Sinninghe Damsté, Jaap S.


Publications
7

Natranaerofaba carboxydovora gen. nov., sp. nov., an extremely haloalkaliphilic <scp>CO</scp>‐utilizing acetogen from a hypersaline soda lake representing a novel deep phylogenetic lineage in the class ‘Natranaerobiia

Citation
Sorokin et al. (2021). Environmental Microbiology 23 (7)
Names
Natranaerofaba Natranaerofabaceae
Abstract
SummaryAn anaerobic enrichment with CO from sediments of hypersaline soda lakes resulted in a methane‐forming binary culture, whereby CO was utilized by a bacterium and not the methanogenic partner. The bacterial isolate ANCO1 forms a deep‐branching phylogenetic lineage at the level of a new family within the class ‘Natranaerobiia’. It is an extreme haloalkaliphilic and moderate thermophilic acetogen utilizing CO, formate, pyruvate and lactate as electron donors and thiosulfate, nitrate (reduced

Membrane Lipid Composition of the Moderately Thermophilic Ammonia-Oxidizing Archaeon “ Candidatus Nitrosotenuis uzonensis” at Different Growth Temperatures

Citation
Bale et al. (2019). Applied and Environmental Microbiology 85 (20)
Names
Ca. Nitrosotenuis uzonensis
Abstract
For Thaumarchaeota , the ratio of their glycerol dialkyl glycerol tetraether (GDGT) lipids depends on growth temperature, a premise that forms the basis of the widely applied TEX 86 paleotemperature proxy. A thorough understanding of which GDGTs are produced by which Thaumarchaeota and what the effect of temperature is on their GDGT composition is essential for constraining the TEX 86 pro

Autotrophic Carbon Dioxide Fixation via the Calvin-Benson-Bassham Cycle by the Denitrifying Methanotroph “Candidatus Methylomirabilis oxyfera”

Citation
Rasigraf et al. (2014). Applied and Environmental Microbiology 80 (8)
Names
Methylomirabilis oxygeniifera Ts
Abstract
ABSTRACT Methane is an important greenhouse gas and the most abundant hydrocarbon in the Earth's atmosphere. Methanotrophic microorganisms can use methane as their sole energy source and play a crucial role in the mitigation of methane emissions in the environment. “ Candidatus Methylomirabilis oxyfera” is a recently described intra-aerobic methanotroph that is assumed to use nitric oxide to generate internal oxygen to oxidize methane via the conven

Rare Branched Fatty Acids Characterize the Lipid Composition of the Intra-Aerobic Methane Oxidizer “Candidatus Methylomirabilis oxyfera”

Citation
Kool et al. (2012). Applied and Environmental Microbiology 78 (24)
Names
Methylomirabilis oxygeniifera Ts
Abstract
ABSTRACT The recently described bacterium “ Candidatus Methylomirabilis oxyfera” couples the oxidation of the important greenhouse gas methane to the reduction of nitrite. The ecological significance of “ Ca . Methylomirabilis oxyfera” is still underexplored, as our ability to identify the presence of this bacterium is thus far limited to DNA-based techniques. Here, we investigated the lipid composition of “ Ca