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Full-Text Articles in Life Sciences
Phylogeny Of Cyperaceae Based On Dna Sequence Data–A New Rbcl Analysis, David A. Simpson, A. Muthama Muasya, Marccus V. Alves, Jeremy J. Bruhl, Sandra Dhooge, Mark W. Chase, Carol A. Furness, Kioumars Ghamkhar, Paul Goetghebeur, Trevor R. Hodkinson, Adam D. Marchant, Anton A. Reznicek, Roland Nieuwborg, Eric H. Roalson, Erik Smets, Julian R. Starr, William W. Thomas, Karen L. Wilson, Xiufu Zhang
Phylogeny Of Cyperaceae Based On Dna Sequence Data–A New Rbcl Analysis, David A. Simpson, A. Muthama Muasya, Marccus V. Alves, Jeremy J. Bruhl, Sandra Dhooge, Mark W. Chase, Carol A. Furness, Kioumars Ghamkhar, Paul Goetghebeur, Trevor R. Hodkinson, Adam D. Marchant, Anton A. Reznicek, Roland Nieuwborg, Eric H. Roalson, Erik Smets, Julian R. Starr, William W. Thomas, Karen L. Wilson, Xiufu Zhang
Aliso: A Journal of Systematic and Floristic Botany
Since the Monocots II meeting in 1998, significant new data have been published that enhance our systematic knowledge of Cyperaceae. Phylogenetic studies in the family have also progressed steadily. For this study, a parsimony analysis was carried out using all rbcL sequences currently available for Cyperaceae, including data for two new genera. One of the four subfamilies (Caricoideae) and seven of the 14 tribes (Bisboeckelereae, Cariceae, Cryptangieae, Dulichieae, Eleocharideae, Sclerieae, Trilepideae) are monophyletic. Subfamily Mapanioideae and tribe Chrysitricheae are monophyletic if, as the evidence suggests, Hellmuthia is considered a member of Cypereae. Some other features of our analysis include: …
Phylogeny Of The Grasses (Poaceae) Revisited, Melvin R. Duvall, Jerrold I Davis, Lynn G. Clark, Jeffrey D. Noll, Douglas H. Goldman, J. Gabriel Sánchez-Ken
Phylogeny Of The Grasses (Poaceae) Revisited, Melvin R. Duvall, Jerrold I Davis, Lynn G. Clark, Jeffrey D. Noll, Douglas H. Goldman, J. Gabriel Sánchez-Ken
Aliso: A Journal of Systematic and Floristic Botany
The most robust previously published phylogeny for the overall structure of the grass family (Poaceae) shows three early diverging lineages and two major derived clades, the BEP clade and the PACCAD clade (Grass Phylogeny Working Group 2001). A few key taxa were incompletely sampled, however, and support for the BEP clade was moderate at best and relationships among the major lineages within the PACCAD clade remained unresolved. In addition, recent studies indicated that the sister group to Poaceae may be Joinvilleaceae and/or Ecdeiocoleaceae, the latter of which were not previously sampled. In this study, missing structural data were determined and …
Phylogeny Of Triticeae (Poaceae) Based On Three Organelle Genes, Two Single-Copy Nuclear Genes, And Morphology, Ole Seberg, Gitte Petersen
Phylogeny Of Triticeae (Poaceae) Based On Three Organelle Genes, Two Single-Copy Nuclear Genes, And Morphology, Ole Seberg, Gitte Petersen
Aliso: A Journal of Systematic and Floristic Botany
Triticeae are renowned for their complicated taxonomy, but their phylogeny is equally intricate and perplexing, and remains largely unresolved. Based on morphology and nucleotide sequences from two plastid genes (rbcL, rpoA), one mitochondrial gene (coxII), and two single-copy nuclear genes (DMC1, EF-G), the most comprehensive hypothesis (both with respect to taxa and data points) of the phylogeny of diploid Triticeae to date is presented. The incongruence length difference tests clearly indicate that the four logical data partitions (morphology and the three genome compartments) are mutually incongruent, except the mitochondrial and nuclear sequences. …
A Preliminary Phylogenetic Analysis Of The Grass Subfamily Pooideae (Poaceae), With Attention To Structural Features Of The Plastid And Nuclear Genomes, Including An Intron Loss In Gbssi, Jerrold I Davis, Robert J. Soreng
A Preliminary Phylogenetic Analysis Of The Grass Subfamily Pooideae (Poaceae), With Attention To Structural Features Of The Plastid And Nuclear Genomes, Including An Intron Loss In Gbssi, Jerrold I Davis, Robert J. Soreng
Aliso: A Journal of Systematic and Floristic Botany
