Arabidopsis GH3-LIKE DEFENSE GENE 1 is required for accumulation of salicylic acid, activation of defense responses and resistance to Pseudomonas syringae

doi:10.1111/j.1365-313X.2007.03130.x

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Systems Maintenance, Monday, 15th February 2010

Wiley InterScience

The Plant Journal

Volume 51 Issue 2, Pages 234 - 246

Published Online: 23 May 2007

Published in association with the Society for Experimental Biology

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Arabidopsis GH3-LIKE DEFENSE GENE 1 is required for accumulation of salicylic acid, activation of defense responses and resistance to Pseudomonas syringae

Guru Jagadeeswaran ¹ , Surabhi Raina ¹ , Biswa R. Acharya ¹ , Shahina B. Maqbool ¹ , Stephen L. Mosher ² , Heidi M. Appel ³ , Jack C. Schultz ³ , Daniel F. Klessig ² and Ramesh Raina ^1,*

¹ Department of Biology, Syracuse University, Syracuse, NY 13244, USA,
² Boyce Thompson Institute for Plant Research, Tower Road, Ithaca, NY 14853, USA, and
³ Department of Entomology, Pennsylvania State University, University Park, PA 16802, USA

Correspondence to *(fax + 1 315 443 2012; email raraina@syr.edu).

KEYWORDS

GH3-LIKE DEFENSE GENE 1 • GDG1 • salicylic acid • bacterial pathogen • defense signaling • Arabidopsis

ABSTRACT

In Arabidopsis, the GH3-like gene family consists of 19 members, several of which have been shown to adenylate the plant hormones jasmonic acid, indole acetic acid and salicylic acid (SA). In some cases, this adenylation has been shown to catalyze hormone conjugation to amino acids. Here we report molecular characterization of the GH3-LIKE DEFENSE GENE 1 (GDG1), a member of the GH3-like gene family, and show that GDG1 is an important component of SA-mediated defense against the bacterial pathogen Pseudomonas syringae. Expression of GDG1 is induced earlier and to a higher level in response to avirulent pathogens compared to virulent pathogens. gdg1 null mutants are compromised in several pathogen defense responses, including activation of defense genes and resistance against virulent and avirulent bacterial pathogens. Accumulation of free and glucoside-conjugated SA (SAG) in response to pathogen infection is compromised in gdg1 mutants. All defense-related phenotypes of gdg1 can be rescued by external application of SA, suggesting that gdg1 mutants are defective in the SA-mediated defense pathway(s) and that GDG1 functions upstream of SA. Our results suggest that GDG1 contributes to both basal and resistance gene-mediated inducible defenses against P. syringae (and possibly other pathogens) by playing a critical role in regulating the levels of pathogen-inducible SA. GDG1 is allelic to the PBS3 (avrPphB susceptible) gene.