Herbivore perception decreases photosynthetic carbon assimilation and reduces stomatal conductance by engaging 12 - oxo - phytodienoic acid, mitogen - activated protein kinase 4 and cytokinin perception

Herbivore perception decreases photosynthetic carbon assimilation and reduces stomatal conductance by engaging 12 - oxo - phytodienoic acid, mitogen - activated protein kinase 4 and cytokinin perception

Herbivory-induced changes in photosynthesis have been documented in many plant species; however, the complexity of photosynthetic regulation and analysis has thwarted progress in understanding the mechanism involved, particularly those elicited by herbivore-specific elicitors. Here, we analysed the early photosynthetic gas exchange responses in Nicotiana attenuata plants after wounding and elicitation with Manduca sexta oral secretions and the pathways regulating these responses. Elicitation with M. sexta oral secretions rapidly decreased photosynthetic carbon assimilation (AC) in treated and systemic (untreated, vascularly connected) leaves, which were associated with changes in stomatal conductance, rather than with changes in Rubisco activity and 1-5 ribulose-1,5- bisphosphate turnover. Phytohormone profiling and gas exchange analysis of oral secretion-elicited transgenic plants altered in phytohormone regulation, biosynthesis and perception, combined with micrografting techniques, revealed that the local photosynthetic responses were mediated by 12-oxophytodienoic acid, while the systemic responses involved interactions among jasmonates, cytokinins and abscisic acid signalling mediated by mitogen-activated protein kinase 4. The analysis also revealed a role for cytokinins interacting with mitogen-activated protein kinase 4 in CO2-mediated stomatal regulation. Hence, oral secretions, while eliciting jasmonic acid-mediated defence responses, also elicit 12-oxophytodienoicacid-mediated changes in stomatal onductance and AC, an observation illustrating the complexity and economy of the signalling that regulates defence and carbon assimilation pathways in response to herbivore attack.

