Anke Braband scite author profile

About 2800 mitochondrial genomes of Metazoa are present in NCBI RefSeq today, two thirds belonging to vertebrates. Metazoan phylogeny was recently challenged by large scale EST approaches (phylogenomics), stabilizing classical nodes while simultaneously supporting new sister group hypotheses. The use of mitochondrial data in deep phylogeny analyses was often criticized because of high substitution rates on nucleotides, large differences in amino acid substitution rate between taxa, and biases in nucleotide frequencies. Nevertheless, mitochondrial genome data might still be promising as it allows for a larger taxon sampling, while presenting a smaller amount of sequence information. We present the most comprehensive analysis of bilaterian relationships based on mitochondrial genome data. The analyzed data set comprises more than 650 mitochondrial genomes that have been chosen to represent a profound sample of the phylogenetic as well as sequence diversity. The results are based on high quality amino acid alignments obtained from a complete reannotation of the mitogenomic sequences from NCBI RefSeq database. However, the results failed to give support for many otherwise undisputed high-ranking taxa, like Mollusca, Hexapoda, Arthropoda, and suffer from extreme long branches of Nematoda, Platyhelminthes, and some other taxa. In order to identify the sources of misleading phylogenetic signals, we discuss several problems associated with mitochondrial genome data sets, e.g. the nucleotide and amino acid landscapes and a strong correlation of gene rearrangements with long branches.

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Genetic aspects of mitochondrial genome evolution

Bernt

Braband

Schierwater

et al. 2013

Molecular Phylogenetics and Evolution

208

144

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PHYLOGENY OF THE HYDRODICTYACEAE (CHLOROPHYCEAE): INFERENCES FROM rDNA DATA¹

Buchheim

Carlson

et al. 2005

Journal of Phycology

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The hydrodictyacean green algal lineage has been the focus of much research due to the fossil record of at least some members, their ornamented cell walls, and their distinctive reproductive strategies. The phylogeny of the family was, until recently, exclusively morphology based. This investigation examines hydrodictyacean isolates from several culture collections, focusing on sequences from ribosomal data: 18S rDNA, 26S rDNA (partial), and internal transcribed spacer (ITS)-2 data. Results from phylogenetic analyses of independent and combined data matrices support the Hydrodictyaceae as a monophyletic lineage that includes isolates of Chlorotetraedron, Hydrodictyon, Pediastrum, Sorastrum, and Tetraedron. Phylogenetic analyses of rDNA data indicate that the three-dimensional coenobium of Hydrodictyon is evolutionarily distinct from the three-dimensional coenobium of Sorastrum. The more robust aspects of the ITS-2 data corroborate the 18S þ 26S rDNA topology and provide a structural autapomorphy for the Hydrodictyaceae and Neochloridaceae, that is, an abridgment of helix IV in the secondary structure. The rDNA data do not support monophyly of Pediastrum but rather suggest the existence of four additional hydrodictyacean genera: Monactinus, Parapediastrum, Pseudopediastrum, and Stauridium.

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Phylogenetic relationships within the Phyllopoda (Crustacea, Branchiopoda) based on mitochondrial and nuclear markers

Braband

Richter

Hiesel

et al. 2002

Molecular Phylogenetics and Evolution

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Mitogenomic analysis of decapod crustacean phylogeny corroborates traditional views on their relationships

Shen

Braband

Scholtz

2013

Molecular Phylogenetics and Evolution

119

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THE SYSTEMATICS OF A SMALL SPINELESS DESMODESMUS SPECIES, D. COSTATO‐GRANULATUS (SPHAEROPLEALES, CHLOROPHYCEAE), BASED ON ITS2 rDNA SEQUENCE ANALYSES AND CELL WALL MORPHOLOGY¹

