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Plant Physiol


Title:Proton-transfer-reaction mass spectrometry as a new tool for real time analysis of root-secreted volatile organic compounds in Arabidopsis
Author(s):Steeghs M; Bais HP; de Gouw J; Goldan P; Kuster W; Northway M; Fall R; Vivanco JM;
Address:"Aeronomy Laboratory, National Oceanic and Atmospheric Administration, Boulder, Colorado 80305, USA"
Journal Title:Plant Physiol
Year:2004
Volume:135
Issue:1
Page Number:47 - 58
DOI: 10.1104/pp.104.038703
ISSN/ISBN:0032-0889 (Print) 1532-2548 (Electronic) 0032-0889 (Linking)
Abstract:"Plant roots release about 5% to 20% of all photosynthetically-fixed carbon, and as a result create a carbon-rich environment for numerous rhizosphere organisms, including plant pathogens and symbiotic microbes. Although some characterization of root exudates has been achieved, especially of secondary metabolites and proteins, much less is known about volatile organic compounds (VOCs) released by roots. In this communication, we describe a novel approach to exploring these rhizosphere VOCs and their induction by biotic stresses. The VOC formation of Arabidopsis roots was analyzed using proton-transfer-reaction mass spectrometry (PTR-MS), a new technology that allows rapid and real time analysis of most biogenic VOCs without preconcentration or chromatography. Our studies revealed that the major VOCs released and identified by both PTR-MS and gas chromatography-mass spectrometry were either simple metabolites, ethanol, acetaldehyde, acetic acid, ethyl acetate, 2-butanone, 2,3,-butanedione, and acetone, or the monoterpene, 1,8-cineole. Some VOCs were found to be produced constitutively regardless of the treatment; other VOCs were induced specifically as a result of different compatible and noncompatible interactions between microbes and insects and Arabidopsis roots. Compatible interactions of Pseudomonas syringae DC3000 and Diuraphis noxia with Arabidopsis roots resulted in the rapid release of 1,8-cineole, a monoterpene that has not been previously reported in Arabidopsis. Mechanical injuries to Arabidopsis roots did not produce 1,8-cineole nor any C6 wound-VOCs; compatible interactions between Arabidopsis roots and Diuraphis noxia did not produce any wound compounds. This suggests that Arabidopsis roots respond to wounding differently from above-ground plant organs. Trials with incompatible interactions did not reveal a set of compounds that was significantly different compared to the noninfected roots. The PTR-MS method may open the way for functional root VOC analysis that will complement genomic investigations in Arabidopsis"
Keywords:"Animals Arabidopsis/*metabolism/microbiology/parasitology Bacteria/growth & development Computer Systems Cyclohexanols/metabolism Eucalyptol Fungi/growth & development Gas Chromatography-Mass Spectrometry Immunity, Innate Insecta/growth & development Mass;"
Notes:"MedlineSteeghs, Marco Bais, Harsh Pal de Gouw, Joost Goldan, Paul Kuster, William Northway, Megan Fall, Ray Vivanco, Jorge M eng Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, Non-P.H.S. 2004/05/14 Plant Physiol. 2004 May; 135(1):47-58. doi: 10.1104/pp.104.038703"

 
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