Analysis of 81 genes from 64 plastid genomes resolves relationships in angiosperms and identifies genome-scale evolutionary patterns

Angiosperms are the largest and most successful clade of land plants with >250,000 species distributed in nearly every terrestrial habitat. Many phylogenetic studies have been based on DNA sequences of one to several genes, but, despite decades of intensive efforts, relationships among early dive...

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Published in:	Proceedings of the National Academy of Sciences - PNAS Vol. 104; no. 49; pp. 19369 - 19374
Main Authors:	Jansen, Robert K, Cai, Zhengqiu, Raubeson, Linda A, Daniell, Henry, dePamphilis, Claude W, Leebens-Mack, James, Müller, Kai F, Guisinger-Bellian, Mary, Haberle, Rosemarie C, Hansen, Anne K, Chumley, Timothy W, Lee, Seung-Bum, Peery, Rhiannon, McNeal, Joel R, Kuehl, Jennifer V, Boore, Jeffrey L
Format:	Journal Article
Language:	English
Published:	United States National Academy of Sciences 04-12-2007 National Acad Sciences
Subjects:	Angiosperms Biological Sciences chloroplast DNA chloroplasts Correlation analysis Evolution Evolution, Molecular Evolutionary biology Flowers & plants Gene expression genes Genes, Plant Genetic Variation genome Genome, Plastid - genetics Genomes Genomics Introns Magnoliophyta Magnoliopsida - classification Magnoliopsida - genetics molecular evolution molecular sequence data nucleotide sequences Nucleotides Nymphaeales Phylogenetics Phylogeny plants Plastids sequence alignment Taxa Topology
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Summary:	Angiosperms are the largest and most successful clade of land plants with >250,000 species distributed in nearly every terrestrial habitat. Many phylogenetic studies have been based on DNA sequences of one to several genes, but, despite decades of intensive efforts, relationships among early diverging lineages and several of the major clades remain either incompletely resolved or weakly supported. We performed phylogenetic analyses of 81 plastid genes in 64 sequenced genomes, including 13 new genomes, to estimate relationships among the major angiosperm clades, and the resulting trees are used to examine the evolution of gene and intron content. Phylogenetic trees from multiple methods, including model-based approaches, provide strong support for the position of Amborella as the earliest diverging lineage of flowering plants, followed by Nymphaeales and Austrobaileyales. The plastid genome trees also provide strong support for a sister relationship between eudicots and monocots, and this group is sister to a clade that includes Chloranthales and magnoliids. Resolution of relationships among the major clades of angiosperms provides the necessary framework for addressing numerous evolutionary questions regarding the rapid diversification of angiosperms. Gene and intron content are highly conserved among the early diverging angiosperms and basal eudicots, but 62 independent gene and intron losses are limited to the more derived monocot and eudicot clades. Moreover, a lineage-specific correlation was detected between rates of nucleotide substitutions, indels, and genomic rearrangements.
Bibliography:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 USDOE Office of Science (SC), Biological and Environmental Research (BER) Present addresses: Genome Project Solutions, 1024 Promenade Street, Hercules, CA 94547; and University of California, 3060 VLSB, Berkeley, CA 94702. Author contributions: R.K.J. designed research; Z.C., L.A.R., H.D., C.W.d., J.L.-M., M.G.-B., R.C.H., A.K.H., T.W.C., S.-B.L., R.P., J.R.M., J.V.K., and J.L.B. performed research; R.K.J., Z.C., L.A.R., J.L.-M., and K.F.M. analyzed data; and R.K.J. wrote the paper. Communicated by Peter H. Raven, Missouri Botanical Garden, St. Louis, MO, September 25, 2007
ISSN:	0027-8424 1091-6490
DOI:	10.1073/pnas.0709121104