Global patterns in genomic diversity underpinning the evolution of insecticide resistance in the aphid crop pest Myzus persicae
2021
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 | Emanuele Mazzoni | Ralf Nauen | Claudio C. Ramírez | Guangwei 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
Singh, Bass and colleagues generate new genomic resources for the aphid crop pest, Myzus persicae, comprising a chromosome-scale genome assembly and resequenced genomes of >100 globally sampled clonal lines. Using this dataset, they uncover both mechanisms underpinning the evolution of insecticide resistance and ecological factors that influence its emergence and spread.
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