Systematic status of Campydora Cobb, 1920 (Nematoda: Campydorina)

Nematology ◽  
2003 ◽  
Vol 5 (5) ◽  
pp. 699-711 ◽  
Author(s):  
Peter Mullin ◽  
Timothy Harris ◽  
Thomas Powers
Keyword(s):  
Maximum Likelihood ◽  
Ribosomal Dna ◽  
Dna Sequences ◽  
Maximum Parsimony ◽  
Phylogenetic Analyses ◽  
Small Subunit ◽  
Systematic Position ◽  
Nominal Species ◽  
Competing Hypotheses ◽  
Small Subunit Ribosomal Dna

AbstractThe systematic position of Campydora Cobb, 1920, which possesses many unique morphological features, especially in pharyngeal structure and stomatal armature, has long been a matter of uncertainty with the 'position of the Campydorinae' (containing only Campydora) being questionable. A review of the morphology of C. demonstrans, the only nominal species of Campydora concluded that the species warranted placement as the sole member of a monotypic suborder, Campydorina, in the order Dorylaimida. Others placed Campydorina in the order Enoplida. We conducted phylogenetic analyses, using 18s small subunit ribosomal DNA sequences generated from a number of taxa in the subclasses Enoplia and Dorylaimia, to evaluate these competing hypotheses. Although precise taxonomic placement of the genus Campydora and the identity of its closest living relatives is in need of further investigation, our analyses, under maximum parsimony, distance, and maximum likelihood criteria, unambiguously indicate that Campydora shares a common, more recent, ancestry with genera such as Alaimus, Pontonema, Tripyla and Ironus (Enoplida), rather than with any members of Dorylaimida, Mononchida or Triplonchida.

A phylogenetic study of the Micarea prasina group shows that Micarea micrococca includes three distinct lineages

2009 ◽  
Vol 42 (1) ◽  
pp. 7-21 ◽  
Author(s):  
Paweł CZARNOTA ◽  
Beata GUZOW-KRZEMIŃSKA
Keyword(s):  
Maximum Likelihood ◽  
Ribosomal Dna ◽  
Dna Sequences ◽  
Maximum Parsimony ◽  
Small Subunit ◽  
Sister Species ◽  
Phylogenetic Study ◽  
Rdna Sequences ◽  
Small Subunit Ribosomal Dna

AbstractThe phylogeny of the Micarea prasina group was investigated using mitochondrial small subunit ribosomal DNA sequences from 14 taxa representing this group, four other members of the genus Micarea, and Psilolechia lucida as an outgroup. A total of 31 new mtSSU rDNA sequences were generated, including 10 from the M. micrococca complex. Bayesian, maximum parsimony (MP) and maximum likelihood (ML) methods were used to analyse the data. The results show that M. micrococca is not monophyletic and forms three strongly supported lineages: 1) M. micrococca s. str., 2) M. byssacea (Th. Fr.) Czarnota, Guzow-Krzemińska & Coppins comb. nov., and 3) a putative taxon that requires further studies. Micarea viridileprosa is a sister species to M. micrococca s. str. and the recently described M. nowakii is a sister species to M. prasina s. str. The placement of M. tomentosa within the M. prasina group is confirmed. Micarea hedlundii appears to be more closely related to the M. micrococca complex than M. prasina s. str. Descriptions, illustrations, taxonomic remarks, distribution and habitat data for M. micrococca s. str. and M. byssacea are provided. A lectotype for Biatora byssacea Hampe non Zwackh and a neotype for Catillaria prasina β [var.] byssacea are selected.

