An OPR3-independent pathway uses 4, 5-didehydrojasmonate for jasmonate synthesis
Nature chemical biology, 2018•nature.com
Biosynthesis of the phytohormone jasmonoyl-isoleucine (JA-Ile) requires reduction of the JA
precursor 12-oxo-phytodienoic acid (OPDA) by OPDA reductase 3 (OPR3). Previous
analyses of the opr3-1 Arabidopsis mutant suggested an OPDA signaling role independent
of JA-Ile and its receptor COI1; however, this hypothesis has been challenged because opr3-
1 is a conditional allele not completely impaired in JA-Ile biosynthesis. To clarify the role of
OPR3 and OPDA in JA-independent defenses, we isolated and characterized a loss-of …
precursor 12-oxo-phytodienoic acid (OPDA) by OPDA reductase 3 (OPR3). Previous
analyses of the opr3-1 Arabidopsis mutant suggested an OPDA signaling role independent
of JA-Ile and its receptor COI1; however, this hypothesis has been challenged because opr3-
1 is a conditional allele not completely impaired in JA-Ile biosynthesis. To clarify the role of
OPR3 and OPDA in JA-independent defenses, we isolated and characterized a loss-of …
Abstract
Biosynthesis of the phytohormone jasmonoyl-isoleucine (JA-Ile) requires reduction of the JA precursor 12-oxo-phytodienoic acid (OPDA) by OPDA reductase 3 (OPR3). Previous analyses of the opr3-1 Arabidopsis mutant suggested an OPDA signaling role independent of JA-Ile and its receptor COI1; however, this hypothesis has been challenged because opr3-1 is a conditional allele not completely impaired in JA-Ile biosynthesis. To clarify the role of OPR3 and OPDA in JA-independent defenses, we isolated and characterized a loss-of-function opr3-3 allele. Strikingly, opr3-3 plants remained resistant to necrotrophic pathogens and insect feeding, and activated COI1-dependent JA-mediated gene expression. Analysis of OPDA derivatives identified 4,5-didehydro-JA in wounded wild-type and opr3-3 plants. OPR2 was found to reduce 4,5-didehydro-JA to JA, explaining the accumulation of JA-Ile and activation of JA-Ile-responses in opr3-3 mutants. Our results demonstrate that in the absence of OPR3, OPDA enters the β-oxidation pathway to produce 4,5-ddh-JA as a direct precursor of JA and JA-Ile, thus identifying an OPR3-independent pathway for JA biosynthesis.
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