Williams, Timothy J.


Publications
8

Population structure of an Antarctic aquatic cyanobacterium

Citation
Panwar et al. (2022). Microbiome 10 (1)
Names
“Regnicoccus frigidus” Ca. Chlorobium antarcticum “Regnicoccus”
Abstract
Abstract Background Ace Lake is a marine-derived, stratified lake in the Vestfold Hills of East Antarctica with an upper oxic and lower anoxic zone. Cyanobacteria are known to reside throughout the water column. A Synechococcus-like species becomes the most abundant member in the upper sunlit waters during summer while persisting annually even in the absence of sunlight and at depth in the anoxic zone. Here, we analysed ~ 300 Gb of Ace Lake metagenome data includi

Into the darkness: the ecologies of novel ‘microbial dark matter’ phyla in an Antarctic lake

Citation
Williams et al. (2022). Environmental Microbiology 24 (5)
Names
“Lernaellota” “Electryoneota” “Auribacterota” “Hinthialibacterota”
Abstract
SummaryUncultivated microbial clades (‘microbial dark matter’) are inferred to play important but uncharacterized roles in nutrient cycling. Using Antarctic lake (Ace Lake, Vestfold Hills) metagenomes, 12 metagenome‐assembled genomes (MAGs; 88%–100% complete) were generated for four ‘dark matter’ phyla: six MAGs from Candidatus Auribacterota (=Aureabacteria, SURF‐CP‐2), inferred to be hydrogen‐ and sulfide‐producing fermentative heterotrophs, with individual MAGs encoding bacterial microcompartm

Shedding Light on Microbial “Dark Matter”: Insights Into Novel Cloacimonadota and Omnitrophota From an Antarctic Lake

Citation
Williams et al. (2021). Frontiers in Microbiology 12
Names
“Zophobacter franzmannii” Cloacimonadota Aadella gelida Ts Aceula Aceula lacicola Ts Aceula meridiana Gorgyraea Gorgyraea atricola Ts Gygaella Gygaella obscura Ts Kaelpia Kaelpia aquatica Ts Kaelpia imicola Saelkia Saelkia tenebricola Ts Tantalella Tantalella remota Ts Zapsychrus Zapsychrus exili Ts Aadella “Susulua” “Susulua stagnicola”
Abstract
The potential metabolism and ecological roles of many microbial taxa remain unknown because insufficient genomic data are available to assess their functional potential. Two such microbial “dark matter” taxa are the Candidatus bacterial phyla Cloacimonadota and Omnitrophota, both of which have been identified in global anoxic environments, including (but not limited to) organic-carbon-rich lakes. Using 24 metagenome-assembled genomes (MAGs) obtained from an Antarctic lake (Ace Lake, Vestfold Hil

Candidatus Eremiobacterota, a metabolically and phylogenetically diverse terrestrial phylum with acid-tolerant adaptations

Citation
Ji et al. (2021). The ISME Journal 15 (9)
Names
Eremiobacterota Mawsoniella Mawsoniella australis Ts “Cryoxeromicrobium” “Cryoxeromicrobium davisii” Nyctobacter Nyctobacter psychrophilus Ts Erabacter Erabacter solicola Ts “Hesperobacter” “Hesperobacter lustricola” Meridianibacter Meridianibacter frigidus Ts “Aquilonibacter” “Aquilonibacter stordalenmirensis” Tyrphobacter Tyrphobacter aquilonaris Ts Tumulicola Tumulicola scandinaviensis Ts Cybelea Cybelea septentrionalis Ts Cybelea tumulisoli “Cybelea tyrphae” Cybelea palsarum “Palsibacter” “Palsibacter borealis” “Hemerobacter” “Hemerobacter limicola” Velthaea Velthaea versatilis Ts Lustribacter “Lustribacter caenicola” Lustribacter telmatis Ts Elarobacter Elarobacter winogradskyi Ts “Elarobacter vanleeuwenhoeki” “Elarobacter pasteuri” “Elarobacter beijerinckii” Tityobacter Tityobacter terrigena Ts Xenobium Xenobium occultum Ts Bruticola Bruticola papionis Ts “Xenobium purgamenti” Xenobiaceae Eremiobacterales Eremiobacteraceae Eremiobacter Eremiobacter antarcticus Ts Eremiobacteria Zemelea palustris Ts Zemelea Xenobiales Xenobiia
Abstract
Abstract Candidatus phylum Eremiobacterota (formerly WPS-2) is an as-yet-uncultured bacterial clade that takes its name from Ca. Eremiobacter, an Antarctic soil aerobe proposed to be capable of a novel form of chemolithoautotrophy termed atmospheric chemosynthesis, that uses the energy derived from atmospheric H2-oxidation to fix CO2 through the Calvin-Benson-Bassham (CBB) cycle via type 1E RuBisCO. To elucidate the phylogenetic affiliation and metabolic capacities of Ca. Eremioba

Persistence and resistance: survival mechanisms of Candidatus Dormibacterota from nutrient‐poor Antarctic soils

Citation
Montgomery et al. (2021). Environmental Microbiology 23 (8)
Names
Dormibacter Dormibacter spiritus Ts Dormibacter inghamiae Nephthysia Nephthysia bennettiae Ts Aeolococcus gillhamiae Ts Amunia Amunia macphersoniae Ts Aeolococcales Aeolococcaceae Aeolococcus “Dormibacteria” Dormibacterota
Abstract
SummaryCandidatus Dormibacterota is an uncultured bacterial phylum found predominantly in soil that is present in high abundances within cold desert soils. Here, we interrogate nine metagenome‐assembled genomes (MAGs), including six new MAGs derived from soil metagenomes obtained from two eastern Antarctic sites. Phylogenomic and taxonomic analyses revealed these MAGs represent four genera and five species, representing two order‐level clades within Ca. Dormibacterota. Metabolic reconstructions

Phylogeny resolved, metabolism revealed: functional radiation within a widespread and divergent clade of sponge symbionts

Citation
Taylor et al. (2021). The ISME Journal 15 (2)
Names
Perseibacter sydneyensis Ts Perseibacter Perseibacteraceae Tethybacter castelli Ts Tethybacter Tethybacteraceae Tethybacterales
Abstract
Abstract The symbiosis between bacteria and sponges has arguably the longest evolutionary history for any extant metazoan lineage, yet little is known about bacterial evolution or adaptation in this process. An example of often dominant and widespread bacterial symbionts of sponges is a clade of uncultured and uncharacterised Proteobacteria. Here we set out to characterise this group using metagenomics, in-depth phylogenetic analyses, metatranscriptomics, and fluorescence in situ