Phylogeny of the Micareaceae inferred from nrSSU DNA sequences

2004 ◽  
Vol 36 (1) ◽  
pp. 27-35 ◽  
Author(s):  
Heidi L. ANDERSEN ◽  
Stefan EKMAN
Keyword(s):  
Bayesian Inference ◽  
Maximum Likelihood ◽  
Dna Sequences ◽  
Phylogenetic Analyses ◽  
Sister Group ◽  
Small Subunit ◽  
Sensu Stricto ◽  
Confidence Set ◽  
Tree Topologies ◽  
Small Subunit Ribosomal Dna

The phylogeny of the Micareaceae and the genus Micarea Fr. was studied using 39 nuclear small subunit ribosomal DNA sequences. Phylogenetic analyses were carried out using maximum parsimony, maximum likelihood, and Bayesian inference. A confidence set of trees was estimated using expected likelihood weights to investigate a series of hypotheses of monophyly. Tree topologies were very similar between methods and differed only in the placement of a few poorly supported branches. The results indicate that the Micareaceae in its current circumscription belongs in the Lecanorales, but that it is not monophyletic. Psilolechia, Micarea with a ‘non-micareoid’ photobiont, Micarea sensu stricto and Byssoloma form a paraphyletic grade in this study. Micarea sensu stricto and Byssoloma (Pilocarpaceae) form a strongly supported monophyletic group, which constitutes the sister group to the Bacidiaceae. Scoliciosporum A. Massal has sometimes been considered close to Micarea, but no support was found for that hypothesis.

Relationships of the Insect-Pathogenic Order Entomophthorales (Zygomycota, Fungi) Based on Phylogenetic Analyses of Nuclear Small Subunit Ribosomal DNA Sequences (SSU rDNA)

1998 ◽  
Vol 24 (3) ◽  
pp. 325-334 ◽  
Author(s):  
Annette Bruun Jensen ◽  
Andrea Gargas ◽  
Jørgen Eilenberg ◽  
Søren Rosendahl
Keyword(s):  
Ribosomal Dna ◽  
Dna Sequences ◽  
Phylogenetic Analyses ◽  
Small Subunit ◽  
Ssu Rdna ◽  
Small Subunit Ribosomal Dna

scholarly journals Morphology, genetic characterization and molecular phylogeny of pinworm Skrjabinema longicaudatum n. sp. (Oxyurida: Oxyuridae) from the endangered Tibetan antelope Pantholops hodgsonii (Abel) (Artiodactyla: Bovidae)

2020 ◽  
Vol 13 (1) ◽  
Author(s):  
Yi-Fan Cao ◽  
Hui-Xia Chen ◽  
Yang Li ◽  
Dang-Wei Zhou ◽  
Shi-Long Chen ◽  
...  
Keyword(s):  
New Species ◽  
Ribosomal Dna ◽  
Dna Sequences ◽  
Sequence Data ◽  
Phylogenetic Analyses ◽  
Large Subunit ◽  
Small Subunit ◽  
Sister Relationship ◽  
Tibetan Antelope ◽  
A New Species

Abstract Background The Tibetan antelope Pantholops hodgsonii (Abel) (Artiodactyla: Bovidae) is an endangered species of mammal endemic to the Qinghai-Tibetan Plateau. Parasites and parasitic diseases are considered to be important threats in the conservation of the Tibetan antelope. However, our present knowledge of the composition of the parasites of the Tibetan antelope remains limited. Methods Large numbers of nematode parasites were collected from a dead Tibetan antelope. The morphology of these nematode specimens was observed using light and scanning electron microscopy. The nuclear and mitochondrial DNA sequences, i.e. small subunit ribosomal DNA (18S), large subunit ribosomal DNA (28S), internal transcribed spacer (ITS) and cytochrome c oxidase subunit 1 (cox1), were amplified and sequenced for molecular identification. Moreover, phylogenetic analyses were performed using maximum likelihood (ML) inference based on 28S and 18S + 28S + cox1 sequence data, respectively, in order to clarify the systematic status of these nematodes. Results Integrated morphological and genetic evidence reveals these nematode specimens to be a new species of pinworm Skrjabinema longicaudatum (Oxyurida: Oxyuridae). There was no intraspecific nucleotide variation between different individuals of S. longicaudatum n. sp. in the partial 18S, 28S, ITS and cox1 sequences. However, a high level of nucleotide divergence was revealed between the new species and its congeners in 28S (8.36%) and ITS (20.3–23.7%) regions, respectively. Molecular phylogenetic results suggest that the genus Skrjabinema should belong to the subfamily Oxyurinae (Oxyuroidea: Oxyuridae), instead of the subfamily Syphaciidae or Skrjabinemiinae in the traditional classification, as it formed a sister relationship to the genus Oxyuris. Conclusions A new species of pinworm Skrjabinema longicaudatum n. sp. (Oxyurida: Oxyuridae) is described. Skrjabinema longicaudatum n. sp. represents the first species of Oxyurida (pinworm) and the fourth nematode species reported from the Tibetan antelope. Our results contribute to the knowledge of the species diversity of parasites from the Tibetan antelope, and clarify the systematic position of the genus Skrjabinema.

