information derived from whole-genome microarrays followed by ChIP analyses, we identified two key regulators of plant defense as being direct targets of AtWRKY40 during powdery mildew infection (S.P.…”

Section: Pathogen-dependent In Vivo Wrky Tf Targets In the Postgenomimentioning

confidence: 99%

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The Role of WRKY Transcription Factors in Plant Immunity

2009

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Section: Regulation Via Other Tfs and Proteinsmentioning

confidence: 99%

Section: Pathogen-dependent In Vivo Wrky Tf Targets In the Postgenomimentioning

confidence: 99%

The Role of WRKY Transcription Factors in Plant Immunity

2009

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“…However, activated MPK4 phosphorylates VQ21, leading to the release of VQ21 and WRKY33 from MKP4. Consequently, WRKY33 binds to the promoter of PHYTOALEXIN DEFICIENT3 (PAD3), which encodes an enzyme required for the synthesis of antimicrobial camalexin (Andreasson et al, 2005;Qiu et al, 2008). This mechanism may ensure that VQ21 facilitates the recruitment of the kinase to WRKY factors to activate the MPK4-regulated signaling pathway (Fig.…”

Section: Mode Of Action Of Vq Proteinsmentioning

confidence: 99%

The VQ Motif-Containing Protein Family of Plant-Specific Transcriptional Regulators

2015

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ORCID IDs: 0000-0002-4772-7923 (Y.J.); 0000-0001-8346-3390 (R.L.).The VQ motif-containing proteins (designated as VQ proteins) are a class of plant-specific proteins with a conserved and single short FxxhVQxhTG amino acid sequence motif. VQ proteins regulate diverse developmental processes, including responses to biotic and abiotic stresses, seed development, and photomorphogenesis. In this Update, we summarize and discuss recent advances in our understanding of the regulation and function of VQ proteins and the role of the VQ motif in mediating transcriptional regulation and protein-protein interactions in signaling pathways. Based on the accumulated evidence, we propose a general mechanism of action for the VQ protein family, which likely defines a novel class of transcriptional regulators specific to plants.

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“…Interestingly, MKS1 also interacts with the transcription factors WRKY25 and WRKY33 (Andreasson et al, 2005). The interaction of MKS1 with WRKY33 depends on the phosphorylation status of MKS1 by MPK4 (Qiu et al, 2008a). In the absence of pathogens, inactivated MPK4 forms a ternary complex with MKS1 and WRKY33 in the nucleus, which prevents WRKY33 from functioning as a transcription factor (Qiu et al, 2008a).…”

mentioning

confidence: 99%

“…The interaction of MKS1 with WRKY33 depends on the phosphorylation status of MKS1 by MPK4 (Qiu et al, 2008a). In the absence of pathogens, inactivated MPK4 forms a ternary complex with MKS1 and WRKY33 in the nucleus, which prevents WRKY33 from functioning as a transcription factor (Qiu et al, 2008a). Upon activation of MPK4 by challenge with Pseudomonas syringae or flagellin, MKS1 is phosphorylated, and subsequently, phosphorylated MKS1 and WRKY33 proteins are released from MPK4.…”

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confidence: 99%

Soybean Homologs of MPK4 Negatively Regulate Defense Responses and Positively Regulate Growth and Development

et al. 2011

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Mitogen-activated protein kinase (MAPK) cascades play important roles in disease resistance in model plant species such as Arabidopsis (Arabidopsis thaliana) and tobacco (Nicotiana tabacum). However, the importance of MAPK signaling pathways in the disease resistance of crops is still largely uninvestigated. To better understand the role of MAPK signaling pathways in disease resistance in soybean (Glycine max), 13, nine, and 10 genes encoding distinct MAPKs, MAPKKs, and MAPKKKs, respectively, were silenced using virus-induced gene silencing mediated by Bean pod mottle virus. Among the plants silenced for various MAPKs, MAPKKs, and MAPKKKs, those in which GmMAPK4 homologs (GmMPK4s) were silenced displayed strong phenotypes including stunted stature and spontaneous cell death on the leaves and stems, the characteristic hallmarks of activated defense responses. Microarray analysis showed that genes involved in defense responses, such as those in salicylic acid (SA) signaling pathways, were significantly up-regulated in GmMPK4-silenced plants, whereas genes involved in growth and development, such as those in auxin signaling pathways and in cell cycle and proliferation, were significantly down-regulated. As expected, SA and hydrogen peroxide accumulation was significantly increased in GmMPK4-silenced plants. Accordingly, GmMPK4-silenced plants were more resistant to downy mildew and Soybean mosaic virus compared with vector control plants. Using bimolecular fluorescence complementation analysis and in vitro kinase assays, we determined that GmMKK1 and GmMKK2 might function upstream of GmMPK4. Taken together, our results indicate that GmMPK4s negatively regulate SA accumulation and defense response but positively regulate plant growth and development, and their functions are conserved across plant species.

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Arabidopsis MAP kinase 4 regulates gene expression through transcription factor release in the nucleus

Cited by 417 publications

References 44 publications

The Role of WRKY Transcription Factors in Plant Immunity

The Role of WRKY Transcription Factors in Plant Immunity

The VQ Motif-Containing Protein Family of Plant-Specific Transcriptional Regulators

Soybean Homologs of MPK4 Negatively Regulate Defense Responses and Positively Regulate Growth and Development

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