Biome-specific distribution of Ni-containing carbon monoxide dehydrogenases. [PDF]
Extremophiles, 2022 Ni-containing carbon monoxide dehydrogenase (Ni-CODH) plays an important role in the CO/CO₂-based carbon and energy metabolism of microbiomes. Ni-CODH is classified into distinct phylogenetic clades, A–G, with possibly distinct cellular roles.
Inoue M +5 more
europepmc +4 more sources
Regulation of Multiple Carbon Monoxide Consumption Pathways in Anaerobic Bacteria [PDF]
Frontiers in Microbiology, 2011 Carbon monoxide (CO), well known as a toxic gas, is increasingly recognized as a key metabolite and signaling molecule. Microbial utilization of CO is quite common, evidenced by the rapid escalation in description of new species of CO-utilizing bacteria ...
Stephen M. Techtmann +5 more
doaj +3 more sources
Life on the fringe: microbial adaptation to growth on carbon monoxide [version 1; referees: 3 approved] [PDF]
F1000Research, 2018 Microbial adaptation to extreme conditions takes many forms, including specialized metabolism which may be crucial to survival in adverse conditions.
Frank T. Robb, Stephen M. Techtmann
doaj +2 more sources
Editorial: The Impact of Microorganisms on Consumption of Atmospheric Trace Gases. [PDF]
Front Microbiol, 2017 Editorial on the Research Topic: The Impact of Microorganisms on Consumption of Atmospheric Trace ...
Kolb S, Horn MA, Murrell JC, Knief C.
europepmc +13 more sources
Metabolism of CO and H2 by pioneer bacteria in volcanic soils and the phyllosphere. [PDF]
ISME JTrace gas degradation is a widespread metabolic adaptation in microbial communities, driving chemosynthesis and providing auxiliary energy that enhances persistence during nutrient starvation.
Fantom N +6 more
europepmc +3 more sources
Tree phyllospheres are a habitat for diverse populations of CO-oxidizing bacteria [PDF]
Environmental Microbiology, Volume 23, Issue 10, Page 6309-6327, October 2021., 2021 Carbon monoxide (CO) is both a ubiquitous atmospheric trace gas and an air pollutant. While aerobic CO-degrading microorganisms in soils and oceans are estimated to remove ~370 Tg of CO per year, the presence of CO-degrading microorganisms in above ...
Bending, G. D. +4 more
core +2 more sources
Carbon monoxide-oxidising Pseudomonadota on volcanic deposits. [PDF]
Environ MicrobiomeCarbon monoxide (CO) oxidising microorganisms are present in volcanic deposits throughout succession, with levels of vegetation and soil influencing the communities present.
Dawson RA +5 more
europepmc +3 more sources
Biological treatment of biowaste as an innovative source of CO-The role of composting process. [PDF]
Front Bioeng Biotechnol, 2023 Carbon monoxide (CO) is an essential “building block” for producing everyday chemicals on industrial scale. Carbon monoxide can also be generated though a lesser-known and sometimes forgotten biorenewable pathways that could be explored to advance ...
Sobieraj K +4 more
europepmc +3 more sources
Subsurface carbon monoxide oxidation capacity revealed through genome-resolved metagenomics of a carboxydotroph [PDF]
Environmental Microbiology Reports, Volume 12, Issue 5, Page 525-533, October 2020., 2020 Summary Microbial communities play important roles in the biogeochemical cycling of carbon in the Earth's deep subsurface. Previously, we demonstrated changes to the microbial community structure of a deep aquifer (1.4 km) receiving 150 tons of injected supercritical CO2 (scCO2) in a geosequestration experiment.
Andre Mu +3 more
wiley +4 more sources
A hydrogen‐oxidizing bacterium enriched from the open ocean resembling a symbiont [PDF]
Environmental Microbiology Reports, Volume 12, Issue 4, Page 396-405, August 2020., 2020 A new autotrophic hydrogen‐oxidizing Chromatiaceae bacterium, namely bacterium CTD079, was enriched from a water column sample at 1500 m water depth in the southern Pacific Ocean. Based on the phylogeny of 16S rRNA genes it was closely related to a scaly
Güllert, Simon +3 more
core +2 more sources