Brune, Andreas


Publications
10

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

Endomicrobium proavitum, the first isolate of Endomicrobia class. nov. (phylum Elusimicrobia) – an ultramicrobacterium with an unusual cell cycle that fixes nitrogen with a Group IV nitrogenase

Citation
Zheng et al. (2016). Environmental Microbiology 18 (1)
Names
Endomicrobiia
Abstract
SummaryThe bacterial tree contains many deep‐rooting clades without any cultured representatives. One such clade is ‘Endomicrobia’, a class‐level lineage in the phylum Elusimicrobia represented so far only by intracellular symbionts of termite gut flagellates. Here, we report the isolation and characterization of the first free‐living member of this clade from sterile‐filtered gut homogenate of defaunated (starch‐fed) Reticulitermes santonensis. Strain Rsa215 is a strictly anaerobic ultramicroba

New Mode of Energy Metabolism in the Seventh Order of Methanogens as Revealed by Comparative Genome Analysis of “Candidatus Methanoplasma termitum”

Citation
Lang et al. (2015). Applied and Environmental Microbiology 81 (4)
Names
Methanoplasma termitum Ts Methanoplasma
Abstract
ABSTRACT The recently discovered seventh order of methanogens, the Methanomassiliicoccales (previously referred to as “ Methanoplasmatales ”), so far consists exclusively of obligately hydrogen-dependent methylotrophs. We sequenced the complete genome of “ Candidatus Methanoplasma termitum” from a highly enriched culture obtained from the intestinal tract of termites and compared it with the previously

The Ultramicrobacterium “ Elusimicrobium minutum ” gen. nov., sp. nov., the First Cultivated Representative of the Termite Group 1 Phylum

Citation
Geissinger et al. (2009). Applied and Environmental Microbiology 75 (9)
Names
Elusimicrobiota
Abstract
ABSTRACT Insect intestinal tracts harbor several novel, deep-rooting clades of as-yet-uncultivated bacteria whose biology is typically completely unknown. Here, we report the isolation of the first representative of the termite group 1 (TG1) phylum from sterile-filtered gut homogenates of a humivorous scarab beetle larva. Strain Pei191 T is a mesophilic, obligately anaerobic ultramicrobacterium with a gram-negative cell envelope. Cells are typically

Candidatus Hepatoplasma crinochetorum,” a New, Stalk-Forming Lineage of Mollicutes Colonizing the Midgut Glands of a Terrestrial Isopod

Citation
Wang et al. (2004). Applied and Environmental Microbiology 70 (10)
Names
Hepatoplasma crinochetorum Ts Hepatoplasma
Abstract
ABSTRACT Uncultivated bacteria that densely colonize the midgut glands (hepatopancreas) of the terrestrial isopod Porcellio scaber (Crustacea: Isopoda) were identified by cloning and sequencing of their 16S rRNA genes. Phylogenetic analysis revealed that these symbionts represent a novel lineage of the Mollicutes and are only distantly related (<82% sequence identity) to members of the Mycoplasmatales

Symbionts of the gut flagellate Staurojoenina sp. from Neotermes cubanus represent a novel, termite-associated lineage of Bacteroidales: description of ‘Candidatus Vestibaculum illigatum’

Citation
Stingl et al. (2004). Microbiology 150 (7)
Names
Ca. Vestibaculum illigatum
Abstract
The symbioses between cellulose-degrading flagellates and bacteria are one of the most fascinating phenomena in the complex micro-ecosystem found in the hindgut of lower termites. However, little is known about the identity of the symbionts. One example is the epibiotic bacteria colonizing the surface of hypermastigote protists of the genusStaurojoenina. By using scanning electron microscopy, it was shown that the whole surface ofStaurojoeninasp. from the termiteNeotermes cubanusis densely cover