TY - JOUR
T1 - A genome triplication associated with early diversification of the core eudicots
AU - Jiao, Yuannian
AU - Leebens-Mack, Jim
AU - Ayyampalayam, Saravanaraj
AU - Bowers, John E.
AU - McKain, Michael R.
AU - McNeal, Joel
AU - Rolf, Megan
AU - Ruzicka, Daniel R.
AU - Wafula, Eric
AU - Wickett, Norman J.
AU - Wu, Xiaolei
AU - Zhang, Yong
AU - Wang, Jun
AU - Zhang, Yeting
AU - Carpenter, Eric J.
AU - Deyholos, Michael K.
AU - Kutchan, Toni M.
AU - Chanderbali, Andre S.
AU - Soltis, Pamela S.
AU - Stevenson, Dennis W.
AU - McCombie, Richard
AU - Pires, J. C.
AU - Wong, Gane Ka Shu
AU - Soltis, Douglas E.
AU - dePamphilis, Claude W.
N1 - Funding Information:
We thank Joshua P Der for helpful comments. This work was supported in part by funds from the NSF Plant Genome Research Program (DEB 0638595, The Ancestral Angiosperm Genome Project to CWD, JL-M, PSS, DES; DEB 0701748, The Parasitic Plant Genome Project to CWD; DEB 0922742, The Amborella Genome: A Reference for Plant Biology to CWD, JL-M, PSS, DES; IOS 0421604, Genomics of Comparative Seed Evolution to DWS, RM), NSF Tree of Life program (’MonATOL,’ DEB 0829868, From Acorus to Zingiber - Assembling the Phylogeny of the Monocots to DWS, JCP, JL-M, RM, CWD), National Institute on Drug Abuse (NIDA) at the National Institutes of Health (project 5R01DA025197-02 to TMK, CWD, JL-M), the Alberta 1000 Plants Initiative (1000 Green Plant Transcriptome Project, to GW) by Alberta Advanced Education and Technology, by Musea Ventures, and by BGI-Shenzhen), iPLant (to JL-M) and by the Biology Department and Plant Biology Graduate Program of Penn State University.
PY - 2012/1/26
Y1 - 2012/1/26
N2 - Background: Although it is agreed that a major polyploidy event, gamma, occurred within the eudicots, the phylogenetic placement of the event remains unclear.Results: To determine when this polyploidization occurred relative to speciation events in angiosperm history, we employed a phylogenomic approach to investigate the timing of gene set duplications located on syntenic gamma blocks. We populated 769 putative gene families with large sets of homologs obtained from public transcriptomes of basal angiosperms, magnoliids, asterids, and more than 91.8 gigabases of new next-generation transcriptome sequences of non-grass monocots and basal eudicots. The overwhelming majority (95%) of well-resolved gamma duplications was placed before the separation of rosids and asterids and after the split of monocots and eudicots, providing strong evidence that the gamma polyploidy event occurred early in eudicot evolution. Further, the majority of gene duplications was placed after the divergence of the Ranunculales and core eudicots, indicating that the gamma appears to be restricted to core eudicots. Molecular dating estimates indicate that the duplication events were intensely concentrated around 117 million years ago.Conclusions: The rapid radiation of core eudicot lineages that gave rise to nearly 75% of angiosperm species appears to have occurred coincidentally or shortly following the gamma triplication event. Reconciliation of gene trees with a species phylogeny can elucidate the timing of major events in genome evolution, even when genome sequences are only available for a subset of species represented in the gene trees. Comprehensive transcriptome datasets are valuable complements to genome sequences for high-resolution phylogenomic analysis.
AB - Background: Although it is agreed that a major polyploidy event, gamma, occurred within the eudicots, the phylogenetic placement of the event remains unclear.Results: To determine when this polyploidization occurred relative to speciation events in angiosperm history, we employed a phylogenomic approach to investigate the timing of gene set duplications located on syntenic gamma blocks. We populated 769 putative gene families with large sets of homologs obtained from public transcriptomes of basal angiosperms, magnoliids, asterids, and more than 91.8 gigabases of new next-generation transcriptome sequences of non-grass monocots and basal eudicots. The overwhelming majority (95%) of well-resolved gamma duplications was placed before the separation of rosids and asterids and after the split of monocots and eudicots, providing strong evidence that the gamma polyploidy event occurred early in eudicot evolution. Further, the majority of gene duplications was placed after the divergence of the Ranunculales and core eudicots, indicating that the gamma appears to be restricted to core eudicots. Molecular dating estimates indicate that the duplication events were intensely concentrated around 117 million years ago.Conclusions: The rapid radiation of core eudicot lineages that gave rise to nearly 75% of angiosperm species appears to have occurred coincidentally or shortly following the gamma triplication event. Reconciliation of gene trees with a species phylogeny can elucidate the timing of major events in genome evolution, even when genome sequences are only available for a subset of species represented in the gene trees. Comprehensive transcriptome datasets are valuable complements to genome sequences for high-resolution phylogenomic analysis.
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U2 - 10.1186/gb-2012-13-1-r3
DO - 10.1186/gb-2012-13-1-r3
M3 - Article
C2 - 22280555
AN - SCOPUS:84862777561
SN - 1474-7596
VL - 13
JO - Genome biology
JF - Genome biology
IS - 1
M1 - R3
ER -