Your search keyword '"Eitel, Michael"' showing total 5 results

1. Correction: Phylogenetic, genomic, and biogeographic characterization of a novel and ubiquitous marine invertebrate-associated Rickettsiales parasite, Candidatus Aquarickettsia rohweri, gen. nov., sp. nov

Author

Klinges, J Grace, Rosales, Stephanie M, McMinds, Ryan, Shaver, Elizabeth C, Shantz, Andrew A, Peters, Esther C, Eitel, Michael, Wörheide, Gert, Sharp, Koty H, Burkepile, Deron E, Silliman, Brian R, and Thurber, Rebecca L Vega

Subjects

Biological Sciences, Ecology, Evolutionary Biology, Biotechnology, Environmental Sciences, Technology, Microbiology, Biological sciences, Environmental sciences

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

2. Phylogenetic, genomic, and biogeographic characterization of a novel and ubiquitous marine invertebrate-associated Rickettsiales parasite, Candidatus Aquarickettsia rohweri, gen. nov., sp. nov

Author

Klinges, J Grace, Rosales, Stephanie M, McMinds, Ryan, Shaver, Elizabeth C, Shantz, Andrew A, Peters, Esther C, Eitel, Michael, Wörheide, Gert, Sharp, Koty H, Burkepile, Deron E, Silliman, Brian R, and Vega Thurber, Rebecca L

Subjects

Microbiology, Biological Sciences, Ecology, Evolutionary Biology, Genetics, Biotechnology, Animals, Aquatic Organisms, Genome, Bacterial, Genomics, Gram-Negative Bacterial Infections, Invertebrates, Parasites, Phylogeny, Rickettsiales, Environmental Sciences, Technology, Biological sciences, Environmental sciences

Abstract

Bacterial symbionts are integral to the health and homeostasis of invertebrate hosts. Notably, members of the Rickettsiales genus Wolbachia influence several aspects of the fitness and evolution of their terrestrial hosts, but few analogous partnerships have been found in marine systems. We report here the genome, phylogenetics, and biogeography of a ubiquitous and novel Rickettsiales species that primarily associates with marine organisms. We previously showed that this bacterium was found in scleractinian corals, responds to nutrient exposure, and is associated with reduced host growth and increased mortality. This bacterium, like other Rickettsiales, has a reduced genome indicative of a parasitic lifestyle. Phylogenetic analysis places this Rickettsiales within a new genus we define as "Candidatus Aquarickettsia." Using data from the Earth Microbiome Project and SRA databases, we also demonstrate that members of "Ca. Aquarickettsia" are found globally in dozens of invertebrate lineages. The coral-associated "Candidatus A. rohweri" is the first finished genome in this new clade. "Ca. A. rohweri" lacks genes to synthesize most sugars and amino acids but possesses several genes linked to pathogenicity including Tlc, an antiporter that exchanges host ATP for ADP, and a complete Type IV secretion system. Despite its inability to metabolize nitrogen, "Ca. A. rohweri" possesses the NtrY-NtrX two-component system involved in sensing and responding to extracellular nitrogen. Given these data, along with visualization of the parasite in host tissues, we hypothesize that "Ca. A. rohweri" reduces coral health by consuming host nutrients and energy, thus weakening and eventually killing host cells. Last, we hypothesize that nutrient enrichment, which is increasingly common on coral reefs, encourages unrestricted growth of "Ca. A. rohweri" in its host by providing abundant N-rich metabolites to be scavenged.

