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« Previous AbstractUse of microextraction by packed sorbent directly coupled to an electron ionization single quadrupole mass spectrometer as an alternative for non-separative determinations    Next AbstractSmall volatile lipophilic molecules induced belowground by aphid attack elicit a defensive response in neighbouring un-infested plants »

J Plant Physiol


Title:Tobacco overexpressing beta-ocimene induces direct and indirect responses against aphids in receiver tomato plants
Author(s):Cascone P; Iodice L; Maffei ME; Bossi S; Arimura G; Guerrieri E;
Address:"Institute for Sustainable Plant Protection, National Research Council, Portici (NA), Italy. Department of Life Sciences and Systems Biology, University of Turin, 10135 Turin, Italy. Department of Biological Science & Technology, Faculty of Industrial Science & Technology, Tokyo University of Science, Tokyo 125-8585, Japan. Institute for Sustainable Plant Protection, National Research Council, Portici (NA), Italy. Electronic address: guerrieri@ipp.cnr.it"
Journal Title:J Plant Physiol
Year:2015
Volume:20140902
Issue:
Page Number:28 - 32
DOI: 10.1016/j.jplph.2014.08.011
ISSN/ISBN:1618-1328 (Electronic) 0176-1617 (Linking)
Abstract:"In the last decade plant-to-plant communication has received an increasing attention, particularly for the role of Volatile Organic Compounds as possible elicitors of plant defense. The role of beta-ocimene as an interspecific elicitor of plant defense has been recently assessed in multitrophic systems including different plant species (Solanaceae, Poaceae, legumes) and different pest species including chewer insects and phytophagous mites. Both chewer insects and phytophagous mites are known to elicit specific plant defensive pathways which are different (at least in part) from those elicited by sap feeders. The aim of this research was to fill this gap of knowledge and to assess the role of beta-ocimene as an elicitor of plant defense against aphid pests, which are sap feeders. For this purpose we used as transgenic tobacco plant releasing an odour plume enriched in this compound as emitter and a tomato plant as receiver. We selected the aphid Macrosiphum euphorbiae and its natural enemy, the parasitoid Aphidius ervi, as the targets of plant induced defense. Tomato plant defense induced by beta-ocimene was assessed by characterizing the aphid performance in terms of fixing behaviour, development and reproduction (direct plant defense) and the parasitoid performance in terms of attraction towards tomato plants (indirect plant defense). The characterization of tomato response to beta-ocimene was completed by the identification of Volatile Organic Compounds as released by conditioned tomato plants. Tomato plants that were exposed to the volatiles of transgenic tobacco enriched in beta-ocimene resulted in less suitable for the aphids in respect to control ones (direct defense). On tomato plants 'elicited' by beta-ocimene we recorded: a significant lower number of aphids settled; a significant lower number newborn nymphs; a significant lower weight of aphids feeding. In addition, tomato plants 'elicited' by beta-ocimene resulted became more attractive towards the parasitoid A. ervi than control ones. These results could be explained at least in part by examining the composition of the Volatile Organic Compounds released by tomato plants 'elicited' by beta-ocimene. Indeed, we found a significantly higher release of several compounds including methyl salicylate and cis-3-hexen-1-ol. These two compounds have been demonstrated to impair aphid development and reproduction and to be involved in the attraction of the aphid parasitoid A. ervi. By considering the ubiquity of beta-ocimene and its ability to regulate the communication of plants belonging 30 to different species (if not families), we concluded that this compound is an ideal candidate for new 31 strategies of sustainable control of agricultural pests"
Keywords:"Acyclic Monoterpenes Alkenes/*metabolism Animals Aphids/*physiology Gene Expression Hexanols/metabolism *Host-Parasite Interactions Solanum lycopersicum/drug effects/genetics/*immunology *Plant Immunity Plants, Genetically Modified Salicylates/metabolism;"
Notes:"MedlineCascone, Pasquale Iodice, Luigi Maffei, Massimo E Bossi, Simone Arimura, Gen-Ichiro Guerrieri, Emilio eng Germany 2014/12/03 J Plant Physiol. 2015 Jan 15; 173:28-32. doi: 10.1016/j.jplph.2014.08.011. Epub 2014 Sep 2"

 
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