scholarly journals A phylogenetic analysis and new delimitation of Crepidiastrum (Asteraceae, tribe Cichorieae)

Phytotaxa ◽  
2014 ◽  
Vol 159 (4) ◽  
pp. 241 ◽  
Author(s):  
Yu-lan Peng ◽  
Yu Zhang ◽  
Xin-fen Gao ◽  
Lin-jing Tong ◽  
Liang Li ◽  
...  
Keyword(s):  
Phylogenetic Analysis ◽  
Maximum Likelihood ◽  
Chloroplast Dna ◽  
Maximum Parsimony ◽  
Phylogenetic Analyses ◽  
Systematic Position ◽  
Likelihood Inference ◽  
Nuclear Its ◽  
Chloroplast Dna Regions

The systematic position of Paraixeris humifusa (Asteraceae) is hard to define, because the circumscription of Paraixeris, Youngia and Crepidiastrum, three closely related genera in subtribe Crepidinae (Cichorieae), is not clear. This paper reports on the relationships between 30 species in subtribe Crepidinae, based on an analysis of nucleotides from one nuclear (ITS) and three chloroplast DNA regions ( trnL-F, rps16 and atpB-rbcL). The phylogenetic analyses used maximum parsimony with maximum likelihood inference. The monophyly of Crepidiastrum in the most recent generic classification of Shih & Kilian (2011) is explored. The results show that 12 species in Crepidiastrum constitute a monophyletic group, and that Paraixeris humifusa should be treated as Youngia humifusa.

Molecular evidence for the systematic positions of two enigmatic mosses: Pterogonidium pulchellum (Sematophyllaceae, Musci) and Piloecium pseudorufescens (Myuriaceae, Musci)

2006 ◽  
Vol 84 (3) ◽  
pp. 501-507
Author(s):  
Ying Chang ◽  
Chan Woon Khiong ◽  
Sean W. Graham ◽  
Benito C. Tan
Keyword(s):  
Bayesian Inference ◽  
Maximum Likelihood ◽  
Maximum Parsimony ◽  
Phylogenetic Analyses ◽  
Systematic Position ◽  
Molecular Evidence ◽  
Rbcl Gene ◽  
Branch Support ◽  
New Evidence ◽  
Rbcl Gene Sequences

The systematic position of Pterogonidium pulchellum (W.J. Hooker) Muell. Hal. in the Sematophyllaceae and Piloecium pseudorufescens (Hampe) Muell. Hal. in the Myuriaceae is reexamined with new evidence derived from rbcL gene sequences. A total of 18 taxa from Sematophyllaceae, Hypnaceae, Myuriaceae, and Hookeriaceae were included, 11 of which were newly sequenced for the rbcL gene. Analyses were done using maximum parsimony, maximum likelihood (TrN + Γ + I model and GTR + Γ + I model), and Bayesian inference (GTR + Γ + I model). The results show that Pterogonidium pulchellum has a closer relationship with members of Hypnaceae than with Sematophyllaceae, while Piloecium pseudorufescens forms a clade with the Sematophyllaceae in all phylogenetic analyses, with robust branch support. Two SOWH tests were carried out and the results show that it is not appropriate to classify Pterogonidium pulchellum in Sematophyllaceae and it is also not appropriate to classify Piloecium pseudorufescens in Myuriaceae.

