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Gymnosperm paleopolyploidy paper published

By emilysessa
On November 21, 2015
Tagged papers

A paper on ancient polyploidy in the gymnosperms, led by the Barker Lab at the University of Arizona (Emily’s postdoc lab), was published online yesterday in Science Advances. This paper demonstrates that there have been three ancient whole genome duplication events in the gymnosperms, and it introduces a new algorithm, MAPS, for placing paleopolyploidy events in a phylogenetic context.

Li Z, A Baniaga, EB Sessa, M Scascitelli, SW Graham, LH Rieseberg, MS Barker. Early genome duplications in conifers and other seed plants. Science Advances 1(10): e1501084. PDF

Abstract: Polyploidy is a common mode of speciation and evolution in angiosperms (flowering plants). In contrast, there is little evidence to date that whole genome duplication (WGD) has played a significant role in the evolution of their putative extant sister lineage, the gymnosperms. Recent analyses of the spruce genome, the first published conifer genome, failed to detect evidence of WGDs in gene age distributions and attributed many aspects of conifer biology to a lack of WGDs. We present evidence for three ancient genome duplications during the evolution of gymnosperms, based on phylogenomic analyses of transcriptomes from 24 gymnosperms and 3 outgroups. We use a new algorithm to place these WGD events in phylogenetic context: two in the ancestry of major conifer clades (Pinaceae and cupressophyte conifers) and one in Welwitschia (Gnetales). We also confirm that a WGD hypothesized to be restricted to seed plants is indeed not shared with ferns and relatives (monilophytes), a result that was unclear in earlier studies. Contrary to previous genomic research that reported an absence of polyploidy in the ancestry of contemporary gymnosperms, our analyses indicate that polyploidy has contributed to the evolution of conifers and other gymnosperms. As in the flowering plants, the evolution of the large genome sizes of gymnosperms involved both polyploidy and repetitive element activity.

2015-11-21
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Bartram Hall 521 & 527
Biology Department
University of Florida
Box 118525
Gainesville, FL 32611

Email: emilysessa@ufl.edu
Office: 352-392-1098
Lab: 352-294-3703
Fax: 352-392-3704

Department of Biology
College of Liberal Arts and Sciences
University of Florida

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