Abstract

Reconstructing the origin of a polyploid species is particularly challenging when an ancestor has become extinct. Under such circumstances, the extinct donor of a genome found in the polyploid may be treated as a 'ghost' species in that its prior existence is recognized through the presence of its genome in the polyploid. In this study, we aimed to determine the polyploid origin of Oxyria sinensis (2n=40) for which only one congeneric species is known, that is diploid O.digyna (2n=14). Genomic insitu hybridization (GISH), transcriptome, phylogenetic and demographic analyses, and ecological niche modelling were conducted for this purpose. GISH revealed that O.sinensis comprised 14 chromosomes from O.digyna and 26 chromosomes from an unknown ancestor. Transcriptome analysis indicated that following divergence from O.digyna, involving genome duplication around 12 million years ago (Ma), a second genome duplication occurred approximately 6Ma to give rise to O.sinensis. Oxyria sinensis was shown to contain homologous gene sequences divergent from those present in O.digyna in addition to a set that clustered with those in O.digyna. Coalescent simulations indicated that O.sinensis expanded its distribution approximately 6-7Ma, possibly following the second polyploidization event, whereas O.digyna expanded its range much later. It was also indicated that the distributions of both species contracted and re-expanded during the Pleistocene climatic oscillations. Ecological niche modelling similarly suggested that both species experienced changes in their distributional ranges in response to Quaternary climatic changes. The extinction of the unknown 'ghost' tetraploid species implicated in the origin of O.sinensis could have resulted from superior adaptation of O.sinensis to repeated climatic changes in the region where it now occurs.

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