| Summary: | The major theme of this thesis is allopolyploidization, with focus on Silene section Physolychnis. The evolutionary history of an allopolyploid species can be established by inferring the sister relationships of the homoeologous sequences from low copy nuclear markers. Sequence specific primers are here used to recover co-amplified genetic variants, which is an efficient alternative to the commonly used bacterial cloning. A phylogenetic overview of Physolychnis is presented, and two major clades within the section are defined: the Asian/American clade and the Arctic/Siberian S. ajanensis group. Previously unknown ploidy levels of several taxa are inferred from sequence data, based on the number of monophyletic sequence-clusters recovered per species. Several allopolyploid taxa stemming from crosses between the two major clades are identified. Of these, S. sachalinensis and S. involucrata have indistinguishable origins, although they are geographically and morphologically distinct. Certain taxa within Physolychnis exhibit an extra copy of the nuclear gene RPA2, originating from a distantly related lineage within section Auriculatae. This is in strong conflict with the species relationships (inferred in several previous studies), and is best explained by introgression between lineages belonging to the two Silene subgenera. This finding of gene flow between such long diverged lineages may represent one of the most extreme cases presented yet. In order to investigate whether S. sachalinensis and the three subspecies of S. involucrata originate from one or several hybridization events, transcriptome data from three distantly related Silene species is used to design a set of primers for 27 loci not previously sequenced in this genus. Together with five other loci, these are amplified from 43 specimens from within the parent / allopolyploid species complex, and sequenced using 454 amplicon sequencing. This method is particularly well suited for a systematic project involving allopolyploid taxa, since sequence variants ...
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