Ascomal evolution of filamentous ascomycetes: evidence from molecular data

1995 ◽  
Vol 73 (S1) ◽  
pp. 811-815 ◽  
Author(s):  
Joseph W. Spatafora
Keyword(s):  
Maximum Likelihood ◽  
Ribosomal Dna ◽  
Phylogenetic Analyses ◽  
Molecular Data ◽  
Small Subunit ◽  
Filamentous Ascomycete ◽  
Group 4 ◽  
Nucleotide Data ◽  
Group 2 ◽  
Parsimony Trees

Phylogenetic analyses of nucleotide data from partial sequences (1150 bp) of the small subunit ribosomal DNA (SSU rDNA) were performed on 30 taxa representing several orders of Hymenoascomycetes and Loculoascomycetes. These analyses detected four major groups of filamentous ascomycetes: group 1, pyrenomycetes (Hypocreales, Microascales, Diaporthales, Sordariales) and loculoascomycetes (Pleosporales); group 2, operculate discomycetes (Pezizales); group 3, inoperculate discomycetes (Geoglossaceae); and group 4, plectomycetes (Eurotiales, Onygenales) and loculoascomycetes (Chaetothyriales). Well-supported clades, which correspond to groupings based on ascomal morphology, were resolved; however, the monophyly of the classes Hymenoascomycetes and Loculoascomycetes was rejected. The placement of the root on the filamentous ascomycete ingroup proved more problematic than resolving the ingroup relationships. Three alternative rooting possibilities, which were identified in suboptimal parsimony trees, were not significantly less likely in maximum likelihood ratio tests. Nonetheless, the most likely topology obtained from fastDNAml was identical to the most parsimonious tree. Key words: filamentous ascomycetes, Hymenoascomycetes, Loculoascomycetes, parsimony, maximum likelihood, ribosomal DNA.

scholarly journals A phylogeny of the genusNocardiadeduced from the analysis of small-subunit ribosomal DNA sequences, including transfer ofNocardia amaraeto the genusGordonaasGordona amaraecomb. nov.

1994 ◽  
Vol 123 (3) ◽  
pp. 261-267 ◽  
Author(s):  
Raymond Ruimy ◽  
Patrick Boiron ◽  
Valérie Boivin ◽  
Richard Christen
Keyword(s):  
Ribosomal Dna ◽  
Dna Sequences ◽  
Small Subunit ◽  
Small Subunit Ribosomal Dna

Peracarid monophyly and interordinal phylogeny inferred from nuclear small-subunit ribosomal DNA sequences (Crustacea: Malacostraca: Peracarida)

2005 ◽  
Vol 118 (1) ◽  
pp. 117-157 ◽  
Author(s):  
Trisha Spears ◽  
Ronald W. DeBry ◽  
Lawrence G. Abele ◽  
Katarzyna Chodyla
Keyword(s):  
Ribosomal Dna ◽  
Dna Sequences ◽  
Small Subunit ◽  
Small Subunit Ribosomal Dna

scholarly journals Morphology, Morphogenesis, and Molecular Phylogeny of a New Freshwater Ciliate, Quadristicha subtropica n. sp. (Ciliophora, Hypotrichia)

2021 ◽  
Vol 12 ◽  
Author(s):  
Chen Shao ◽  
Qi Gao ◽  
Alan Warren ◽  
Jingyi Wang
Keyword(s):  
Sequence Data ◽  
Southern China ◽  
Phylogenetic Analyses ◽  
Small Subunit ◽  
Systematic Position ◽  
Phylogenetic Position ◽  
Dna Sequence Data ◽  
Freshwater Pond ◽  
Small Subunit Ribosomal Dna

The morphology and the regulation of cortical pattern associated with the cell size, division, and phylogenetic position of a new hypotrichous ciliate, Quadristicha subtropica n. sp. collected from a freshwater pond in southern China, were investigated. Quadristicha subtropica n. sp. is characterized as follows: size in vivo 60–115 μm × 25–45 μm; 19–21 adoral membranelles; buccal cirrus near anterior end of endoral and paroral; cirrus IV/3 at about level of buccal vertex; right marginal row begins ahead of buccal vertex; 11–16 right and 12–19 left marginal cirri; and dorsal cilia about 5 μm long. The basic morphogenetic process in Q. subtropica n. sp. is consistent with that of the type species, Quadristicha setigera. Phylogenetic analyses based on small subunit ribosomal DNA sequence data reveal that the systematic position of Q. subtropica n. sp. is rather unstable with low support values across the tree and the genus Quadristicha is not monophyletic.

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