FROM THERMAL SPRINGS TO SUBWAY BENCHES: EXPLORING THE DIVERSITY OF CARBON MONOXIDE DEHYDROGENASES THROUGH METAGENOMES, PHYLOGENETICS, AND MACHINE LEARNING [PDF]
, 2022 Carbon monoxide is well known as a toxic gas but can also be an important input and intermediary for microbial metabolisms. Carbon monoxide dehydrogenases (CODHs) serve as key enzyme complexes for a variety of microbial carbon monoxide (CO) utilization ...
Bigcraft, Isaac
core +1 more source
Molecular and Culture-Based Analyses of Aerobic Carbon Monoxide Oxidizer Diversity [PDF]
, 2003 Isolates belonging to six genera not previously known to oxidize CO were obtained from enrichments with aquatic and terrestrial plants. DNA from these and other isolates was used in PCR assays of the gene for the large subunit of carbon monoxide ...
King, Gary M.
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Distribution, diversity and ecology of aerobic carbon monoxide-oxidizing bacteria in Hawaiian volcanic deposits [PDF]
, 2009 Carbon monoxide-oxidizing bacteria are among the first colonists of recently formed volcanic deposits despite environmental conditions that challenge their survival, such as oscillating water regimes and lack of endogenous sources of organic carbon and ...
Weber, Carolyn Frances
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Molecular biology of carboxydotrophs [PDF]
, 2023 令和4年度 京都大学化学研究所 スーパーコンピュータシステム ...
Yoshida, Takashi
core
Prospective CO2 and CO bioconversion into ectoines using novel microbial platforms [PDF]
, 2022 Microbial conversion of CO2 and CO into chemicals is a promising route that can contribute to the cost-effective reduction of anthropogenic green house and waste gas emissions and create a more circular economy. However, the biotechnological valorization
Cantera, Sara +5 more
core +2 more sources
Carbon monoxide oxidation by bacteria associated with the roots of freshwater macrophytes [PDF]
, 1998 The potential rates and control of aerobic root-associated carbon monoxide (CO) consumption were assessed by using excised plant roots from five common freshwater macrophytes. Kinetic analyses indicated that the maximum potential uptake velocities for CO
Rich, Jeremy J., King, G. M.
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Nitrate-dependent anaerobic carbon monoxide oxidation by aerobic CO-oxidizing bacteria [PDF]
, 2006 Two dissimilatory nitrate-reducing (Burkholderia xenovorans LB400 and Xanthobacter sp. str. COX) and two denitrifying isolates (Stappia aggregata IAM 12614 and Bradyrhizobium sp. str. CPP), previously characterized as aerobic CO oxidizers, consumed CO at
King, G. M.
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Probing efficient microbial CO2 utilisation through metabolic and process modelling
Microbial Biotechnology, Volume 17, Issue 2, February 2024.By pairing process modelling and host‐agnostic metabolic modelling, we compare acetogenic fermentation conditions. The models were implemented in a simulation of an industrial‐scale bubble column reactor, predicting a clear advantage of thermophilic processes.
Philip J. Gorter de Vries +4 more
wiley +1 more source
Metagenomic Evidence for H2 Oxidation and H2 Production by Serpentinite-Hosted Subsurface Microbial Communities [PDF]
, 2012 Ultramafic rocks in the Earth’s mantle represent a tremendous reservoir of carbon and reducing power. Upon tectonic uplift and exposure to fluid flow, serpentinization of these materials generates copious energy, sustains abiogenic synthesis of organic ...
Bridget eNelson +3 more
core +3 more sources
Carbon monoxide consumption and production by wetland peats [PDF]
, 1999 Wetland peats were analyzed for their potential to consume and produce carbon monoxide (CO) under aerobic and anaerobic conditions. Kinetic and functional characteristics of anaerobic CO consumption were compared with those of methanogenesis.
King, G. M., Rich, Jeremy J.
core +2 more sources