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Mol Plant Microbe Interact


Title:Signal signature and transcriptome changes of Arabidopsis during pathogen and insect attack
Author(s):De Vos M; Van Oosten VR; Van Poecke RM; Van Pelt JA; Pozo MJ; Mueller MJ; Buchala AJ; Metraux JP; Van Loon LC; Dicke M; Pieterse CM;
Address:"Graduate School Experimental Plant Sciences, Section Phytopathology, Department of Biology, Utrecht Faculty of Science, Utrecht University, P.O. Box 800.84, 3508 TB Utrecht, The Netherlands"
Journal Title:Mol Plant Microbe Interact
Year:2005
Volume:18
Issue:9
Page Number:923 - 937
DOI: 10.1094/MPMI-18-0923
ISSN/ISBN:0894-0282 (Print) 0894-0282 (Linking)
Abstract:"Plant defenses against pathogens and insects are regulated differentially by cross-communicating signaling pathways in which salicylic acid (SA), jasmonic acid (JA), and ethylene (ET) play key roles. To understand how plants integrate pathogen- and insect-induced signals into specific defense responses, we monitored the dynamics of SA, JA, and ET signaling in Arabidopsis after attack by a set of microbial pathogens and herbivorous insects with different modes of attack. Arabidopsis plants were exposed to a pathogenic leaf bacterium (Pseudomonas syringae pv. tomato), a pathogenic leaf fungus (Alternaria brassicicola), tissue-chewing caterpillars (Pieris rapae), cell-content-feeding thrips (Frankliniella occidentalis), or phloem-feeding aphids (Myzus persicae). Monitoring the signal signature in each plant-attacker combination showed that the kinetics of SA, JA, and ET production varies greatly in both quantity and timing. Analysis of global gene expression profiles demonstrated that the signal signature characteristic of each Arabidopsis-attacker combination is orchestrated into a surprisingly complex set of transcriptional alterations in which, in all cases, stress-related genes are overrepresented. Comparison of the transcript profiles revealed that consistent changes induced by pathogens and insects with very different modes of attack can show considerable overlap. Of all consistent changes induced by A. brassicicola, Pieris rapae, and E occidentalis, more than 50% also were induced consistently by P. syringae. Notably, although these four attackers all stimulated JA biosynthesis, the majority of the changes in JA-responsive gene expression were attacker specific. All together, our study shows that SA, JA, and ET play a primary role in the orchestration of the plant's defense response, but other regulatory mechanisms, such as pathway cross-talk or additional attacker-induced signals, eventually shape the highly complex attacker-specific defense response"
Keywords:"Alternaria/pathogenicity Animals Arabidopsis/*genetics/microbiology/parasitology/*physiology Base Sequence Cyclopentanes/metabolism DNA, Plant/genetics Ethylenes/metabolism Gene Expression Profiling Genes, Plant Genetic Markers Insecta/pathogenicity Oligo;"
Notes:"MedlineDe Vos, Martin Van Oosten, Vivian R Van Poecke, Remco M P Van Pelt, Johan A Pozo, Maria J Mueller, Martin J Buchala, Antony J Metraux, Jean-Pierre Van Loon, L C Dicke, Marcel Pieterse, Corne M J eng Comparative Study Research Support, Non-U.S. Gov't 2005/09/20 Mol Plant Microbe Interact. 2005 Sep; 18(9):923-37. doi: 10.1094/MPMI-18-0923"

 
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