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Main Authors: Meza Canales, Ivan D., Meldau, Stefan, Zavala, Jorge Alberto, Baldwin, Ian T.
Format: Texto biblioteca
Language:eng
Subjects:ABSCISIC ACID, CO2 REGULATION, GAS EXCHANGE, HERBIVORE ASSOCIATED ELICITORS AND HERBIVORE - ESPECIFIC RESPONSES, JASMONATES, HERBIVORE PERCEPTION, PHOTOSYNTHESIS,
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id KOHA-OAI-AGRO:45578
record_format koha
institution UBA FA
collection Koha
country Argentina
countrycode AR
component Bibliográfico
access En linea
En linea
databasecode cat-ceiba
tag biblioteca
region America del Sur
libraryname Biblioteca Central FAUBA
language eng
topic ABSCISIC ACID
CO2 REGULATION
GAS EXCHANGE
HERBIVORE ASSOCIATED ELICITORS AND HERBIVORE - ESPECIFIC RESPONSES
JASMONATES
HERBIVORE PERCEPTION
PHOTOSYNTHESIS
ABSCISIC ACID
CO2 REGULATION
GAS EXCHANGE
HERBIVORE ASSOCIATED ELICITORS AND HERBIVORE - ESPECIFIC RESPONSES
JASMONATES
HERBIVORE PERCEPTION
PHOTOSYNTHESIS
spellingShingle ABSCISIC ACID
CO2 REGULATION
GAS EXCHANGE
HERBIVORE ASSOCIATED ELICITORS AND HERBIVORE - ESPECIFIC RESPONSES
JASMONATES
HERBIVORE PERCEPTION
PHOTOSYNTHESIS
ABSCISIC ACID
CO2 REGULATION
GAS EXCHANGE
HERBIVORE ASSOCIATED ELICITORS AND HERBIVORE - ESPECIFIC RESPONSES
JASMONATES
HERBIVORE PERCEPTION
PHOTOSYNTHESIS
Meza Canales, Ivan D.
Meldau, Stefan
Zavala, Jorge Alberto
Baldwin, Ian T.
Herbivore perception decreases photosynthetic carbon assimilation and reduces stomatal conductance by engaging 12 - oxo - phytodienoic acid, mitogen - activated protein kinase 4 and cytokinin perception
description Herbivory-induced changes in photosynthesis have been documented in many plant species; however, the complexity of photosynthetic regulation and analysis has thwarted progress in understanding the mechanism involved, particularly those elicited by herbivore-specific elicitors. Here, we analysed the early photosynthetic gas exchange responses in Nicotiana attenuata plants after wounding and elicitation with Manduca sexta oral secretions and the pathways regulating these responses. Elicitation with M. sexta oral secretions rapidly decreased photosynthetic carbon assimilation (AC) in treated and systemic (untreated, vascularly connected) leaves, which were associated with changes in stomatal conductance, rather than with changes in Rubisco activity and 1-5 ribulose-1,5- bisphosphate turnover. Phytohormone profiling and gas exchange analysis of oral secretion-elicited transgenic plants altered in phytohormone regulation, biosynthesis and perception, combined with micrografting techniques, revealed that the local photosynthetic responses were mediated by 12-oxophytodienoic acid, while the systemic responses involved interactions among jasmonates, cytokinins and abscisic acid signalling mediated by mitogen-activated protein kinase 4. The analysis also revealed a role for cytokinins interacting with mitogen-activated protein kinase 4 in CO2-mediated stomatal regulation. Hence, oral secretions, while eliciting jasmonic acid-mediated defence responses, also elicit 12-oxophytodienoicacid-mediated changes in stomatal onductance and AC, an observation illustrating the complexity and economy of the signalling that regulates defence and carbon assimilation pathways in response to herbivore attack.
format Texto
topic_facet ABSCISIC ACID
CO2 REGULATION
GAS EXCHANGE
HERBIVORE ASSOCIATED ELICITORS AND HERBIVORE - ESPECIFIC RESPONSES
JASMONATES
HERBIVORE PERCEPTION
PHOTOSYNTHESIS
author Meza Canales, Ivan D.
Meldau, Stefan
Zavala, Jorge Alberto
Baldwin, Ian T.
author_facet Meza Canales, Ivan D.
Meldau, Stefan
Zavala, Jorge Alberto
Baldwin, Ian T.
author_sort Meza Canales, Ivan D.
title Herbivore perception decreases photosynthetic carbon assimilation and reduces stomatal conductance by engaging 12 - oxo - phytodienoic acid, mitogen - activated protein kinase 4 and cytokinin perception
title_short Herbivore perception decreases photosynthetic carbon assimilation and reduces stomatal conductance by engaging 12 - oxo - phytodienoic acid, mitogen - activated protein kinase 4 and cytokinin perception
title_full Herbivore perception decreases photosynthetic carbon assimilation and reduces stomatal conductance by engaging 12 - oxo - phytodienoic acid, mitogen - activated protein kinase 4 and cytokinin perception
title_fullStr Herbivore perception decreases photosynthetic carbon assimilation and reduces stomatal conductance by engaging 12 - oxo - phytodienoic acid, mitogen - activated protein kinase 4 and cytokinin perception
title_full_unstemmed Herbivore perception decreases photosynthetic carbon assimilation and reduces stomatal conductance by engaging 12 - oxo - phytodienoic acid, mitogen - activated protein kinase 4 and cytokinin perception
title_sort herbivore perception decreases photosynthetic carbon assimilation and reduces stomatal conductance by engaging 12 - oxo - phytodienoic acid, mitogen - activated protein kinase 4 and cytokinin perception
url http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=45578
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spelling KOHA-OAI-AGRO:455782023-11-23T14:50:57Zhttp://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=45578http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=AAGHerbivore perception decreases photosynthetic carbon assimilation and reduces stomatal conductance by engaging 12 - oxo - phytodienoic acid, mitogen - activated protein kinase 4 and cytokinin perceptionMeza Canales, Ivan D.Meldau, StefanZavala, Jorge AlbertoBaldwin, Ian T.textengapplication/pdfHerbivory-induced changes in photosynthesis have been documented in many plant species; however, the complexity of photosynthetic regulation and analysis has thwarted progress in understanding the mechanism involved, particularly those elicited by herbivore-specific elicitors. Here, we analysed the early photosynthetic gas exchange responses in Nicotiana attenuata plants after wounding and elicitation with Manduca sexta oral secretions and the pathways regulating these responses. Elicitation with M. sexta oral secretions rapidly decreased photosynthetic carbon assimilation (AC) in treated and systemic (untreated, vascularly connected) leaves, which were associated with changes in stomatal conductance, rather than with changes in Rubisco activity and 1-5 ribulose-1,5- bisphosphate turnover. Phytohormone profiling and gas exchange analysis of oral secretion-elicited transgenic plants altered in phytohormone regulation, biosynthesis and perception, combined with micrografting techniques, revealed that the local photosynthetic responses were mediated by 12-oxophytodienoic acid, while the systemic responses involved interactions among jasmonates, cytokinins and abscisic acid signalling mediated by mitogen-activated protein kinase 4. The analysis also revealed a role for cytokinins interacting with mitogen-activated protein kinase 4 in CO2-mediated stomatal regulation. Hence, oral secretions, while eliciting jasmonic acid-mediated defence responses, also elicit 12-oxophytodienoicacid-mediated changes in stomatal onductance and AC, an observation illustrating the complexity and economy of the signalling that regulates defence and carbon assimilation pathways in response to herbivore attack.Herbivory-induced changes in photosynthesis have been documented in many plant species; however, the complexity of photosynthetic regulation and analysis has thwarted progress in understanding the mechanism involved, particularly those elicited by herbivore-specific elicitors. Here, we analysed the early photosynthetic gas exchange responses in Nicotiana attenuata plants after wounding and elicitation with Manduca sexta oral secretions and the pathways regulating these responses. Elicitation with M. sexta oral secretions rapidly decreased photosynthetic carbon assimilation (AC) in treated and systemic (untreated, vascularly connected) leaves, which were associated with changes in stomatal conductance, rather than with changes in Rubisco activity and 1-5 ribulose-1,5- bisphosphate turnover. Phytohormone profiling and gas exchange analysis of oral secretion-elicited transgenic plants altered in phytohormone regulation, biosynthesis and perception, combined with micrografting techniques, revealed that the local photosynthetic responses were mediated by 12-oxophytodienoic acid, while the systemic responses involved interactions among jasmonates, cytokinins and abscisic acid signalling mediated by mitogen-activated protein kinase 4. The analysis also revealed a role for cytokinins interacting with mitogen-activated protein kinase 4 in CO2-mediated stomatal regulation. Hence, oral secretions, while eliciting jasmonic acid-mediated defence responses, also elicit 12-oxophytodienoicacid-mediated changes in stomatal onductance and AC, an observation illustrating the complexity and economy of the signalling that regulates defence and carbon assimilation pathways in response to herbivore attack.ABSCISIC ACIDCO2 REGULATIONGAS EXCHANGEHERBIVORE ASSOCIATED ELICITORS AND HERBIVORE - ESPECIFIC RESPONSESJASMONATESHERBIVORE PERCEPTIONPHOTOSYNTHESISPlant, cell and environment

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