The Capsella rubella genome and the genomic consequences of rapid mating system evolution

Tanja Slotte; Khaled M. Hazzouri; J. Arvid Ågren; Daniel Koenig; Florian Maumus; Ya‐Long Guo; Kim A. Steige; Adrian E. Platts; Juan S. Escobar; L. Killian Newman; Wei Wang; Terezie Mandáková; Emilio Vello; Lisa M. Smith; Stefan R. Henz; Joshua G. Steffen; Shohei Takuno; Yaniv Brandvain; Graham Coop; Peter Andolfatto; Tina T. Hu; Mathieu Blanchette; Richard M. Clark; Hadi Quesneville; Magnus Nordborg; Brandon S. Gaut; Martin A. Lysák; Jerry Jenkins; Jane Grimwood; Jarrod Chapman; Simon Prochnik; Shengqiang Shu; Daniel S. Rokhsar; Jeremy Schmutz; Detlef Weigel; Stephen Wright

doi:10.1038/ng.2669

The Capsella rubella genome and the genomic consequences of rapid mating system evolution

Tanja Slotte(University of Toronto), Khaled M. Hazzouri(New York University Abu Dhabi), J. Arvid Ågren(University of Toronto), Daniel Koenig(Max Planck Institute for Developmental Biology), Florian Maumus(Centre Île-de-France - Versailles-Grignon), Ya‐Long Guo(Chinese Academy of Sciences), Kim A. Steige(Uppsala University), Adrian E. Platts(McGill University), Juan S. Escobar(University of Toronto), L. Killian Newman(University of Toronto), Wei Wang(University of Toronto), Terezie Mandáková(Central European Institute of Technology), Emilio Vello(McGill University), Lisa M. Smith(Max Planck Institute for Developmental Biology), Stefan R. Henz(Max Planck Institute for Developmental Biology), Joshua G. Steffen(University of Utah), Shohei Takuno(University of California, Irvine), Yaniv Brandvain(University of California, Davis), Graham Coop(University of California, Davis), Peter Andolfatto(Princeton University), Tina T. Hu(Princeton University), Mathieu Blanchette(McGill University), Richard M. Clark(University of Utah), Hadi Quesneville(Centre Île-de-France - Versailles-Grignon), Magnus Nordborg(Gregor Mendel Institute of Molecular Plant Biology), Brandon S. Gaut(University of California, Irvine), Martin A. Lysák(Central European Institute of Technology), Jerry Jenkins(HudsonAlpha Institute for Biotechnology), Jane Grimwood(HudsonAlpha Institute for Biotechnology), Jarrod Chapman(Joint Genome Institute), Simon Prochnik(Joint Genome Institute), Shengqiang Shu(Joint Genome Institute), Daniel S. Rokhsar(Joint Genome Institute), Jeremy Schmutz(Joint Genome Institute), Detlef Weigel(Max Planck Institute for Developmental Biology), Stephen Wright(University of Toronto)

Nature Genetics

June 9, 2013

10.1038/ng.2669

Cited by 471Open Access

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Abstract

Stephen Wright, Detlef Weigel and colleagues report the whole-genome sequence of Capsella rubella, a highly selfing crucifer found throughout much of southern and western Europe. They compare mixed-stage flower bud transcriptomes from C. rubella and C. grandiflora, finding a shift in expression of genes associated with flowering phenotypes and providing insights into the transition to selfing. The shift from outcrossing to selfing is common in flowering plants1,2, but the genomic consequences and the speed at which they emerge remain poorly understood. An excellent model for understanding the evolution of self fertilization is provided by Capsella rubella, which became self compatible <200,000 years ago. We report a C. rubella reference genome sequence and compare RNA expression and polymorphism patterns between C. rubella and its outcrossing progenitor Capsella grandiflora. We found a clear shift in the expression of genes associated with flowering phenotypes, similar to that seen in Arabidopsis, in which self fertilization evolved about 1 million years ago. Comparisons of the two Capsella species showed evidence of rapid genome-wide relaxation of purifying selection in C. rubella without a concomitant change in transposable element abundance. Overall we document that the transition to selfing may be typified by parallel shifts in gene expression, along with a measurable reduction of purifying selection.

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