Schulz, Frederik


Publications
7

Proposal of Patescibacterium danicum gen. Nov., sp. nov. in the ubiquitous ultrasmall bacterial phylum Patescibacteriota phyl. Nov

Citation
Dutkiewicz et al. (2024). ISME Communications
Names
“Patescibacterium danicum” Ca. Patescibacteria “Patescibacteriota” “Patescibacteriia” “Patescibacteriales” “Patescibacteriaceae” “Patescibacterium”
Abstract
Abstract Candidatus Patescibacteria is a diverse bacterial phylum that is notable for members with ultrasmall cell size, reduced genomes, limited metabolic capabilities and dependence on other prokaryotic hosts. Despite the prevalence of the name Ca. Patescibacteria in the scientific literature, it is not officially recognized under the International Code of Nomenclature of Prokaryotes (ICNP) and lacks a nomenclatural type. Here, we rectify this situation by describing two closely

The Fish Pathogen “Candidatus Clavichlamydia salmonicola”—A Missing Link in the Evolution of Chlamydial Pathogens of Humans

Citation
Collingro et al. (2023). Genome Biology and Evolution 15 (8)
Names
“Clavichlamydia salmonicola”
Abstract
Abstract Chlamydiae like Chlamydia trachomatis and Chlamydia psittaci are well-known human and animal pathogens. Yet, the chlamydiae are a much larger group of evolutionary ancient obligate intracellular bacteria that includes predominantly symbionts of protists and diverse animals. This makes them ideal model organisms to study evolutionary transitions from symbionts in microbial eukaryotes to pathogens of humans. To this end, comparative genome analysis has served as an importan

Synthase-selected sorting approach identifies a beta-lactone synthase in a nudibranch symbiotic bacterium

Citation
Džunková et al. (2023). Microbiome 11 (1)
Names
Doriopsillibacter californiensis Ts Doriopsillibacter Perseibacteraceae
Abstract
Abstract Background Nudibranchs comprise a group of > 6000 marine soft-bodied mollusk species known to use secondary metabolites (natural products) for chemical defense. The full diversity of these metabolites and whether symbiotic microbes are responsible for their synthesis remains unexplored. Another issue in searching for undiscovered natural products is that computational analysis of genomes of uncultured microbes can result in detection of novel biosynthe

Hyperactive nanobacteria with host-dependent traits pervade Omnitrophota

Citation
Seymour et al. (2023). Nature Microbiology 8 (4)
Names
“Zapsychrus unditaenarius” Velaminicoccus archaeovorus Ts Velaminicoccus Multiplicimicrobium Fredricksoniimonas aquilentivivens Ts “Amyimicrobium” Omnitrophia Omnitrophales Omnitrophaceae Pluralincolimonas frigidipaludosa Ts “Fontincolimonas calida” “Profunditerraquicola sanfordiae” Fredricksoniimonas borealis Duberdicusella sinuisediminis Ts Phelpsiimicrobium noxiivivens Ts Velesiimonas alkalicola Ts Aquitaenariimonas noxiae Ts Aquincolibacterium aerophilum Ts Aquincolibacterium lacustre Multiplicimicrobium inquinatum Ts Pegaeibacterium caenilacustre Ts Danuiimicrobium aquiferis Ts Taenariivivens baikalensis Ts Aquivivens invisus Ts Abzuiibacterium crystallinum Ts Makaraimicrobium Aquincolibacterium Pegaeibacterium Aquivivens Duberdicusellaceae Pluralincolimonadaceae Taenariiviventaceae Aquincolibacteriaceae Aquiviventaceae Duberdicusellales Ghiorseimicrobiales Aquitaenariimonadales Velesiimonadales Aquiviventales Undivivens Taenaricolales Undivivens industriae Ts Sherwoodlollariibacterium unditelluris Ts Sherwoodlollariibacterium “Fontincolimonas” Aquitaenariimonadaceae “Profunditerraquicola” “Profunditerraquicolaceae” “Amyimicrobium silvilacustre” Ghiorseimicrobiaceae Ghiorseimicrobium Ghiorseimicrobium undicola Ts Fredricksoniimonadaceae Fredricksoniimonas Phelpsiimicrobium Pluralincolimonadales Duberdicusella Velesiimonadaceae Velesiimonas Taenaricolaceae Taenaricola Taenaricola geysiri Ts Pluralincolimonas Aquitaenariimonas Makaraimicrobium thalassicum Ts Taenariivivens Danuiimicrobiaceae Danuiimicrobium Aquiviventia Abzuiibacterium Abzuiibacteriaceae Omnitrophus Omnitrophus fodinae Ts Omnitrophota
Abstract
AbstractCandidate bacterial phylum Omnitrophota has not been isolated and is poorly understood. We analysed 72 newly sequenced and 349 existing Omnitrophota genomes representing 6 classes and 276 species, along with Earth Microbiome Project data to evaluate habitat, metabolic traits and lifestyles. We applied fluorescence-activated cell sorting and differential size filtration, and showed that most Omnitrophota are ultra-small (~0.2 μm) cells that are found in water, sediments and soils. Omnitro

Hydrogenotrophic methanogenesis in archaeal phylum Verstraetearchaeota reveals the shared ancestry of all methanogens

Citation
Berghuis et al. (2019). Proceedings of the National Academy of Sciences 116 (11)
Names
Ca. Methanomethylicia Ca. Methanomethylicaceae Ca. Methanomethylicales “Methanohydrogenicus thermophilus” Ca. Methanohydrogenales
Abstract
Methanogenic archaea are major contributors to the global carbon cycle and were long thought to belong exclusively to the euryarchaeal phylum. Discovery of the methanogenesis gene cluster methyl-coenzyme M reductase (Mcr) in the Bathyarchaeota, and thereafter the Verstraetearchaeota, led to a paradigm shift, pushing back the evolutionary origin of methanogenesis to predate that of the Euryarchaeota. The methylotrophic methanogenesis found in the non-Euryarchaota distinguished itself from the pre

Draft Genome Sequence of “ Candidatus Hepatoplasma crinochetorum” Ps, a Bacterial Symbiont in the Hepatopancreas of the Terrestrial Isopod Porcellio scaber

Citation
Collingro et al. (2015). Genome Announcements 3 (4)
Names
Hepatoplasma crinochetorum Ts
Abstract
ABSTRACT “ Candidatus Hepatoplasma crinochetorum” Ps is an extracellular symbiont residing in the hepatopancreas of the terrestrial isopod Porcellio scaber . Its genome is highly similar to that of the close relative “ Ca. Hepatoplasma crinochetorum” Av from Armadillidium vulgare . However, instead of a clustered regularly interspaced short palindromic repeat (CRISPR)-Cas system