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The transcription factor MYB29 is a regulator of alternative oxidase1a

dc.contributor.authorZhang, Xinhua
dc.contributor.authorIvanova, Aneta
dc.contributor.authorVandepoele, Klaas
dc.contributor.authorRadomiljac, Jordan
dc.contributor.authorVan de Velde, Jan
dc.contributor.authorBerkowitz, Oliver
dc.contributor.authorWillems, Patrick
dc.contributor.authorXu, Yue
dc.contributor.authorNg, Sophia
dc.contributor.authorVan Aken, Olivier
dc.contributor.authorDuncan, Owen
dc.contributor.authorChan, Kai Xun
dc.contributor.authorPogson, Barry
dc.date.accessioned2021-03-15T22:41:49Z
dc.date.issued2017-02-06
dc.date.updated2020-11-23T11:21:08Z
dc.description.abstractPlants sense and integrate a variety of signals from the environment through different interacting signal transduction pathways that involve hormones and signaling molecules. Using ALTERNATIVE OXIDASE1a (AOX1a) gene expression as a model system of retrograde or stress signaling between mitochondria and the nucleus, MYB DOMAIN PROTEIN29 (MYB29) was identified as a negative regulator (regulator of alternative oxidase1a 7 [rao7] mutant) in a genetic screen of Arabidopsis (Arabidopsis thaliana). rao7/ myb29 mutants have increased levels of AOX1a transcript and protein compared to wild type after induction with antimycin A. A variety of genes previously associated with the mitochondrial stress response also display enhanced transcript abundance, indicating that RAO7/MYB29 negatively regulates mitochondrial stress responses in general. Meta-analysis of hormoneresponsive marker genes and identification of downstream transcription factor networks revealed that MYB29 functions in the complex interplay of ethylene, jasmonic acid, salicylic acid, and reactive oxygen species signaling by regulating the expression of various ETHYLENE RESPONSE FACTOR and WRKY transcription factors. Despite an enhanced induction of mitochondrial stress response genes, rao7/myb29 mutants displayed an increased sensitivity to combined moderate light and drought stress. These results uncover interactions between mitochondrial retrograde signaling and the regulation of glucosinolate biosynthesis, both regulated by RAO7/MYB29. This common regulator can explain why perturbation of the mitochondrial function leads to transcriptomic responses overlapping with responses to biotic stress.en_AU
dc.description.sponsorshipThis work was supported by the Australian Research Council Centre of Excellence Program (grant no. CE140100008), the Interuniversity Attraction Poles Program (grant no. IUAP P7/29) initiated by the Belgian Science Policy Office, the Ghent University Multidisciplinary Research Partnership Biotechnology for a Sustainable Economy (grant no. 01MRB510W), the Agency for Innovation by Science and Technology (IWT) in Flanders (predoctoral fellowship to J.V.d.V and D.V.), the Australian Research Council APD (fellowship and grant no. DP110102868 to O.V.A.), the Ghent University Special Research Fund (grant no. 01J11311 to P.W.), and the Research Foundation-Flanders (postdoctoral fellowship no. 12N2415N and travel grant no. V450215N to I.D.C.).en_AU
dc.format.mimetypeapplication/pdfen_AU
dc.identifier.issn0032-0889en_AU
dc.identifier.urihttp://hdl.handle.net/1885/227170
dc.language.isoen_AUen_AU
dc.publisherAmerican Society of Plant Biologistsen_AU
dc.relationhttp://purl.org/au-research/grants/arc/CE140100008en_AU
dc.relationhttp://purl.org/au-research/grants/arc/DP110102868en_AU
dc.rights© 2017 American Society of Plant Biologistsen_AU
dc.sourcePlant Physiologyen_AU
dc.titleThe transcription factor MYB29 is a regulator of alternative oxidase1aen_AU
dc.typeJournal articleen_AU
dcterms.accessRightsOpen Access via publisher siteen_AU
dcterms.dateAccepted2017-01-30
local.bibliographicCitation.issue3en_AU
local.bibliographicCitation.lastpage1843en_AU
local.bibliographicCitation.startpage1824en_AU
local.contributor.affiliationZhang, Xinhua, Chinese Academy of Sciencesen_AU
local.contributor.affiliationIvanova, Aneta, University of Western Australiaen_AU
local.contributor.affiliationVandepoele, Klaas, Center for Plant Systems Biology,en_AU
local.contributor.affiliationRadomiljac, Jordan, La Trobe Universityen_AU
local.contributor.affiliationVan de Velde, Jan, Center for Plant Systems Biologyen_AU
local.contributor.affiliationBerkowitz, Oliver, La Trobe Universityen_AU
local.contributor.affiliationWillems, Patrick, Ghent Universityen_AU
local.contributor.affiliationXu, Yue, La Trobe Universityen_AU
local.contributor.affiliationNg, Sophia, University of Western Australiaen_AU
local.contributor.affiliationVan Aken, Olivier, University of Western Australiaen_AU
local.contributor.affiliationDuncan, Owen, University of Western Australiaen_AU
local.contributor.affiliationChan, Kai Xun, College of Science, ANUen_AU
local.contributor.affiliationPogson, Barry, College of Science, ANUen_AU
local.contributor.authoruidChan, Kai Xun, u4348316en_AU
local.contributor.authoruidPogson, Barry, u9912751en_AU
local.description.embargo2099-12-31
local.description.notesImported from ARIESen_AU
local.identifier.absfor060702 - Plant Cell and Molecular Biologyen_AU
local.identifier.absseo970106 - Expanding Knowledge in the Biological Sciencesen_AU
local.identifier.ariespublicationa383154xPUB5355en_AU
local.identifier.citationvolume173en_AU
local.identifier.doi10.1104/pp.16.01494en_AU
local.identifier.scopusID2-s2.0-85014704748
local.identifier.thomsonID000400366900024
local.publisher.urlhttps://academic.oup.com/en_AU
local.type.statusPublished Versionen_AU

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