Stepanauskas, Ramunas


Publications
5

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” “Amyimicrobium” “Omnitrophia” “Omnitrophales” “Omnitrophaceae” “Pluralincolimonas frigidipaludosa” “Fontincolimonas calida” “Profunditerraquicola sanfordiae” “Fredricksoniimonas borealis” “Duberdicusella sinuisediminis” “Phelpsiimicrobium noxiivivens” “Velesiimonas alkalicola” “Aquitaenariimonas noxiae” “Aquincolibacterium aerophilum” “Aquincolibacterium lacustre” “Multiplicimicrobium inquinatum” “Pegaeibacterium caenilacustre” “Danuiimicrobium aquiferis” “Taenariivivens baikalensis” “Aquivivens invisus” “Abzuiibacterium crystallinum” “Makaraimicrobium” “Aquincolibacterium” “Pegaeibacterium” “Aquivivens” “Duberdicusellaceae” “Pluralincolimonadaceae” “Taenariiviventaceae” “Aquincolibacteriaceae” “Aquiviventaceae” “Duberdicusellales” “Ghiorseimicrobiales” “Aquitaenariimonadales” “Velesiimonadales” “Aquiviventales” “Undivivens” “Taenaricolales” “Undivivens industriae” “Sherwoodlollariibacterium unditelluris” “Sherwoodlollariibacterium” “Fontincolimonas” “Aquitaenariimonadaceae” “Profunditerraquicola” “Profunditerraquicolaceae” “Amyimicrobium silvilacustre” “Ghiorseimicrobiaceae” “Ghiorseimicrobium” “Ghiorseimicrobium undicola” “Fredricksoniimonadaceae” “Fredricksoniimonas” “Phelpsiimicrobium” “Pluralincolimonadales” “Duberdicusella” “Velesiimonadaceae” “Velesiimonas” “Taenaricolaceae” “Taenaricola” “Taenaricola geysiri” “Pluralincolimonas” “Aquitaenariimonas” “Makaraimicrobium thalassicum” “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

SAR202 Genomes from the Dark Ocean Predict Pathways for the Oxidation of Recalcitrant Dissolved Organic Matter

Citation
Landry et al. (2017). mBio 8 (2)
Names
“Monstramariaceae” “Monstramariales” “Monstramaria”
Abstract
ABSTRACT Deep-ocean regions beyond the reach of sunlight contain an estimated 615 Pg of dissolved organic matter (DOM), much of which persists for thousands of years. It is thought that bacteria oxidize DOM until it is too dilute or refractory to support microbial activity. We analyzed five single-amplified genomes (SAGs) from the abundant SAR202 clade of dark-ocean bacterioplankton and found they encode multiple families of paralogous enzymes involved in carbon catabolism, including s

Genomic comparisons of a bacterial lineage that inhabits both marine and terrestrial deep subsurface systems

Citation
Jungbluth et al. (2017). PeerJ 5
Names
“Desulfopertinax” “Desulfopertinax cowenii” Desulforudis audaxviator Ts
Abstract
It is generally accepted that diverse, poorly characterized microorganisms reside deep within Earth’s crust. One such lineage of deep subsurface-dwelling bacteria is an uncultivated member of the Firmicutes phylum that can dominate molecular surveys from both marine and continental rock fracture fluids, sometimes forming the sole member of a single-species microbiome. Here, we reconstructed a genome from basalt-hosted fluids of the deep subseafloor along the eastern Juan de Fuca Ridge flank and