Jasmonate-Triggered Plant Immunity

Campos, Marcelo Lattarulo; Kang, Jin Ho; Howe, Gregg A.

doi:10.1007/s10886-014-0468-3

Cited by 256 publications

(217 citation statements)

References 256 publications

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“…In response to insect attack, a traveling electrical wave translates into the rapid biosynthesis of JA (Mousavi et al 2013) and its receptor-active derivative jasmonoyl-L-isoleucine (JA-Ile) (Campos et al 2014). COI1-based perception of JA-Ile relieves JAZ proteinmediated negative transcriptional control, resulting in the production of secondary metabolites and proteins that exhibit well-known roles in defense.…”

Section: Discussionmentioning

confidence: 99%

“…In general, turning on defense is metabolically costly; it is frequently accompanied by significant growth inhibition and requires metabolic, transcriptional, and hormonal reprogramming (Yang et al 2012;Campos et al 2014). Initially, Dionaea invests energy in producing and growing traps and in providing the morphological and anatomical requirements for fast insect capture by storing elastic energy in a metastable configuration of the snap trap (Forterre et al 2005).…”

Section: Discussionmentioning

confidence: 99%

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Venus flytrap carnivorous lifestyle builds on herbivore defense strategies

et al. 2016

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Although the concept of botanical carnivory has been known since Darwin's time, the molecular mechanisms that allow animal feeding remain unknown, primarily due to a complete lack of genomic information. Here, we show that the transcriptomic landscape of the Dionaea trap is dramatically shifted toward signal transduction and nutrient transport upon insect feeding, with touch hormone signaling and protein secretion prevailing. At the same time, a massive induction of general defense responses is accompanied by the repression of cell death–related genes/processes. We hypothesize that the carnivory syndrome of Dionaea evolved by exaptation of ancient defense pathways, replacing cell death with nutrient acquisition.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Venus flytrap carnivorous lifestyle builds on herbivore defense strategies

et al. 2016

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“…Therefore, it is conceivable that our findings have important implications for other plant species and conditions in which NO and/or JA act as signaling components: in the case of peroxisomal NO during abiotic stress in roots (Corpas et al, 2009;Corpas and Barroso, 2014a) and in the case of JA during herbivory/wounding or plant-pathogen interactions. The latter are accompanied by rapid stomata closure and the inhibition of photosynthesis (Katsir et al, 2008;Campos et al, 2014;Wasternack, 2014). In tobacco leaves, this leads to callose-induced Suc retention (source-to-sink transition), which is needed for the defense of the infected tissue (Scharte et al, 2009).…”

Section: Discussionmentioning

confidence: 99%

Defects in Peroxisomal 6-Phosphogluconate Dehydrogenase Isoform PGD2 Prevent Gametophytic Interaction in Arabidopsis thaliana

et al. 2016

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We studied the localization of 6-phosphogluconate dehydrogenase (PGD) isoforms of Arabidopsis (Arabidopsis thaliana). Similar polypeptide lengths of PGD1, PGD2, and PGD3 obscured which isoform may represent the cytosolic and/or plastidic enzyme plus whether PGD2 with a peroxisomal targeting motif also might target plastids. Reporter-fusion analyses in protoplasts revealed that, with a free N terminus, PGD1 and PGD3 accumulate in the cytosol and chloroplasts, whereas PGD2 remains in the cytosol. Mutagenesis of a conserved second ATG enhanced the plastidic localization of PGD1 and PGD3 but not PGD2. Amino-terminal deletions of PGD2 fusions with a free C terminus resulted in peroxisomal import after dimerization, and PGD2 could be immunodetected in purified peroxisomes. Repeated selfing of pgd2 transfer (T-)DNA alleles yielded no homozygous mutants, although siliques and seeds of heterozygous plants developed normally. Detailed analyses of the C-terminally truncated PGD2-1 protein showed that peroxisomal import and catalytic activity are abolished. Reciprocal backcrosses of pgd2-1 suggested that missing PGD activity in peroxisomes primarily affects the male gametophyte. Tetrad analyses in the quartet1-2 background revealed that pgd2-1 pollen is vital and in vitro germination normal, but pollen tube growth inside stylar tissues appeared less directed. Mutual gametophytic sterility was overcome by complementation with a genomic construct but not with a version lacking the first ATG. These analyses showed that peroxisomal PGD2 activity is required for guided growth of the male gametophytes and pollen tube-ovule interaction. Our report finally demonstrates an essential role of oxidative pentose-phosphate pathway reactions in peroxisomes, likely needed to sustain critical levels of nitric oxide and/or jasmonic acid, whose biosynthesis both depend on NADPH provision.

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“…It is expected that several signaling peptides are involved in combating herbivore and pathogen attack (Cheong et al, 2002;Francia et al, 2007;Chassot et al, 2008), but the details of the regulation of antiherbivore and antipathogen responses by peptides during wounding stress still await elucidation. Several DAMP peptides have been discovered in other plant species and suggested to be bioactive in tomato (Boller and Felix, 2009b;Campos et al, 2014); these include HypSys (Pearce et al, 2001a;Narvaez-Vasquez et al, 2007), RALF (Pearce et al, 2001b), and Pep1 (Huffaker et al, 2006;Trivilin et al, 2014). Pep1 was clearly identified to be pathogen related in Arabidopsis, and its putative precursor in tomato was recently found to involve in the antipathogen response (Trivilin et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

Quantitative Peptidomics Study Reveals That a Wound-Induced Peptide from PR-1 Regulates Immune Signaling in Tomato

et al. 2014

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Many important cell-to-cell communication events in multicellular organisms are mediated by peptides, but only a few peptides have been identified in plants. In an attempt to address the difficulties in identifying plant signaling peptides, we developed a novel peptidomics approach and used this approach to discover defense signaling peptides in plants. In addition to the canonical peptide systemin, several novel peptides were confidently identified in tomato (Solanum lycopersicum) and quantified to be induced by both wounding and methyl jasmonate (MeJA). A wounding or wounding plus MeJA-induced peptide derived from the pathogenesis-related protein 1 (PR-1) family was found to induce significant antipathogen and minor antiherbivore responses in tomato. This study highlights a role for PR-1 in immune signaling and suggests the potential application of plant endogenous peptides in efforts to defeat biological threats in crop production. As PR-1 is highly conserved across many organisms and the putative peptide from At-PR1 was also found to be bioactive in Arabidopsis thaliana, our results suggest that this peptide may be useful for enhancing resistance to stress in other plant species.

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Jasmonate-Triggered Plant Immunity

Cited by 256 publications

References 256 publications

Venus flytrap carnivorous lifestyle builds on herbivore defense strategies

Venus flytrap carnivorous lifestyle builds on herbivore defense strategies

Defects in Peroxisomal 6-Phosphogluconate Dehydrogenase Isoform PGD2 Prevent Gametophytic Interaction in Arabidopsis thaliana

Quantitative Peptidomics Study Reveals That a Wound-Induced Peptide from PR-1 Regulates Immune Signaling in Tomato

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