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2012 (English)In: Molecular biology and evolution, ISSN 0737-4038, E-ISSN 1537-1719, Vol. 29, no 7, p. 1721-1733Article in journal (Refereed) Published
Abstract [en]
Polyploidization plays an important role in plant speciation. The most recent estimates 36 report that up to 15% of angiosperm speciation events and 31% in ferns are accompanied 37 by changes in ploidy level. Polyploids can arise either through autopolyploidy, when the 38 sets of chromosomes originate from a single species, or through allopolyploidy, when 39 they originate from different species. In this study we used two different coalescent-based 40 methods to determine the date and mode of the polyploidization event that led to the 41 tetraploid cosmopolitan weed, Capsella bursa-pastoris. We sampled 78 C. bursa-pastoris 42 accessions, and 53 and 43 accessions from the only two other members of this genus, C. 43 grandiflora and C. rubella, respectively, and sequenced these accessions at 14 unlinked 44 nuclear loci with locus-specific primers in order to be able to distinguish the two 45 homeologues in the tetraploid. A large fraction of fixed differences between 46 homeologous genes in C. bursa-pastoris are segregating as polymorphisms in C. 47 grandiflora, consistent with an autopolyploid origin followed by disomic inheritance. To 48 test this, we first estimated the demographic parameters of an isolation-with-migration 49 model in a pairwise fashion between C. grandiflora and both genomes of C. bursa- 50 pastoris and used these parameters in coalescent simulations to test the mode of origin of 51 C. bursa-pastoris. Secondly we used Approximate Bayesian Computation to compare an 52 allopolyploid and an autopolyploid model. Both analyses led to the conclusion that C. 53 bursa-pastoris originated less than one million years ago by doubling of the C. 54 grandiflora genome.
Keywords
autopoplyploidy, coalescent, Brassicaceae, Approximate bayesian computation, IM model
National Category
Biological Sciences
Identifiers
urn:nbn:se:uu:diva-136786 (URN)10.1093/molbev/mss024 (DOI)000305409000004 ()
Note
Kate R. St.Onge, John Paul Foxe, and Li Junrui have contributed equally to this work
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