sorry, we can't preview this file

...but you can still download Table_1_Polyploidy in the Conifer Genus Juniperus: An Unexpectedly High Rate.DOCX

Table_1_Polyploidy in the Conifer Genus Juniperus: An Unexpectedly High Rate.DOCX (667.31 kB)

Table_1_Polyploidy in the Conifer Genus Juniperus: An Unexpectedly High Rate.DOCX

Download (667.31 kB)
dataset
posted on 22.05.2019 by Perla Farhat, Oriane Hidalgo, Thierry Robert, Sonja Siljak-Yakovlev, Ilia J. Leitch, Robert P. Adams, Magda Bou Dagher-Kharrat

Recent research suggests that the frequency of polyploidy may have been underestimated in gymnosperms. One notable example is in the conifer genus Juniperus, where there are already a few reports of polyploids although data are still missing for most species. In this study, we evaluated the extent of polyploidy in Juniperus by conducting the first comprehensive screen across nearly all of the genus. Genome size data from fresh material, together with chromosome counts, were used to demonstrate that genome sizes estimated from dried material could be used as reliable proxies to uncover the extent of ploidy diversity across the genus. Our analysis revealed that 16 Juniperus taxa were polyploid, with tetraploids and one hexaploid being reported. Furthermore, by analyzing the genome size and chromosome data within a phylogenetic framework we provide the first evidence of possible lineage-specific polyploidizations within the genus. Genome downsizing following polyploidization is moderate, suggesting limited genome restructuring. This study highlights the importance of polyploidy in Juniperus, making it the first conifer genus and only the second genus in gymnosperms where polyploidy is frequent. In this sense, Juniperus represents an interesting model for investigating the genomic and ecological consequences of polyploidy in conifers.

History

References

Licence

Exports