- Home
- » Tags
- » Nitrososphaera gargensis
Top View
- Nitrososphaera Viennensis Gen. Nov., Sp. Nov., an Aerobic and Mesophilic, Ammonia-Oxidizing Archaeon from Soil and a Member of the Archaeal Phylum Thaumarchaeota
- The Thaumarchaeota: an Emerging View of Their Phylogeny and Ecophysiology
- A Moderately Thermophilic Ammonia-Oxidizing Crenarchaeote from a Hot Spring
- Abundance, Contribution, and Possible Driver of Ammonia-Oxidizing Archaea (AOA) in Various Types of Aquatic Ecosystems
- Ammonia Oxidation Coupled to CO2 Fixation by Archaea and Bacteria In
- José R. De La Torre San Francisco State University [email protected] We Live on a Microbial Planet
- Genomic Inference of the Metabolism and Evolution of the Archaeal Phylum Aigarchaeota
- Spotlight on the Thaumarchaeota
- Distribution of Ammonia Oxidizers in X
- The Genome of the Ammoniaoxidizing Candidatus Nitrososphaera Gargensis
- CV Hatzenpichlerr
- Candidatus Nitrosocaldus Cavascurensis, an Ammonia
- Genetic and Functional Properties of Uncultivated MCG Archaea Assessed by Metagenome and Gene Expression Analyses
- Crenarchaeol Dominates the Membrane Lipids of Candidatus Nitrososphaera Gargensis, a Thermophilic Group I.1B Archaeon
- Inhibitory Effects of C₂ to C₁₀ 1-Alkynes on Ammonia Oxidation in Two Nitrososphaera Species
- Nitrososphaera Viennensis, an Ammonia Oxidizing Archaeon from Soil
- Species, Abundance and Function of Ammonia-Oxidizing Archaea in Inland Waters Across China
- Integrated Mobile Genetic Elements in Thaumarchaeota M Krupovic, Kira Makarova, Yuri Wolf, Sofia Medvedeva, David Prangishvili, Patrick Forterre, Eugene Koonin
- Aquatic Metagenomes Implicate Thaumarchaeota in Global Cobalamin Production
- Genome Wide Transcriptomic Analysis of the Soil Ammonia Oxidizing Archaeon Nitrososphaera Viennensis Upon Exposure to Copper Limitation
- Genomes of Thaumarchaeota from Deep Sea Sediments Reveal Specific
- The Thaumarchaeon N. Gargensis Carries Functional Bioabd Genes and Has a Promiscuous E. Coli Δbioh-Complementing Esterase Estn1
- Integrated Metabolism in Sponge–Microbe Symbiosis Revealed by Genome-Centered Metatranscriptomics
- Drivers of Archaeal Ammonia-Oxidizing Communities in Soil