Global patterns in genomic diversity underpinning the evolution of insecticide resistance in the aphid crop pest Myzus persicae

Emanuele Mazzoni, Kumar Saurabh Singh, Erick M. G. Cordeiro, Bartlomiej J. Troczka, Adam Pym, Joanna Mackisack, Thomas C. Mathers, Ana Duarte, Fabrice Legeai, Stéphanie Robin, Pablo Bielza, Hannah J. Burrack, Kamel Charaabi, Ian Denholm, Christian C. Figueroa, Richard H. Ffrench-Constant, Georg Jander, John T. Margaritopoulos, Ralf Nauen, Claudio C. RamírezGuangwei Ren, Ilona Stepanyan, Paul A. Umina, Nina V. Voronova, John Vontas, Martin S. Williamson, Alex C. C. Wilson, Gao Xi-Wu, Young-Nam Youn, Christoph T. Zimmer, Jean-Christophe Simon, Alex Hayward, Chris Bass

Research output: Contribution to journalArticlepeer-review

Abstract

The aphid Myzus persicae is a destructive agricultural pest that displays an exceptional ability to develop resistance to both natural and synthetic insecticides. To investigate the evolution of resistance in this species we generated a chromosome-scale genome assembly and living panel of >110 fully sequenced globally sampled clonal lines. Our analyses reveal a remarkable diversity of resistance mutations segregating in global populations of M. persicae. We show that the emergence and spread of these mechanisms is influenced by host–plant associations, uncovering the widespread co‐option of a host-plant adaptation that also offers resistance against synthetic insecticides. We identify both the repeated evolution of independent resistance mutations at the same locus, and multiple instances of the evolution of novel resistance mechanisms against key insecticides. Our findings provide fundamental insights into the genomic responses of global insect populations to strong selective forces, and hold practical relevance for the control of pests and parasites
Original languageEnglish
Pages (from-to)N/A-N/A
JournalCommunications Biology
Volume4
DOIs
Publication statusPublished - 2021

Keywords

  • Myzus persicae
  • genome
  • insecticide resistance

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