Your search keyword '"Inga Meyer-Wachsmuth"' showing total 2 results

1. The plastic nervous system of Nemertodermatida

Author

Ulf Jondelius, Inga Meyer-Wachsmuth, and Olga I. Raikova

Subjects

0301 basic medicine, Nervous system, Evolutionary Biology, Neurite, Xenoturbella, Phalloidin, Anatomy, Biology, biology.organism_classification, law.invention, Statocyst, Nemertodermatida, Evolutionsbiologi, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, medicine.anatomical_structure, Differential interference contrast microscopy, chemistry, Confocal microscopy, law, medicine, Ecology, Evolution, Behavior and Systematics

Abstract

Nemertodermatida are microscopic marine worms likely to be the sister-group to acoels, forming with them the earliest extant branch of bilaterian animals, although their phylogenetic position is debated. The nervous system of Flagellophora cf. apelti, Sterreria spp. and Nemertoderma cf. westbladi has been investigated by immunohistochemistry and confocal microscopy using anti-tubulin, anti-5-HT and anti-FMRFamide antibodies. The nervous system of Flagellophora cf. apelti is composed of a large neuropile and a loose brain at the level of the statocysts with several nerve fibres surrounding them and innervating the broom organ. Sterreria spp. shows a commissural-like brain and several neurite bundles going frontad and caudad from this. At the level of the statocysts there is also a thicker aggregation of immunoreactive fibres. The nervous system of N. cf. westbladi consists of a nerve ring lying outside the body wall musculature at the level of the statocyst and a pair of ventro-lateral neurite bundles, from which extend thinner fibres innervating the ventral side of the animal. Numerous bottle-shaped glands were observed, innervated by fibres starting both from the brain and the neurite bundles. The nervous system of the nemertodermatids studied to-date displays no common pattern, instead there is considerable plasticity in the general morphology of the nervous system. In addition, the musculature of Sterreria spp. has been studied by phalloidin staining. It shows diagonal muscles in the anterior quarter of the body and a simple orthogonal grid in the posterior three quarters, being simpler than that of the other nemertodermatids. High-resolution differential interference contrast microscopy permitted to better visualise some morphological characters of the species studied, such as statocysts, sperm and glands and, in combination with anti-tubulin staining, describe in detail the broom organ in Flagellophora cf. apelti. Finally, we note an apparent absence of innervation of the gut in Nemertodermatida similar to the condition in Xenoturbella.

Published

2015

2. Interrelationships of Nemertodermatida

Author

Ulf Jondelius and Inga Meyer-Wachsmuth

Subjects

0301 basic medicine, Genetics, Species complex, Biology, biology.organism_classification, Nemertodermatida, 03 medical and health sciences, 030104 developmental biology, Sister group, Phylogenetics, GenBank, Molecular phylogenetics, Ambulacraria, Clade, Ecology, Evolution, Behavior and Systematics

Abstract

Nemertodermatida is a small taxon of microscopic marine worms, which were originally classified within Platyhelminthes. Today they are hypothesized to be either an early bilaterian lineage or the sister group to Ambulacraria within Deuterostomia. These two hypotheses indicate widely diverging evolutionary histories in this largely neglected group. Here, we analyse the phylogeny of Nemertodermatida using nucleotide sequences from the ribosomal LSU and SSU genes and the protein coding Histone 3 gene. All currently known species except Ascoparia neglecta and Ascoparia secunda were included in the study in addition to several yet undescribed species. Ascopariidae and Nemertodermatidae are retrieved as separate clades, although not in all analyses as sister groups. Non-monophyly of Nemertodermatida was rejected by the Approximately Unbiased test. Nemertodermatid nucleotide sequences deposited in Genbank before 2013 were validated against our dataset; some of them are shown to be chimeric implying falsification of prior hypotheses about nemertodermatid phylogeny: other sequences should be assigned new names. We also show that the genus Nemertoderma needs revision.

Published

2015