The genome of Tetranychus urticae reveals herbivorous pest adaptations

  1. Grbić, M. 824
  2. Van Leeuwen, T. 9
  3. Clark, R.M. 7
  4. Rombauts, S. 913
  5. Rouzé, P. 913
  6. Grbić, V. 824
  7. Osborne, E.J. 7
  8. Dermauw, W. 9
  9. Ngoc, P.C.T. 913
  10. Ortego, F. 10
  11. Hernández-Crespo, P. 10
  12. Diaz, I. 3
  13. Martinez, M. 3
  14. Navajas, M. 19
  15. Sucena, E. 25
  16. Magalhães, S. 31
  17. Nagy, L. 12
  18. Pace, R.M. 12
  19. Djuranović, S. 26
  20. Smagghe, G. 9
  21. Iga, M. 9
  22. Christiaens, O. 9
  23. Veenstra, J.A. 22
  24. Ewer, J. 4
  25. Villalobos, R.M. 4
  26. Hutter, J.L. 8
  27. Hudson, S.D. 8
  28. Velez, M. 1823
  29. Yi, S.V. 29
  30. Zeng, J. 29
  31. Pires-Da Silva, A. 6
  32. Roch, F. 3234
  33. Cazaux, M. 8
  34. Navarro, M. 8
  35. Zhurov, V. 8
  36. Acevedo, G. 8
  37. Bjelica, A. 8
  38. Fawcett, J.A. 13162021
  39. Bonnet, E. 1328
  40. Martens, C. 913
  41. Mostrar todos los/as autores/as +
  1. 1 Boyce Thompson Institute for Plant Research, Ithaca, NY 14853, United States
  2. 2 Centre National de la Recherche Scientifique
    info

    Centre National de la Recherche Scientifique

    París, Francia

    ROR https://ror.org/02feahw73

  3. 3 Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria
    info

    Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria

    Madrid, España

    ROR https://ror.org/011q66e29

  4. 4 Universidad de Valparaíso
    info

    Universidad de Valparaíso

    Valparaíso, Chile

    ROR https://ror.org/00h9jrb69

  5. 5 KU Leuven
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    KU Leuven

    Lovaina, Bélgica

    ROR https://ror.org/05f950310

  6. 6 University of Texas at Arlington
    info

    University of Texas at Arlington

    Arlington, Estados Unidos

    ROR https://ror.org/019kgqr73

  7. 7 University of Utah
    info

    University of Utah

    Salt Lake City, Estados Unidos

    ROR https://ror.org/03r0ha626

  8. 8 University of Western Ontario
    info

    University of Western Ontario

    London, Canadá

    ROR https://ror.org/02grkyz14

  9. 9 Ghent University
    info

    Ghent University

    Gante, Bélgica

    ROR https://ror.org/00cv9y106

  10. 10 Centro de Investigaciones Biológicas
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    Centro de Investigaciones Biológicas

    Madrid, España

    ROR https://ror.org/04advdf21

  11. 11 University of Guelph
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    University of Guelph

    Guelph, Canadá

    ROR https://ror.org/01r7awg59

  12. 12 University of Arizona
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    University of Arizona

    Tucson, Estados Unidos

    ROR https://ror.org/03m2x1q45

  13. 13 Flanders Institute for Biotechnology
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    Flanders Institute for Biotechnology

    Gante, Bélgica

    ROR https://ror.org/03xrhmk39

  14. 14 Joint Genome Institute
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    Joint Genome Institute

    Walnut Creek, Estados Unidos

    ROR https://ror.org/04xm1d337

  15. 15 Fasteris SA, CH-1228 Plan-les-Ouates, Switzerland
  16. 16 Graduate University For Advanced Studies
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    Graduate University For Advanced Studies

    Hayama, Japón

    ROR https://ror.org/0516ah480

  17. 17 HudsonAlpha Institute for Biotechnology, Huntsville, AL 35806, United States
  18. 18 Universidad Autónoma de Madrid
    info

    Universidad Autónoma de Madrid

    Madrid, España

    ROR https://ror.org/01cby8j38

  19. 19 Institut National de la Recherche Agronomique
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    Institut National de la Recherche Agronomique

    París, Francia

  20. 20 French Institute of Health and Medical Research
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    French Institute of Health and Medical Research

    París, Francia

    ROR https://ror.org/02vjkv261

  21. 21 Institut Curie, 26 rue d'Ulm, Paris 75248, France
  22. 22 Institut de Neurosciences Cognitives et Intégratives d’Aquitaine
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    Institut de Neurosciences Cognitives et Intégratives d’Aquitaine

    Burdeos, Francia

    ROR https://ror.org/01a6zh966

  23. 23 Instituto de Catálisis y Petroleoquímica
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    Instituto de Catálisis y Petroleoquímica

    Madrid, España

    ROR https://ror.org/004swtw80

  24. 24 Instituto de Ciencias de la Vid y del Vino
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    Instituto de Ciencias de la Vid y del Vino

    Logroño, España

    ROR https://ror.org/01rm2sw78

  25. 25 Instituto Gulbenkian de Ciê Ncia, 2781-901 Oeiras, Portugal
  26. 26 Johns Hopkins University
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    Johns Hopkins University

    Baltimore, Estados Unidos

    ROR https://ror.org/00za53h95

  27. 27 Max Planck Institute for Developmental Biology
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    Max Planck Institute for Developmental Biology

    Tubinga, Alemania

    ROR https://ror.org/022jc0g24

  28. 28 Mines ParisTech, Fontainebleau 77300, France
  29. 29 Georgia Institute of Technology
    info

    Georgia Institute of Technology

    Atlanta, Estados Unidos

    ROR https://ror.org/01zkghx44

  30. 30 Southern Crop Protection and Food Research Centre, Agriculture and Agri-Food Canada, N5V 4T3 London, Canada
  31. 31 Universidade de Lisboa
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    Universidade de Lisboa

    Lisboa, Portugal

    ROR https://ror.org/01c27hj86

  32. 32 Université de Toulouse
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    Université de Toulouse

    Tolosa, Francia

  33. 33 Pierre and Marie Curie University
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    Pierre and Marie Curie University

    París, Francia

  34. 34 University of Münster
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    University of Münster

    Münster, Alemania

    ROR https://ror.org/00pd74e08

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Revista:
Nature

ISSN: 0028-0836

Año de publicación: 2011

Volumen: 479

Número: 7374

Páginas: 487-492

Tipo: Artículo

DOI: 10.1038/NATURE10640 PMID: 22113690 SCOPUS: 2-s2.0-81855212676 WoS: WOS:000297285600041 GOOGLE SCHOLAR

Otras publicaciones en: Nature

Repositorio institucional: lock_openAcceso abierto Editor

Resumen

The spider mite Tetranychus urticae is a cosmopolitan agricultural pest with an extensive host plant range and an extreme record of pesticide resistance. Here we present the completely sequenced and annotated spider mite genome, representing the first complete chelicerate genome. At 90 megabases T. urticae has the smallest sequenced arthropod genome. Compared with other arthropods, the spider mite genome shows unique changes in the hormonal environment and organization of the Hox complex, and also reveals evolutionary innovation of silk production. We find strong signatures of polyphagy and detoxification in gene families associated with feeding on different hosts and in new gene families acquired by lateral gene transfer. Deep transcriptome analysis of mites feeding on different plants shows how this pest responds to a changing host environment. The T. urticae genome thus offers new insights into arthropod evolution and plant-herbivore interactions, and provides unique opportunities for developing novel plant protection strategies. © 2011 Macmillan Publishers Limited. All rights reserved.