12-Hydroxyjasmonic Acid Glucoside Is a COI1-JAZ-Independent Activator of Leaf-Closing Movement in <i>Samanea saman</i>

Nakamura, Yoko; Mithöfer, Axel; Kombrink, Erich; Boland, Wilhelm; Hamamoto, Shin; Uozumi, Nobuyuki; Tohma, Kentaro; Ueda, Minoru

doi:10.1104/pp.110.168617

Cited by 72 publications

(50 citation statements)

References 65 publications

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“…The molecular organization of JA-metabolizing enzymes and metabolites in multiple subcellular compartments needs further investigation. Given the known biological activities of some oxidized-and glucosylated JAs (61,62), it is also possible that these JA-Ile derivatives may have molecular targets other than the COI1.…”

Section: Discussionmentioning

confidence: 99%

Endoplasmic Reticulum-associated Inactivation of the Hormone Jasmonoyl-l-Isoleucine by Multiple Members of the Cytochrome P450 94 Family in Arabidopsis

Koo

Thireault

Zemelis

et al. 2014

Journal of Biological Chemistry

103

107

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Background: Accumulation of the plant hormone jasmonoyl-L-isoleucine (JA-Ile) is tightly controlled to prevent overactivation of defense responses. Results: Cytochrome P450 94s (CYP94s) with distinct tissue expression patterns localize to ER and oxidize JA-Ile to a dicarboxy derivative that fails to assemble JA-Ile co-receptor complexes. Conclusion: Sequential CYP94-catalyzed oxidations block receptor activation and signaling. Significance: P450s inactivate fatty acid-derived signals in both plants and animals.

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Section: Discussionmentioning

confidence: 99%

Endoplasmic Reticulum-associated Inactivation of the Hormone Jasmonoyl-l-Isoleucine by Multiple Members of the Cytochrome P450 94 Family in Arabidopsis

Koo

Thireault

Zemelis

et al. 2014

Journal of Biological Chemistry

103

107

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“…The 12OH-JAs can be further metabolized to sulfoand glucosyl derivatives that are largely inactive in promoting responses typically attributed to jasmonate (13,16,17). However, the ability 12OH-JAs to induce certain physiological responses, including tuber formation and leaf closing, raises the possibility that these compounds signal independently of the COI1-JAZ receptor system (17,18).…”

mentioning

confidence: 99%

“…Among the pathways implicated in catabolism of the hormone are conversion of JA and JA-Ile to their corresponding 12-hydroxy derivatives (12OH-JAs), 12OH-JA (also known as tuberonic acid) and 12OH-JA-Ile, respectively (11,(13)(14)(15). The 12OH-JAs can be further metabolized to sulfoand glucosyl derivatives that are largely inactive in promoting responses typically attributed to jasmonate (13,16,17). However, the ability 12OH-JAs to induce certain physiological responses, including tuber formation and leaf closing, raises the possibility that these compounds signal independently of the COI1-JAZ receptor system (17,18).…”

mentioning

confidence: 99%

Cytochrome P450 CYP94B3 mediates catabolism and inactivation of the plant hormone jasmonoyl-L-isoleucine

Koo

Cooke

Howe³

2011

Proc. Natl. Acad. Sci. U.S.A.

254

251

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The phytohormone jasmonoyl-L-isoleucine (JA-Ile) signals through the COI1-JAZ coreceptor complex to control key aspects of plant growth, development, and immune function. Despite detailed knowledge of the JA-Ile biosynthetic pathway, little is known about the genetic basis of JA-Ile catabolism and inactivation. Here, we report the identification of a wound-and jasmonate-responsive gene from Arabidopsis that encodes a cytochrome P450 (CYP94B3) involved in JA-Ile turnover. Metabolite analysis of wounded leaves showed that loss of CYP94B3 function in cyp94b3 mutants causes hyperaccumulation of JA-Ile and concomitant reduction in 12-hydroxy-JA-Ile (12OH-JA-Ile) content, whereas overexpression of this enzyme results in severe depletion of JA-Ile and corresponding changes in 12OH-JA-Ile levels. In vitro studies showed that heterologously expressed CYP94B3 converts JA-Ile to 12OH-JA-Ile, and that 12OH-JA-Ile is less effective than JA-Ile in promoting the formation of COI1-JAZ receptor complexes. CYP94B3-overexpressing plants displayed phenotypes indicative of JA-Ile deficiency, including defects in male fertility, resistance to jasmonate-induced growth inhibition, and susceptibility to insect attack. Increased accumulation of JA-Ile in wounded cyp94b3 leaves was associated with enhanced expression of jasmonate-responsive genes. These results demonstrate that CYP94B3 exerts negative feedback control on JA-Ile levels and performs a key role in attenuation of jasmonate responses.plant defense | jasmonate receptor | jasmonic acid | plant-insect interaction | fatty acid hydroxylase

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“…TA formation has, however, been proposed as a partial switch-off in JA signaling (14). However, TA could also be a metabolic intermediate, for example, TA-glucoside was described as a specific signal triggering leaf closing in the rain tree Samanea saman (15).…”

mentioning

confidence: 99%

The Amidohydrolases IAR3 and ILL6 Contribute to Jasmonoyl-Isoleucine Hormone Turnover and Generate 12-Hydroxyjasmonic Acid Upon Wounding in Arabidopsis Leaves

Widemann

Miesch

Lugan

et al. 2013

Journal of Biological Chemistry

116

143

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Background:The plant hormone jasmonoyl-isoleucine (JA-Ile) undergoes oxidative catabolism mediated by cytochrome P450 enzymes. Results: Two amidohydrolases catalyze the cleavage of JA-Ile conjugates and generate 12OH-JA during Arabidopsis wound response. Conclusion: IAR3 and ILL6 define an additional pathway for JA-Ile turnover and establish a biosynthetic route for 12OH-JA. Significance: New enzymatic steps unravel the complexity in jasmonate metabolism.

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12-Hydroxyjasmonic Acid Glucoside Is a COI1-JAZ-Independent Activator of Leaf-Closing Movement in Samanea saman

Cited by 72 publications

References 65 publications

Endoplasmic Reticulum-associated Inactivation of the Hormone Jasmonoyl-l-Isoleucine by Multiple Members of the Cytochrome P450 94 Family in Arabidopsis

Endoplasmic Reticulum-associated Inactivation of the Hormone Jasmonoyl-l-Isoleucine by Multiple Members of the Cytochrome P450 94 Family in Arabidopsis

Cytochrome P450 CYP94B3 mediates catabolism and inactivation of the plant hormone jasmonoyl-L-isoleucine

The Amidohydrolases IAR3 and ILL6 Contribute to Jasmonoyl-Isoleucine Hormone Turnover and Generate 12-Hydroxyjasmonic Acid Upon Wounding in Arabidopsis Leaves

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