General Biochemistry, Genetics and Molecular Biology


Publications
86

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

Thousands of microbial genomes shed light on interconnected biogeochemical processes in an aquifer system

Citation
Anantharaman et al. (2016). Nature Communications 7 (1)
Names
“Kerfeldiibacteriota” “Komeiliibacteriota” “Lindowiibacteriota” “Liptoniibacteriota” “Lloydiibacteriota” “Margulisiibacteriota” “Nealsoniibacteriota” “Niyogiibacteriota” “Portnoyibacteriota” “Raymondiibacteriota” “Ryaniibacteriota” “Schekmaniibacteriota” “Spechtiibacteriota” “Staskawicziibacteriota” “Sungiibacteriota” “Tagaibacteriota” “Tayloriibacteriota” “Terryibacteriota” “Vebleniibacteriota” “Yonathiibacteriota” “Zambryskiibacteriota” “Rifleibacteriota” “Ozemibacteria”
Abstract
AbstractThe subterranean world hosts up to one-fifth of all biomass, including microbial communities that drive transformations central to Earth’s biogeochemical cycles. However, little is known about how complex microbial communities in such environments are structured, and how inter-organism interactions shape ecosystem function. Here we apply terabase-scale cultivation-independent metagenomics to aquifer sediments and groundwater, and reconstruct 2,540 draft-quality, near-complete and complet

Global metagenomic survey reveals a new bacterial candidate phylum in geothermal springs

Citation
Eloe-Fadrosh et al. (2016). Nature Communications 7 (1)
Names
“Kryptoniota” Kryptonium thompsonii Ts Kryptonium “Chryseopegocella kryptomonas”
Abstract
AbstractAnalysis of the increasing wealth of metagenomic data collected from diverse environments can lead to the discovery of novel branches on the tree of life. Here we analyse 5.2 Tb of metagenomic data collected globally to discover a novel bacterial phylum (‘Candidatus Kryptonia’) found exclusively in high-temperature pH-neutral geothermal springs. This lineage had remained hidden as a taxonomic ‘blind spot’ because of mismatches in the primers commonly used for ribosomal gene surveys. Geno

Comparative genomics of Synechococcus and proposal of the new genus Parasynechococcus

Citation
Coutinho et al. (2016). PeerJ 4
Names
Parasynechococcus
Abstract
Synechococcusis among the most important contributors to global primary productivity. The genomes of several strains of this taxon have been previously sequenced in an effort to understand the physiology and ecology of these highly diverse microorganisms. Here we present a comparative study ofSynechococcusgenomes. For that end, we developed GenTaxo, a program written in Perl to perform genomic taxonomy based on average nucleotide identity, average amino acid identity and dinucleotide signatures,