Molecular analysis of menadione-induced resistance against biotic stress in Arabidopsis

Borges, Andrés A.; Dobón, Albor; Expósito Rodríguez, Marino; Jiménez Arias, David; Borges-Pérez, Andrés; Casañas-Sánchez, Verónica; Pérez Méndez, J. A.; Luis Jorge, Juan Cristo; Tornero, Pablo; Invescan Consultores

Molecular analysis of menadione-induced resistance against biotic stress in Arabidopsis

19 páginas, 6 figuras, 2 tablas.

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Bibliographic Details
Main Authors:	Borges, Andrés A., Dobón, Albor, Expósito Rodríguez, Marino, Jiménez Arias, David, Borges-Pérez, Andrés, Casañas-Sánchez, Verónica, Pérez Méndez, J. A., Luis Jorge, Juan Cristo, Tornero, Pablo
Other Authors:	Invescan Consultores
Format:	artículo biblioteca
Language:	English
Published:	Blackwell Publishing 2009-10
Subjects:	Arabidopsis, Menadione sodium bisulphite, Induced resistance, Priming, Pseudomonas,
Online Access:	http://hdl.handle.net/10261/42861 http://dx.doi.org/10.13039/501100004837
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spelling	dig-ipna-es-10261-428612023-02-02T15:35:12Z Molecular analysis of menadione-induced resistance against biotic stress in Arabidopsis Borges, Andrés A. Dobón, Albor Expósito Rodríguez, Marino Jiménez Arias, David Borges-Pérez, Andrés Casañas-Sánchez, Verónica Pérez Méndez, J. A. Luis Jorge, Juan Cristo Tornero, Pablo Invescan Consultores Ministerio de Ciencia e Innovación (España) Fundación Genoma España Caja Canarias Gobierno de Canarias Arabidopsis Menadione sodium bisulphite Induced resistance Priming Pseudomonas 19 páginas, 6 figuras, 2 tablas. Menadione sodium bisulphite (MSB) is a water-soluble derivative of vitamin K3, or menadione, and has been previously demonstrated to function as a plant defence activator against several pathogens in several plant species. However, there are no reports of the role of this vitamin in the induction of resistance in the plant model Arabidopsis thaliana. In the current study, we demonstrate that MSB induces resistance by priming in Arabidopsis against the virulent strain Pseudomonas syringae pv. tomato DC3000 (Pto) without inducing necrosis or visible damage. Changes in gene expression in response to 0.2 mm MSB were analysed in Arabidopsis at 3, 6 and 24 h post-treatment using microarray technology. In general, the treatment with MSB does not correlate with other publicly available data, thus MSB produces a unique molecular footprint. We observed 158 differentially regulated genes among all the possible trends. More up-regulated genes are included in categories such as 'response to stress' than the background, and the behaviour of these genes in different treatments confirms their role in response to biotic and abiotic stress. In addition, there is an over-representation of the G-box in their promoters. Some interesting functions are represented among the individual up-regulated genes, such as glutathione S-transferases, transcription factors (including putative regulators of the G-box) and cytochrome P450s. This work provides a wide insight into the molecular cues underlying the effect of MSB as a plant resistance inducer. This work was partially funded by an INVESCAN, S.L. grant (No.OTT2001438) to the CSIC and by a BIO2006-02168 grant of MICINN to PT. The microarrays were funded in part by the “Genome España” Foundation. MER was supported by a research contract (ID-TF-06/002) from the Consejería de Industria, Comercio y Nuevas Tecnologías (Gobierno de Canarias). The authors thank CajaCanarias for their research support. We also thank Lorena Perales for her help in performing the bacterial growth curves, Dr. Héctor Cabrera for his useful advice on writing the manuscript, the English translation service of the Universidad Politécnica de Valencia and Mrs. Pauline Agnew whose endeavoured to edit the English translation of this paper. Peer reviewed 2011-11-28T15:26:57Z 2011-11-28T15:26:57Z 2009-10 artículo http://purl.org/coar/resource_type/c_6501 Plant Biotechnology Journal 7: 744-762 (2009) http://hdl.handle.net/10261/42861 10.1111/j.1467-7652.2009.00439.x http://dx.doi.org/10.13039/501100004837 en http://dx.doi.org/10.1111/j.1467-7652.2009.00439.x open Blackwell Publishing
institution	IPNA ES
collection	DSpace
country	España
countrycode	ES
component	Bibliográfico
access	En linea
databasecode	dig-ipna-es
tag	biblioteca
region	Europa del Sur
libraryname	Biblioteca del IPNA España
language	English
topic	Arabidopsis Menadione sodium bisulphite Induced resistance Priming Pseudomonas Arabidopsis Menadione sodium bisulphite Induced resistance Priming Pseudomonas
spellingShingle	Arabidopsis Menadione sodium bisulphite Induced resistance Priming Pseudomonas Arabidopsis Menadione sodium bisulphite Induced resistance Priming Pseudomonas Borges, Andrés A. Dobón, Albor Expósito Rodríguez, Marino Jiménez Arias, David Borges-Pérez, Andrés Casañas-Sánchez, Verónica Pérez Méndez, J. A. Luis Jorge, Juan Cristo Tornero, Pablo Molecular analysis of menadione-induced resistance against biotic stress in Arabidopsis
description	19 páginas, 6 figuras, 2 tablas.
author2	Invescan Consultores
author_facet	Invescan Consultores Borges, Andrés A. Dobón, Albor Expósito Rodríguez, Marino Jiménez Arias, David Borges-Pérez, Andrés Casañas-Sánchez, Verónica Pérez Méndez, J. A. Luis Jorge, Juan Cristo Tornero, Pablo
format	artículo
topic_facet	Arabidopsis Menadione sodium bisulphite Induced resistance Priming Pseudomonas
author	Borges, Andrés A. Dobón, Albor Expósito Rodríguez, Marino Jiménez Arias, David Borges-Pérez, Andrés Casañas-Sánchez, Verónica Pérez Méndez, J. A. Luis Jorge, Juan Cristo Tornero, Pablo
author_sort	Borges, Andrés A.
title	Molecular analysis of menadione-induced resistance against biotic stress in Arabidopsis
title_short	Molecular analysis of menadione-induced resistance against biotic stress in Arabidopsis
title_full	Molecular analysis of menadione-induced resistance against biotic stress in Arabidopsis
title_fullStr	Molecular analysis of menadione-induced resistance against biotic stress in Arabidopsis
title_full_unstemmed	Molecular analysis of menadione-induced resistance against biotic stress in Arabidopsis
title_sort	molecular analysis of menadione-induced resistance against biotic stress in arabidopsis
publisher	Blackwell Publishing
publishDate	2009-10
url	http://hdl.handle.net/10261/42861 http://dx.doi.org/10.13039/501100004837
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Molecular analysis of menadione-induced resistance against biotic stress in Arabidopsis

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