Vanormelingen

Hegewald

Braband

et al. 2007

Journal of Phycology

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Desmodesmus species taxonomy is one of the most long-standing issues in green microalgal systematics due to problems associated with phenotypic plasticity. Whereas more recent species descriptions and identifications are mainly based on cell wall structures and the use of cultures, comparisons with molecular phylogenies are largely lacking. In this study, the phylogenetic relationships between 22 clones identified as Desmodesmus costatogranulatus (Skuja) E. H. Hegew. were assessed using ITS2 rDNA sequence data in combination with cell wall morphology. The unrooted ITS2 phylogeny showed that the clones cluster into five groups, which also differ in their cell wall structures. Therefore, the taxon is split into five species: D. costatogranulatus, D. elegans, D. fennicus, D. regularis, and D. ultrasquamatus. Compared with other Desmodesmus species, intraspecific sequence variation is extensive and may contain additional (pseudo)cryptic diversity. Compensatory base changes were nearabsent within the species and varied from one to 11 between species. Relationships among the species were unresolved. Despite this, they clustered together with the two other Desmodesmus species having a combination of small and large warts in a well-supported lineage. Remarkably, ITS2 sequence variation in this lineage is as high as between all other included Desmodesmus species, even though the morphology of its members is rather uniform.

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The complete mitochondrial genome of Pseudocellus pearsei (Chelicerata: Ricinulei) and a comparison of mitochondrial gene rearrangements in Arachnida

et al. 2007

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Background: Mitochondrial genomes are widely utilized for phylogenetic and population genetic analyses among animals. In addition to sequence data the mitochondrial gene order and RNA secondary structure data are used in phylogenetic analyses. Arachnid phylogeny is still highly debated and there is a lack of sufficient sequence data for many taxa. Ricinulei (hooded tickspiders) are a morphologically distinct clade of arachnids with uncertain phylogenetic affinities.

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Anke Braband

Parthenogenesis in an outsider crayfish

A comprehensive analysis of bilaterian mitochondrial genomes and phylogeny

Genetic aspects of mitochondrial genome evolution

PHYLOGENY OF THE HYDRODICTYACEAE (CHLOROPHYCEAE): INFERENCES FROM rDNA DATA¹

Phylogenetic relationships within the Phyllopoda (Crustacea, Branchiopoda) based on mitochondrial and nuclear markers

Mitogenomic analysis of decapod crustacean phylogeny corroborates traditional views on their relationships

THE SYSTEMATICS OF A SMALL SPINELESS DESMODESMUS SPECIES, D. COSTATO‐GRANULATUS (SPHAEROPLEALES, CHLOROPHYCEAE), BASED ON ITS2 rDNA SEQUENCE ANALYSES AND CELL WALL MORPHOLOGY¹

The complete mitochondrial genome of Pseudocellus pearsei (Chelicerata: Ricinulei) and a comparison of mitochondrial gene rearrangements in Arachnida

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Anke Braband

Parthenogenesis in an outsider crayfish

A comprehensive analysis of bilaterian mitochondrial genomes and phylogeny

Genetic aspects of mitochondrial genome evolution

PHYLOGENY OF THE HYDRODICTYACEAE (CHLOROPHYCEAE): INFERENCES FROM rDNA DATA1

Phylogenetic relationships within the Phyllopoda (Crustacea, Branchiopoda) based on mitochondrial and nuclear markers

Mitogenomic analysis of decapod crustacean phylogeny corroborates traditional views on their relationships

THE SYSTEMATICS OF A SMALL SPINELESS DESMODESMUS SPECIES, D. COSTATO‐GRANULATUS (SPHAEROPLEALES, CHLOROPHYCEAE), BASED ON ITS2 rDNA SEQUENCE ANALYSES AND CELL WALL MORPHOLOGY1

The complete mitochondrial genome of Pseudocellus pearsei (Chelicerata: Ricinulei) and a comparison of mitochondrial gene rearrangements in Arachnida

Contact Info

Product

Resources

About

PHYLOGENY OF THE HYDRODICTYACEAE (CHLOROPHYCEAE): INFERENCES FROM rDNA DATA¹

THE SYSTEMATICS OF A SMALL SPINELESS DESMODESMUS SPECIES, D. COSTATO‐GRANULATUS (SPHAEROPLEALES, CHLOROPHYCEAE), BASED ON ITS2 rDNA SEQUENCE ANALYSES AND CELL WALL MORPHOLOGY¹