Phylogenetic relationships in the grass family (Poaceae), with specific attention to the internal structure of subfamily Pooideae, are analyzed on the basis of nucleotide sequence variation in plastid-encoded genes (matK, ndhF, ndhH, and rbcL). The resulting phylogenetic hypothesis was examined with attention to the taxonomic distributions of two inversions and an insertion/deletion within ndhF, the absence of intron 10 of the nuclear gene GBSSI (waxy), and positions of the boundaries between the Short Single Copy (SSC) region and the neighboring Inverted Repeat (IR) regions of the plastid genome, relative to the endpoints of ndh …
A Comparison And Combination Of Plastid Atpb And Rbcl Gene Sequences For Inferring Phylogenetic Relationships Within Orchidaceae, Kenneth M. Cameron
A Comparison And Combination Of Plastid Atpb And Rbcl Gene Sequences For Inferring Phylogenetic Relationships Within Orchidaceae, Kenneth M. Cameron
Aliso: A Journal of Systematic and Floristic Botany
Parsimony analyses of DNA sequences from the plastid genes atpB and rbcL were completed for 173 species of Orchidaceae (representing 150 different genera) and nine genera from outgroup families in Asparagales. The atpB tree topology is similar to the rbcL tree, although the atpB data contain less homoplasy and provide greater jackknife support than rbcL alone. In combination, the two-gene tree recovers five monophyletic clades corresponding to subfamilies within Orchidaceae, and fully resolves them with moderate to high jackknife support as follows: Epidendroideae are sister to Orchidoideae, followed by Cypripedioideae, then Vanilloideae, and with …
Phylogeny Of Agavaceae Based On Ndhf, Rbcl, And Its Sequences, David J. Bogler, J. Chris Pires, Javier Francisco-Ortega
Phylogeny Of Agavaceae Based On Ndhf, Rbcl, And Its Sequences, David J. Bogler, J. Chris Pires, Javier Francisco-Ortega
Aliso: A Journal of Systematic and Floristic Botany
Great advances have been made in our understanding of the phylogeny and classification of Agavaceae in the last 20 years. In older systems Agavaceae were paraphyletic due to overemphasis of ovary position or habit. Discovery of a unique bimodal karyotype in Agave and Yucca eventually led to a reexamination of concepts and relationships in all the lilioid monocots, which continues to the present day. Developments in cytogenetics, microscopy, phylogenetic systematics, and most recently DNA technology have led to remarkable new insights. Large-scale rbcL sequence studies placed Agavaceae with the core Asparagales and identified closely related taxa. Analysis of cpDNA …
Subtribal Relationships In Tribe Tradescantieae (Commelinaceae)Based On Molecular And Morphological Data, Dylan J. Wade, Timothy M. Evans, Robert B. Faden
Subtribal Relationships In Tribe Tradescantieae (Commelinaceae)Based On Molecular And Morphological Data, Dylan J. Wade, Timothy M. Evans, Robert B. Faden
Aliso: A Journal of Systematic and Floristic Botany
Tribe Tradescantieae (Commelinaceae) consists of seven subtribes and 25 genera. Previous attempts to evaluate phylogenetic relationships within the group using morphology or the chloroplast-encoded rbcL have either been highly homoplasious (morphology) or provided only weak support for subtribal relationships due to insufficient variability (rbcL). In this study, phylogenetic analysis of nucleotide sequence data from the chloroplast-encoded ndhF and rbcL genes, as well as 47 morphological and anatomical characters, were used to evaluate relationships within and among the subtribes of Tradescantieae. The addition of ndhF resulted in a more highly resolved phylogeny and greater bootstrap …
Cheilanthoid Ferns (Pteridaceae: Cheilanthoideae) In The Southwestern United States And Adjacent Mexico-A Molecular Phylogenetic Reassessment Of Generic Lines, Gerald J. Gastony, David R. Rollo
Cheilanthoid Ferns (Pteridaceae: Cheilanthoideae) In The Southwestern United States And Adjacent Mexico-A Molecular Phylogenetic Reassessment Of Generic Lines, Gerald J. Gastony, David R. Rollo
Aliso: A Journal of Systematic and Floristic Botany
Cheilanthoids are the most commonly encountered fern species of the arid southwest and other xeric habitats throughout the world. Cheilanthes, Notholaena, Pellaea, and Bommeria are the best known southwestern genera, but some authors recognize segregate genera such as Argyrochosma, Aspidotis, Astrolepis, and Pentagramma. Others reject distinctions among some of these genera as artificial, leaving cheilanthoid generic concepts in a state of flux. This unsettled taxonomy is often attributed to morphological homoplasy associated with adaptation to xeric habitats, suggesting the need for new analyses that do not depend on potentially misleading morphology. Nucleotide sequences …