Abstract
Several demographic and selective events occurred during the domestication of wheat from the allotetraploid wild emmer (Triticum turgidum ssp. dicoccoides). Cultivated wheat has since been affected by other historical events. We analyzed nucleotide diversity at 21 loci in a sample of 101 individuals representing 4 taxa corresponding to representative steps in the recent evolution of wheat (wild, domesticated, cultivated durum, and bread wheats) to unravel the evolutionary history of cultivated wheats and to quantify its impact on genetic diversity. Sequence relationships are consistent with a single domestication event and identify 2 genetically different groups of bread wheat. The wild group is not highly polymorphic, with only 212 polymorphic sites among the 21,720 bp sequenced, and, during domestication, diversity was further reduced in cultivated forms--by 69% in bread wheat and 84% in durum wheat--with considerable differences between loci, some retaining no polymorphism at all. Coalescent simulations were performed and compared with our data to estimate the intensity of the bottlenecks associated with domestication and subsequent selection. Based on our 21-locus analysis, the average intensity of domestication bottleneck was estimated at about 3--giving a population size for the domesticated form about one third that of wild dicoccoides. The most severe bottleneck, with an intensity of about 6, occurred in the evolution of durum wheat. We investigated whether some of the genes departed from the empirical distribution of most loci, suggesting that they might have been selected during domestication or breeding. We detected a departure from the null model of demographic bottleneck for the hypothetical gene HgA. However, the atypical pattern of polymorphism at this locus might reveal selection on the linked locus Gsp1A, which may affect grain softness--an important trait for end-use quality in wheat.
Highlights
Domestication events provide good examples of dramatic morphological and genetic modifications occurring on a short evolutionary time scale
We investigated the consequences of domestication for diversity in the wheat genome, using the current wild group dicoccoides as a proxy for the initial population before domestication
Like other tree representation based on a combination of marker information widespread over the genome, this tree should be interpreted with caution because of recombination events between loci
Summary
Domestication events provide good examples of dramatic morphological and genetic modifications occurring on a short evolutionary time scale. These changes reflect demographic and selective events during the adaptation of crops to a wide range of environments, sometimes very different from those of their native area. Molecular marker–based studies of crop domestication have increased our understanding of the current genetic status of crop species (Salamini et al 2002), making it possible to identify agronomically useful genes in wild relatives and to introduce these genes into the cultivated gene pool (Septiningsih et al 2003) and to identify genes involved in the domestication process or in subsequent selection events (Wright et al 2005). This species has an allotetraploid genome (AABB) resulting from spontaneous amphiploidization between the diploid
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
