Search results for "Bilateria"

showing 3 items of 13 documents

Are dendrites in Drosophila homologous to vertebrate dendrites?

2005

AbstractDendrites represent arborising neurites in both vertebrates and invertebrates. However, in vertebrates, dendrites develop on neuronal cell bodies, whereas in higher invertebrates, they arise from very different neuronal structures, the primary neurites, which also form the axons. Is this anatomical difference paralleled by principal developmental and/or physiological differences? We address this question by focussing on one cellular model, motorneurons of Drosophila and characterise the compartmentalisation of these cells. We find that motorneuronal dendrites of Drosophila share with typical vertebrate dendrites that they lack presynaptic but harbour postsynaptic proteins, display c…

NeuriteCompartmentalisationDendriteDendriteAnimals Genetically ModifiedMicePostsynaptic potentialbiology.animalmedicineAnimalsUrbilaterianMolecular BiologyMosaic analysisCytoskeletonCells CulturedMotor NeuronsDendritic spikeTransmitter receptorsbiologyVertebrateCell PolarityCell DifferentiationCell BiologyAnatomyDendritesbiology.organism_classificationBiological EvolutionCell biologyRatsmedicine.anatomical_structureDrosophila melanogasterDrosophilaSomaCalciumRabbitsCellular modelDevelopmental BiologyDevelopmental biology
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Platyzoan paraphyly based on phylogenomic data supports a noncoelomate ancestry of spiralia.

2014

Based on molecular data three major clades have been recognized within Bilateria: Deuterostomia, Ecdysozoa, and Spiralia. Within Spiralia, small-sized and simply organized animals such as flatworms, gastrotrichs, and gnathostomulids have recently been grouped together as Platyzoa. However, the representation of putative platyzoans was low in the respective molecular phylogenetic studies, in terms of both, taxon number and sequence data. Furthermore, increased substitution rates in platyzoan taxa raised the possibility that monophyletic Platyzoa represents an artifact due to long-branch attraction. In order to overcome such problems, we employed a phylogenomic approach, thereby substantially…

ParaphylyGenome HelminthPhylogenetic treebiologyGenomicsbiology.organism_classificationEvolution MolecularMonophylyEvolutionary biologyPlatyhelminthsHelminthsGeneticsAnimalsSpiraliaCladeMolecular BiologyBilateriaEcdysozoaEcology Evolution Behavior and SystematicsPhylogenyPlatyzoaMolecular biology and evolution
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Data from: Platyzoan paraphyly based on phylogenomic data supports a non-coelomate ancestry of Spiralia

2015

Based on molecular data three major clades have been recognized within Bilateria: Deuterostomia, Ecdysozoa and Spiralia. Within Spiralia, small-sized and simply organized animals such as flatworms, gastrotrichs and gnathostomulids have recently been grouped together as Platyzoa. However, the representation of putative platyzoans was low in the respective molecular phylogenetic studies, in terms of both, taxon number and sequence data. Furthermore, increased substitution rates in platyzoan taxa raised the possibility that monophyletic Platyzoa represents an artefact due to long-branch attraction. In order to overcome such problems, we employed a phylogenomic approach, thereby substantially i…

long-branch attractionGnathiferaLophotrochozoaOrigin of BilateriaLife sciencesmedicine and health careGastrotrichaCambrian till recentSyndermataMedicinePlatyzoaPlatyhelminthesSpiraliaGnathostomulida
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