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Mol Ecol


Title:Adaptation of a polyphagous herbivore to a novel host plant extensively shapes the transcriptome of herbivore and host
Author(s):Wybouw N; Zhurov V; Martel C; Bruinsma KA; Hendrickx F; Grbic V; Van Leeuwen T;
Address:"Institute for Biodiversity and Ecosystem Dynamics, University of Amsterdam, P.O. Box 9424, 1090 GE, Amsterdam, The Netherlands. Department of Biology, University of Western Ontario, London, N6A 5B7, ON, Canada. Royal Belgian Institute of Natural Sciences, Vautierstraat 29, B-1000, Brussel, Belgium. Terrestrial Ecology Unit, Biology Department, Ghent University, K. L. Ledeganckstraat 35, B-9000, Gent, Belgium. Instituto de Ciencias de la Vid y el Vino, 26006, Logrono, Spain. Laboratory of Agrozoology, Department of Crop Protection, Faculty of Bioscience Engineering, Ghent University, B-9000, Ghent, Belgium"
Journal Title:Mol Ecol
Year:2015
Volume:20150903
Issue:18
Page Number:4647 - 4663
DOI: 10.1111/mec.13330
ISSN/ISBN:1365-294X (Electronic) 0962-1083 (Linking)
Abstract:"Generalist arthropod herbivores rapidly adapt to a broad range of host plants. However, the extent of transcriptional reprogramming in the herbivore and its hosts associated with adaptation remains poorly understood. Using the spider mite Tetranychus urticae and tomato as models with available genomic resources, we investigated the reciprocal genomewide transcriptional changes in both spider mite and tomato as a consequence of mite's adaptation to tomato. We transferred a genetically diverse mite population from bean to tomato where triplicated populations were allowed to propagate for 30 generations. Evolving populations greatly increased their reproductive performance on tomato relative to their progenitors when reared under identical conditions, indicative of genetic adaptation. Analysis of transcriptional changes associated with mite adaptation to tomato revealed two main components. First, adaptation resulted in a set of mite genes that were constitutively downregulated, independently of the host. These genes were mostly of an unknown function. Second, adapted mites mounted an altered transcriptional response that had greater amplitude of changes when re-exposed to tomato, relative to nonadapted mites. This gene set was enriched in genes encoding detoxifying enzymes and xenobiotic transporters. Besides the direct effects on mite gene expression, adaptation also indirectly affected the tomato transcriptional responses, which were attenuated upon feeding of adapted mites, relative to the induced responses by nonadapted mite feeding. Thus, constitutive downregulation and increased transcriptional plasticity of genes in a herbivore may play a central role in adaptation to host plants, leading to both a higher detoxification potential and reduced production of plant defence compounds"
Keywords:"Adaptation, Physiological/*genetics Animals Biological Evolution Genetics, Population Herbivory/*genetics Solanum lycopersicum/*genetics/physiology Tetranychidae/enzymology/*genetics *Transcriptome adaptation genetic accommodation herbivory plant defence;"
Notes:"MedlineWybouw, Nicky Zhurov, Vladimir Martel, Catherine Bruinsma, Kristie A Hendrickx, Frederik Grbic, Vojislava Van Leeuwen, Thomas eng Research Support, Non-U.S. Gov't England 2015/07/28 Mol Ecol. 2015 Sep; 24(18):4647-63. doi: 10.1111/mec.13330. Epub 2015 Sep 3"

 
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