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- Angiosperms; Amborella; Nymphaeales; plastid genome; water lilies (1)
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Articles 1 - 5 of 5
Full-Text Articles in Biology
Another Look At The Root Of The Angiosperms Reveals A Familiar Tale, Bryan Drew, Brad Ruhfel, Stephen Smith, Michael Moore, Barbara Briggs, Matthew Gitzendanner, Pamela Soltis, Douglas Soltis
Another Look At The Root Of The Angiosperms Reveals A Familiar Tale, Bryan Drew, Brad Ruhfel, Stephen Smith, Michael Moore, Barbara Briggs, Matthew Gitzendanner, Pamela Soltis, Douglas Soltis
Brad R. Ruhfel
Since the advent of molecular phylogenetics more than 25 years ago, a major goal of plant systematists has been to discern the root of the angiosperms. Although most studies indicate that Amborella trichopoda is sister to all remaining extant flowering plants, support for this position has varied with respect to both the sequence data sets and analyses employed. Recently, Goremykin et al. (2013) questioned the “Amborella-sister hypothesis” using a “noise-reduction” approach and reported a topology with Amborella + Nymphaeales (water lilies) sister to all remaining angiosperms. Through a series of analyses of both plastid genomes and mitochondrial genes, we continue …
From Algae To Angiosperms – Inferring The Phylogeny Of Green Plants ( Viridiplantae ) From 360 Plastid Genomes, Brad Ruhfel, Matthew Gitzendanner, Paula Soltis, Douglas Soltis, J. Burleigh
From Algae To Angiosperms – Inferring The Phylogeny Of Green Plants ( Viridiplantae ) From 360 Plastid Genomes, Brad Ruhfel, Matthew Gitzendanner, Paula Soltis, Douglas Soltis, J. Burleigh
Brad R. Ruhfel
Background
Next-generation sequencing has provided a wealth of plastid genome sequence data from an increasingly diverse set of green plants (Viridiplantae). Although these data have helped resolve the phylogeny of numerous clades (e.g., green algae, angiosperms, and gymnosperms), their utility for inferring relationships across all green plants is uncertain. Viridiplantae originated 700-1500 million years ago and may comprise as many as 500,000 species. This clade represents a major source of photosynthetic carbon and contains an immense diversity of life forms, including some of the smallest and largest eukaryotes. Here we explore the limits and challenges of inferring a comprehensive green …
Combined Morphological And Molecular Phylogeny Of The Clusioid Clade (Malpighiales) And The Placement Of The Ancient Rosid Macrofossil Paleoclusia, Brad Ruhfel, Peter Stevens, Charles Davis
Combined Morphological And Molecular Phylogeny Of The Clusioid Clade (Malpighiales) And The Placement Of The Ancient Rosid Macrofossil Paleoclusia, Brad Ruhfel, Peter Stevens, Charles Davis
Brad R. Ruhfel
Premise of research. The clusioid clade is a member of the large rosid order Malpighiales and contains∼1900 species in five families: Bonnetiaceae, Calophyllaceae, Clusiaceae sensu stricto (s.s.), Hypericaceae, and Podostemaceae. Despite recent efforts to clarify their phylogenetic relationships using molecular data, no such data are available for several critical taxa, including especially Hypericum ellipticifolium (previously recognized in Lianthus), Lebrunia, Neotatea, Thysanostemon, and the second-oldest rosid fossil (∼90 Ma), Paleoclusia chevalieri. Here, we (i) assess congruence between phylogenies inferred from morphological and molecular data, (ii) analyze morphological and molecular data simultaneously to place taxa lacking molecular data, and (iii) use ancestral …
Phylogenomics And A Posteriori Data Partitioning Resolve The Cretaceous Angiosperm Radiation Malpighiales, Zhenxiang Xi, Brad Ruhfel, Hanno Schaefer, André Amorim, M. Sugumaran, Kenneth Wurdack, Peter Endress, Merran Matthews, Peter Stevens, Sarah Mathews, Charles Davis
Phylogenomics And A Posteriori Data Partitioning Resolve The Cretaceous Angiosperm Radiation Malpighiales, Zhenxiang Xi, Brad Ruhfel, Hanno Schaefer, André Amorim, M. Sugumaran, Kenneth Wurdack, Peter Endress, Merran Matthews, Peter Stevens, Sarah Mathews, Charles Davis
Brad R. Ruhfel
The angiosperm order Malpighiales includes ∼16,000 species and constitutes up to 40% of the understory tree diversity in tropical rain forests. Despite remarkable progress in angiosperm systematics during the last 20 y, relationships within Malpighiales remain poorly resolved, possibly owing to its rapid rise during the mid-Cretaceous. Using phylogenomic approaches, including analyses of 82 plastid genes from 58 species, we identified 12 additional clades in Malpighiales and substantially increased resolution along the backbone. This greatly improved phylogeny revealed a dynamic history of shifts in net diversification rates across Malpighiales, with bursts of diversification noted in the Barbados cherries (Malpighiaceae), cocas …
Phylogeny Of The Clusioid Clade (Malpighiales): Evidence From The Plastid And Mitochonrial Genomes, Brad R. Ruhfel, Volker Bittrich, Claudia A. Bove, Mats H.G. Gustafsson, C. Thomas Philbrick, Rolf Rutsihauser, Zhenxiang Xi, Charles C. Davis
Phylogeny Of The Clusioid Clade (Malpighiales): Evidence From The Plastid And Mitochonrial Genomes, Brad R. Ruhfel, Volker Bittrich, Claudia A. Bove, Mats H.G. Gustafsson, C. Thomas Philbrick, Rolf Rutsihauser, Zhenxiang Xi, Charles C. Davis
Brad R. Ruhfel
• Premise of the study : The clusioid clade includes five families (i.e., Bonnetiaceae, Calophyllaceae, Clusiaceae s.s., Hypericaceae, and Podostemaceae) represented by 94 genera and ~1900 species. Species in this clade form a conspicuous element of tropical forests worldwide and are important in horticulture, timber production, and pharmacology. We conducted a taxon-rich multigene phylogenetic analysis of the clusioids to clarify phylogenetic relationships in this clade.
• Methods : We analyzed plastid ( matK , ndhF , and rbcL ) and mitochondrial ( matR ) nucleotide sequence data using parsimony, maximum likelihood, and Bayesian inference. Our combined data set included 194 …