Platt, Katja

Publications
2

Genome reduction and horizontal gene transfer in the evolution of Endomicrobia—rise and fall of an intracellular symbiosis with termite gut flagellates

Citation: Mies et al. (2024). mBio
Names: Ruminimicrobium bovinum ^Ts Ruminimicrobiellum ovillum Endomicrobiellum Ectomicrobium Parendomicrobium Ectomicrobium neotermitis ^Ts Parendomicrobium reticulitermitis ^Ts Ruminimicrobiellum bubulum ^Ts Ruminimicrobiellum caprinum Ruminimicrobiellum tauri Praeruminimicrobium Proruminimicrobium Ruminimicrobium Ruminimicrobiellum Endomicrobiellum devescovinae Proruminimicrobium quisquiliarum ^Ts Praeruminimicrobium purgamenti ^Ts Endomicrobiellum agilis Endomicrobiellum siamense Endomicrobiellum basalitermitum Endomicrobiellum guadaloupense Endomicrobiellum meruensis Endomicrobium embiratermitis Endomicrobium labiotermitis Endomicrobium neocapritermitis Endomicrobium macrotermitis Endomicrobium procryptotermitis Endomicrobiellum dinenymphae Endomicrobiellum trichonymphae ^Ts Endomicrobiellum pyrsonymphae Endomicrobiellum neotermitis Endomicrobiellum mastotermitis Endomicrobiellum calonymphae Endomicrobiellum cryptotermitis Endomicrobiellum roisinitermitis Endomicrobiellum incisitermitis Endomicrobiellum porotermitis Endomicrobiellum cubanum Endomicrobiellum africanum
Abstract: ABSTRACT Bacterial endosymbionts of eukaryotic hosts typically experience massive genome reduction, but the underlying evolutionary processes are often obscured by the lack of free-living relatives. Endomicrobia, a family-level lineage of host-associated bacteria in the phylum Elusimicrobiota that comprises both free-living representatives and endosymbionts of termite gut flagellates, are an excellent model to study e

Diversity and taxonomic revision of methanogens and other archaea in the intestinal tract of terrestrial arthropods

Citation: Protasov et al. (2023). Frontiers in Microbiology 14
Names: Methanogranum gryphiswaldense ^Ts Methanogranum Bathycorpusculaceae Methanimicrococcus labiotermitis Methanoplasma cognatum Methanofrustulum fimipullorum ^Ts Methanofilum Methanolapillus Methanomicula Methanomicula labiotermitis ^Ts Bathycorpusculum acetigenes ^Ts Bathycorpusculum acidaminoxidans Bathycorpusculum grumuli Bathycorpusculum terrae Methanolapillus millepedarum ^Ts Methanolapillus africanus Methanimicrococcus stummii Methanimicrococcus odontotermitis Methanimicrococcus hongohii Methanimicrococcus hacksteinii Methanoplasma reticulitermitis Methanoplasma porotermitis Methanoplasma glyptotermitis Methanofrustulum Bathycorpusculum fermentans Bathycorpusculum termitum Methanorbis Methanorbis rubei Methanorbis furvi ^Ts Methanorbis basalitermitum Methanacia Methanacia filiformis ^Ts Methanarmilla Bathycorpusculum Bathycorpusculum soli Methanofilum arcanum ^Ts Methanocatella Methanocatella smithii ^Ts Methanocatella gottschalkii Methanocatella millerae Methanocatella oralis Methanocatella thaueri Methanocatella woesei Methanarmilla wolinii ^Ts Methanarmilla boviskoreani Methanobinarius Methanobinarius arboriphilus ^Ts Methanobinarius endosymbioticus Methanobaculum Methanobaculum cuticulare ^Ts Methanoflexus Methanoflexus curvatus ^Ts Methanoflexus mossambicus Methanorudis Methanovirga Methanovirga aequatorialis Methanovirga australis Methanovirga basalitermitum ^Ts Methanovirga meridionalis Methanovirga procula Methanolapillus ohkumae Bathycorpusculum hydrogenotrophicum Methanorudis spinitermitis ^Ts Methanomethylophilus alvi ^T
Abstract: Methane emission by terrestrial invertebrates is restricted to millipedes, termites, cockroaches, and scarab beetles. The arthropod-associated archaea known to date belong to the orders Methanobacteriales, Methanomassiliicoccales, Methanomicrobiales, and Methanosarcinales, and in a few cases also to non-methanogenic Nitrososphaerales and Bathyarchaeales. However, all major host groups are severely undersampled, and the taxonomy of existing lineages is not well developed. Full-length 16S rRNA gen