Published

2019

3. Comparative genomics and the nature of placozoan species.

Author

Eitel, Michael, Francis, Warren R., Varoqueaux, Frédérique, Daraspe, Jean, Osigus, Hans-Jürgen, Krebs, Stefan, Vargas, Sergio, Blum, Helmut, Williams, Gray A., Schierwater, Bernd, and Wörheide, Gert

Subjects

*MARINE animals, *COMPARATIVE genomics, *ADHERENS junctions, *ANIMAL genetics, *GENOMICS

Abstract

Placozoans are a phylum of nonbilaterian marine animals currently represented by a single described species, Trichoplax adhaerens, Schulze 1883. Placozoans arguably show the simplest animal morphology, which is identical among isolates collected worldwide, despite an apparently sizeable genetic diversity within the phylum. Here, we use a comparative genomics approach for a deeper appreciation of the structure and causes of the deeply diverging lineages in the Placozoa. We generated a high-quality draft genome of the genetic lineage H13 isolated from Hong Kong and compared it to the distantly related T. adhaerens. We uncovered substantial structural differences between the two genomes that point to a deep genomic separation and provide support that adaptation by gene duplication is likely a crucial mechanism in placozoan speciation. We further provide genetic evidence for reproductively isolated species and suggest a genus-level difference of H13 to T. adhaerens, justifying the designation of H13 as a new species, Hoilungia hongkongensis nov. gen., nov. spec., now the second described placozoan species and the first in a new genus. Our multilevel comparative genomics approach is, therefore, likely to prove valuable for species distinctions in other cryptic microscopic animal groups that lack diagnostic morphological characters, such as some nematodes, copepods, rotifers, or mites. [ABSTRACT FROM AUTHOR]

Published

2018

4. Deep RNA sequencing reveals the smallest known mitochondrial micro exon in animals: The placozoan cox1 single base pair exon.

Author

Osigus, Hans-Jürgen, Eitel, Michael, and Schierwater, Bernd

Subjects

*RNA sequencing, *EXONS (Genetics), *PLACOZOA, *BASE pairs, *CYCLOOXYGENASES

Abstract

The phylum Placozoa holds a key position for our understanding of the evolution of mitochondrial genomes in Metazoa. Placozoans possess large mitochondrial genomes which harbor several remarkable characteristics such as a fragmented cox1 gene and trans-splicing cox1 introns. A previous study also suggested the existence of cox1 mRNA editing in Trichoplax adhaerens, yet the only formally described species in the phylum Placozoa. We have analyzed RNA-seq data of the undescribed sister species, Placozoa sp. H2 (“Panama” clone), with special focus on the mitochondrial mRNA. While we did not find support for a previously postulated cox1 mRNA editing mechanism, we surprisingly found two independent transcripts representing intermediate cox1 mRNA splicing stages. Both transcripts consist of partial cox1 exon as well as overlapping intron fragments. The data suggest that the cox1 gene harbors a single base pair (cytosine) micro exon. Furthermore, conserved group I intron structures flank this unique micro exon also in other placozoans. We discuss the evolutionary origin of this micro exon in the context of a self-splicing intron gain in the cox1 gene of the last common ancestor of extant placozoans. [ABSTRACT FROM AUTHOR]

Published

2017

5. Global Diversity of the Placozoa.

Author

Eitel, Michael, Osigus, Hans-Jürgen, DeSalle, Rob, and Schierwater, Bernd

Subjects

*PLACOZOA, *ANIMAL species, *MOLECULAR genetics, *SPECIES diversity, *ANIMAL morphology, *ANIMAL populations, *MARINE ecology

Abstract

The enigmatic animal phylum Placozoa holds a key position in the metazoan Tree of Life. A simple bauplan makes it appear to be the most basal metazoan known and genetic evidence also points to a position close to the last common metazoan ancestor. Trichoplax adhaerens is the only formally described species in the phylum to date, making the Placozoa the only monotypic phylum in the animal kingdom. However, recent molecular genetic as well as morphological studies have identified a high level of diversity, and hence a potential high level of taxonomic diversity, within this phylum. Different taxa, possibly at different taxonomic levels, are awaiting description. In this review we firstly summarize knowledge on the morphology, phylogenetic position and ecology of the Placozoa. Secondly, we give an overview of placozoan morphological and genetic diversity and finally present an updated distribution of placozoan populations. We conclude that there is great potential and need to erect new taxa and to establish a firm system for this taxonomic tabula rasa. [ABSTRACT FROM AUTHOR]

Published

2013