Anantharaman, Karthik


Publications
9

Ecogenomics and cultivation reveal distinctive viral-bacterial communities in the surface microlayer of a Baltic Sea slick

Citation
Rahlff et al. (2023). ISME Communications 3 (1)
Names
“Alishewanella slickus”
Abstract
AbstractVisible surface films, termed slicks, can extensively cover freshwater and marine ecosystems, with coastal regions being particularly susceptible to their presence. The sea-surface microlayer (SML), the upper 1-mm at the air-water interface in slicks (herein slick SML) harbors a distinctive bacterial community, but generally little is known about SML viruses. Using flow cytometry, metagenomics, and cultivation, we characterized viruses and bacteria in a brackish slick SML in comparison t

Rice Paddy Nitrospirae Carry and Express Genes Related to Sulfate Respiration: Proposal of the New Genus “Candidatus Sulfobium”

Citation
Zecchin et al. (2018). Applied and Environmental Microbiology 84 (5)
Names
Ca. Sulfobium Ca. Sulfobium mesophilum
Abstract
ABSTRACT Nitrospirae spp. distantly related to thermophilic, sulfate-reducing Thermodesulfovibrio species are regularly observed in environmental surveys of anoxic marine and freshwater habitats. Here we present a metaproteogenomic analysis of Nitrospirae bacterium Nbg-4 as a representative of this clade. Its genome was assembled from replicated metagenomes of rice paddy soil that was used to grow rice in the pres

Differential depth distribution of microbial function and putative symbionts through sediment-hosted aquifers in the deep terrestrial subsurface

Citation
Probst et al. (2018). Nature Microbiology 3 (3)
Names
“Huberarchaeota” “Moissliibacteriota” “Ratteibacteriota” “Saganiibacteriota” “Torokiibacteriota” “Altiarchaeota” “Altiarchaeia” “Altiarchaeales” “Altiarchaeaceae” “Altiarchaeum hamiconexum” “Altiarchaeum”
Abstract
AbstractAn enormous diversity of previously unknown bacteria and archaea has been discovered recently, yet their functional capacities and distributions in the terrestrial subsurface remain uncertain. Here, we continually sampled a CO2-driven geyser (Colorado Plateau, Utah, USA) over its 5-day eruption cycle to test the hypothesis that stratified, sandstone-hosted aquifers sampled over three phases of the eruption cycle have microbial communities that differ both in membership and function. Geno

Complete 4.55-Megabase-Pair Genome of “ Candidatus Fluviicola riflensis,” Curated from Short-Read Metagenomic Sequences

Citation
Banfield et al. (2017). Genome Announcements 5 (47)
Names
Ca. Fluviicola riflensis
Abstract
ABSTRACT We report the 4.55-Mbp genome of “ Candidatus Fluviicola riflensis” ( Bacteroidetes ) that was manually curated to completion from Illumina data. “ Ca . Fluviicola riflensis” is a facultative anaerobe. Its ability to grow over a range of O 2 levels may favor its proliferation in an aquifer adjacent to the Colorado River in the United States.

Rice paddyNitrospiraeencode and express genes related to sulfate respiration: proposal of the new genusCandidatusSulfobium

Citation
Zecchin et al. (2017).
Names
Ca. Sulfobium Ca. Sulfobium mesophilum
Abstract
AbstractNitrospiraespp. distantly related to thermophilic, sulfate-reducingThermodesulfovibriospecies are regularly observed in environmental surveys of anoxic marine and freshwater habitats. However, little is known about their genetic make-up and physiology. Here, we present the draft genome ofNitrospiraebacterium Nbg-4 as a representative of this clade and analyzed itsin situprotein expression under sulfate-enriched and sulfate-depleted conditions in rice paddy soil. The genome of Nbg-4 was a

Genomic resolution of a cold subsurface aquifer community provides metabolic insights for novel microbes adapted to high CO2 concentrations

Citation
Probst et al. (2017). Environmental Microbiology 19 (2)
Names
“Desantisiibacteriota”
Abstract
SummaryAs in many deep underground environments, the microbial communities in subsurface high‐CO2 ecosystems remain relatively unexplored. Recent investigations based on single‐gene assays revealed a remarkable variety of organisms from little studied phyla in Crystal Geyser (Utah, USA), a site where deeply sourced CO2‐saturated fluids are erupted at the surface. To provide genomic resolution of the metabolisms of these organisms, we used a novel metagenomic approach to recover 227 high‐quality

Asgard archaea illuminate the origin of eukaryotic cellular complexity

Citation
Zaremba-Niedzwiedzka et al. (2017). Nature 541 (7637)
Names
Asgardarchaeota “Odinarchaeota”
Abstract

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

A new view of the tree of life

Citation
Hug et al. (2016). Nature Microbiology 1 (5)
Names
“Rokuibacteriota” “Abawacaibacteriota” “Wirthibacterota”
Abstract
AbstractThe tree of life is one of the most important organizing principles in biology1. Gene surveys suggest the existence of an enormous number of branches2, but even an approximation of the full scale of the tree has remained elusive. Recent depictions of the tree of life have focused either on the nature of deep evolutionary relationships3–5 or on the known, well-classified diversity of life with an emphasis on eukaryotes6. These approaches overlook the dramatic change in our understanding o