Genome downsizing in polyploid plants
TLDR
The results suggest that loss of DNA following polyploid formation, or genome downsizing, may be a widespread phenomenon of considerable biological significance and the nature of the evolutionary forces that may be driving DNA loss are discussed.Abstract:
All else being equal, polyploids are expected to have larger C-values (amount of DNA in the unreplicated gametic nucleus) than their diploid progenitors, increasing in direct proportion with ploidy. This expectation is observed in some polyploid series, especially those newly formed, but there are examples suggesting that C-values in particular polyploids are less than expected. The availability of the Angiosperm DNA C-values database (http:// www.rbgkew.org.uk/cvavhomepage.html) has allowed this question to be addressed across a broad range of angiosperms and has revealed striking results deviating from expectation: (i) mean 1C DNA amount did not increase in direct proportion with ploidy, and (ii) mean DNA amount per basic genome (calculated by dividing the 2C value by ploidy) tended to decrease with increasing ploidy. These results suggest that loss of DNA following polyploid formation, or genome downsizing, may be a widespread phenomenon of considerable biological significance. Recent advances in our understanding of the molecular events that take place following polyploid formation together with new data on how DNA amounts can both increase and decrease provide some insights into how genome downsizing may take place. The nature of the evolutionary forces that may be driving DNA loss are also discussed.read more
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The Role of Hybridization in Plant Speciation
TL;DR: The time is therefore right for a review of the role of hybridization in plant speciation, demonstrating that perhaps all angiosperms have likely undergone at least one round of polyploidization and that hybridization has been an important force in generating angiosperm species diversity.
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Polyploidy and angiosperm diversification
Douglas E. Soltis,Victor A. Albert,Jim Leebens-Mack,Charles D. Bell,Andrew H. Paterson,Chunfang Zheng,David Sankoff,Claude W. dePamphilis,P. Kerr Wall,Pamela S. Soltis +9 more
TL;DR: Comparisons of diversification rates suggest that genome doubling may have led to a dramatic increase in species richness in several angiosperm lineages, including Poaceae, Solanaceae, Fabaceae, and Brassicaceae, but additional genomic studies are needed to pinpoint the exact phylogenetic placement of the ancient polyploidy events within these lineages.
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Genomic Plasticity and the Diversity of Polyploid Plants
Andrew R. Leitch,Ilia J. Leitch +1 more
TL;DR: The ability to withstand large-scale changes, frequently within one or a few generations, is associated with a restructuring of the transcriptome, metabolome, and proteome and can result in an altered phenotype and ecology.
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Advances in the study of polyploidy since Plant speciation
TL;DR: Despite the recent advances in the understanding of polyploid evolution, many exciting aspects remain under-investigated, and some of these include the consequences of genetic and genomic changes in naturalpolyploid populations, the physiological and ecological effects of polyPLoidy, and whether recurrent polyploidsy prompts evolution to repeat itself.
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The more the better? The role of polyploidy in facilitating plant invasions
Mariska te Beest,Mariska te Beest,Johannes J. Le Roux,David M. Richardson,Anne K. Brysting,Jan Suda,Jan Suda,Magdalena Kubešová,Magdalena Kubešová,Petr Pyšek,Petr Pyšek +10 more
TL;DR: Polyploidy can be an important factor in species invasion success through a combination of 'pre-adaptation', whereby polyploid lineages are predisposed to conditions in the new range and, therefore, have higher survival rates and fitness in the earliest establishment phase.
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