The butterfly plant arms-race escalated by gene and genome duplications

Patrick P. Edger; Hanna M. Heidel‐Fischer; Michaël Bekaert; Jadranka Rota; Gernot Glöckner; Adrian E. Platts; David G. Heckel; Joshua P. Der; Eric Wafula; Michelle Tang; Johannes A. Hofberger; Ann Smithson; Jocelyn C. Hall; Matthieu Blanchette; Thomas E. Bureau; Stephen Wright; Claude W. dePamphilis; M. Eric Schranz; Michael S. Barker; Gavin C. Conant; Niklas Wahlberg; Heiko Vogel; J. Chris Pires; Christopher W. Wheat

doi:10.1073/pnas.1503926112

The butterfly plant arms-race escalated by gene and genome duplications

Patrick P. Edger(University of Arizona), Hanna M. Heidel‐Fischer(Max Planck Society), Michaël Bekaert(University of Stirling), Jadranka Rota(University of Turku), Gernot Glöckner(University of Cologne), Adrian E. Platts(McGill University), David G. Heckel(Max Planck Society), Joshua P. Der(Pennsylvania State University), Eric Wafula(Pennsylvania State University), Michelle Tang(University of Missouri), Johannes A. Hofberger(Centre for BioSystems Genomics), Ann Smithson(The University of Western Australia), Jocelyn C. Hall(University of Alberta), Matthieu Blanchette(McGill University), Thomas E. Bureau(McGill University), Stephen Wright(University of Toronto), Claude W. dePamphilis(Pennsylvania State University), M. Eric Schranz(Centre for BioSystems Genomics), Michael S. Barker(University of Arizona), Gavin C. Conant(University of Missouri), Niklas Wahlberg(University of Turku), Heiko Vogel(Max Planck Society), J. Chris Pires(University of Missouri), Christopher W. Wheat(Stockholm University)

Proceedings of the National Academy of Sciences

June 22, 2015

10.1073/pnas.1503926112

Cited by 564Open Access

Full Text

Abstract

Coevolutionary interactions are thought to have spurred the evolution of key innovations and driven the diversification of much of life on Earth. However, the genetic and evolutionary basis of the innovations that facilitate such interactions remains poorly understood. We examined the coevolutionary interactions between plants (Brassicales) and butterflies (Pieridae), and uncovered evidence for an escalating evolutionary arms-race. Although gradual changes in trait complexity appear to have been facilitated by allelic turnover, key innovations are associated with gene and genome duplications. Furthermore, we show that the origins of both chemical defenses and of molecular counter adaptations were associated with shifts in diversification rates during the arms-race. These findings provide an important connection between the origins of biodiversity, coevolution, and the role of gene and genome duplications as a substrate for novel traits.

Related Papers

No related papers found

Powered by citation graph analysis