RT Journal Article SR Electronic T1 Hybrid origins and the earliest stages of diploidization in the highly successful recent polyploid Capsella bursa-pastoris JF bioRxiv FD Cold Spring Harbor Laboratory SP 006783 DO 10.1101/006783 A1 Gavin Douglas A1 Gesseca Gos A1 Kim A. Steige A1 Adriana Salcedo A1 Karl Holm A1 J. Arvid Ågren A1 Khaled M. Hazzouri A1 Wei Wang A1 Adrian E. Platts A1 Emily B. Josephs A1 Robert J. Williamson A1 Barbara Neuffer A1 Martin Lascoux A1 Tanja Slotte A1 Stephen I. Wright YR 2014 UL http://biorxiv.org/content/early/2014/07/04/006783.abstract AB Whole genome duplication events have occurred repeatedly during flowering plant evolution, and there is growing evidence for predictable patterns of gene retention and loss following polyploidization. Despite these important insights, the rate and processes governing the earliest stages of diploidization remain uncertain, and the relative importance of genetic drift vs. natural selection in the process of gene degeneration and loss is unclear. Here we conduct whole genome resequencing in Capsella bursa-pastoris, a recently formed tetraploid with one of the most widespread species distributions of any angiosperm. Whole genome data provide strong support for recent hybrid origins of the tetraploid species within the last 100-300,000 years from two diploid progenitors in the Capsella genus. Major-effect inactivating mutations are frequent, but many were inherited from the parental species and show no evidence of being fixed by positive selection. Despite a lack of large-scale gene loss, we observe a shift in the efficacy of natural selection genome-wide. Our results suggest that the earliest stages of diploidization are associated with quantitative genome-wide shifts in the strength and efficacy of selection rather than rapid gene loss, and that nonfunctionalization can receive a ‘head start’ through deleterious variants found in parental diploid populations.