2009
DOI: 10.1111/j.1462-2920.2009.01865.x
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‘That which does not kill us only makes us stronger’: the role of carbon monoxide in thermophilic microbial consortia

Abstract: SummaryCarbon monoxide (CO), while a potent toxin, is also a key intermediate in major autotrophic pathways such as methanogenesis and acetogenesis. The ability of purple sulfur bacteria to use CO as an energy source was first described by Uffen in 1976. The prototype extremely thermophilic carboxydotroph Carboxydothermus hydrogenoformans was described in 1991. Eight bacteria and one archaeon that utilize CO have since been isolated and described from diverse geothermal environments. They derive energy from th… Show more

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Cited by 89 publications
(102 citation statements)
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“…Several microorganisms, including aerobic and anaerobic bacteria and anaerobic archaea, use CO as a source of carbon and energy for growth [10,11,22]. CO-metabolizing bacteria, spanning multiple phylogenetic lineages, include aerobic carboxydotrophic and carboxydovores bacteria (the latter being unable to grow in the presence of elevated CO concentrations) [9], and obligate anaerobic CO oxidizers (e.g., acetogenic bacteria, hydrogenogenic bacteria, phototrophic purple nonsulfur bacteria, and sulfate-reducing bacteria) [11].…”
Section: Co and Prokaryotic Organismsmentioning
confidence: 99%
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“…Several microorganisms, including aerobic and anaerobic bacteria and anaerobic archaea, use CO as a source of carbon and energy for growth [10,11,22]. CO-metabolizing bacteria, spanning multiple phylogenetic lineages, include aerobic carboxydotrophic and carboxydovores bacteria (the latter being unable to grow in the presence of elevated CO concentrations) [9], and obligate anaerobic CO oxidizers (e.g., acetogenic bacteria, hydrogenogenic bacteria, phototrophic purple nonsulfur bacteria, and sulfate-reducing bacteria) [11].…”
Section: Co and Prokaryotic Organismsmentioning
confidence: 99%
“…Therefore, despite its toxicity [1,7,8], CO plays a key role in several metabolic processes and in diverse signal transduction pathways in bacteria, archaea, and eukaryotes [9][10][11].…”
Section: Introductionmentioning
confidence: 99%
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“…Most thermophilic carboxydotrophs oxidize CO for energy and produce molecular hydrogen or acetate (Sokolova et al, 2009). As many microbes are sensitive to CO exposure, CO-oxidation in the environment may have an important role; that is, 'scavenging' toxic CO and converting it to more commonly used substrates (Techtmann et al, 2009). Presently, whereas many isolates have been found in terrestrial hot springs, only one bacterial and three archaeal isolates of H 2 -producing (hydrogenogenic) carboxydotrophs have been found in marine environments.…”
mentioning
confidence: 99%
“…In such environments, thermophilic CO-oxidizing prokaryotes are assumed to play important roles as CO scavengers (Techtmann et al, 2009). Some of CO-oxidizing H 2 -producing anaerobes, such as Carboxydothermus hydrogenoformans (Svetlichny et al, 1991), are so-called 'carboxydotrophic hydrogenogens'.…”
mentioning
confidence: 99%