Abstract
In Arabidopsis, jasmonate (JA)-signaling plays a key role in mediating Fusarium oxysporum disease outcome. However, the roles of JASMONATE ZIM-domain (JAZ) proteins that repress JA-signaling have not been characterized in host resistance or susceptibility to this pathogen. Here, we found most JAZ genes are induced following F. oxysporum challenge, and screening T-DNA insertion lines in Arabidopsis JAZ family members identified a highly disease-susceptible JAZ7 mutant (jaz7-1D). This mutant exhibited constitutive JAZ7 expression and conferred increased JA-sensitivity, suggesting activation of JA-signaling. Unlike jaz7 loss-of-function alleles, jaz7-1D also had enhanced JA-responsive gene expression, altered development and increased susceptibility to the bacterial pathogen PstDC3000 that also disrupts host JA-responses. We also demonstrate that JAZ7 interacts with transcription factors functioning as activators (MYC3, MYC4) or repressors (JAM1) of JA-signaling and contains a functional EAR repressor motif mediating transcriptional repression via the co-repressor TOPLESS (TPL). We propose through direct TPL recruitment, in wild-type plants JAZ7 functions as a repressor within the JA-response network and that in jaz7-1D plants, misregulated ectopic JAZ7 expression hyper-activates JA-signaling in part by disturbing finely-tuned COI1-JAZ-TPL-TF complexes.
Highlights
Introduction(Lycopersicum esculentum) (Di Pietro et al, 2003; Agrios, 2005; Berrocal-Lobo and Molina, 2008)
The root-infecting fungal pathogen Fusarium oxysporum is species, including bananas (Musa spp.), cotton (Gossypium responsible for vascular wilt disease in over 100 different plant spp.), grain legumes and horticultural crops such as tomato2368 | Thatcher et al.(Lycopersicum esculentum) (Di Pietro et al, 2003; Agrios, 2005; Berrocal-Lobo and Molina, 2008)
We examined the roles of JASMONATE ZIM-domain (JAZ) family members during the Arabidopsis-F. oxysporum interaction through the characterization of JAZ gene expression, and the analysis of Arabidopsis JAZ T-DNA insertion lines
Summary
(Lycopersicum esculentum) (Di Pietro et al, 2003; Agrios, 2005; Berrocal-Lobo and Molina, 2008) This pathogen infects Arabidopsis (Arabidopsis thaliana) where the pathogen-host interaction can be readily studied in a model system. Non-defensive aspects of JA-signaling such as JA-mediated senescence appear to promote susceptibility to this pathogen (Berrocal-Lobo and Molina 2004; McGrath et al, 2005; Kidd et al, 2009; Thatcher et al, 2009, 2012a). It is proposed that in wild-type plants both defensive and non-defensive aspects of JA-signaling are activated following F. oxysporum infection but that non-defensive aspects have greater contribution to disease outcome (Thatcher et al, 2009)
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