Archaeoglobus fulgidus
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Archaeoglobus Fulgidus. Fulgidus strain 7324 and the. Archaeoglobus fulgidus DSM 4304 Archaeoglobus fulgidus DSM 8774 Disclaimer. Archaeoglobus fulgidus is the type species of genus Archaeoglobus Stetter 1998 a hyperthermophilic sulfate reducing group within the Archaeoglobi class of the euryarchaeota phylum. Archaeoglobus fulgidus a hyperthermophilic archaeal sulfate reducer is one of the few organisms that can utilized-lactate as a sole source for both carbon and electrons.
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Fulgidus strain 7324 and the. Archaeoglobus fulgidus DSM 4304 Archaeoglobus fulgidus DSM 8774 Disclaimer. Fulgidus open reading frame AF0394 which is predicted to encode a d–lactate dehydrogenase Dld was cloned and its product was expressed in Escherichia coli as a fusion with the maltose binding protein MBP. The organism also serves as a model for understanding corrosion and the souring of hydrocarbon reserves. Archaeoglobus fulgidus is a hyperthermophilic archaeon isolated from hydrothermal vents and oil fields that can survive in anaerobic environments approaching temperatures of 95C. The NCBI taxonomy database is not an authoritative source for nomenclature or classification - please consult the relevant scientific literature for the most reliable information.
A new taxon of extremely thermophilic Archaebacteria Syst.
Archaeoglobus fulgidus is the type species of genus Archaeoglobus Stetter 1998 a hyperthermophilic sulfate reducing group within the Archaeoglobi class of the euryarchaeota phylum. A new taxon of extremely thermophilic Archaebacteria. Archaeoglobus fulgidus is the type species of genus Archaeoglobus Stetter 1998 a hyperthermophilic sulfate reducing group within the Archaeoglobi class of the euryarchaeota phylum. Cell extracts of Archaeoglobus fulgidus were found to catalyze an isotope exchange between CO 2 and the carbonyl group of acetyl-CoA. The NCBI taxonomy database is not an authoritative source for nomenclature or classification - please consult the relevant scientific literature for the most reliable information. A new taxon of extremely thermophilic Archaebacteria Syst.
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Fulgidus strain 7324 and the. Mass of the isocitrate dehydrogenase subunit was 42 kDa as determined by SDS-PAGE. CopB and its homologs are distinguished by a metal binding sequence Cys-Pro-His in their sixth transmembrane segment H6 and a His-rich N-terminal metal binding domain His-N-MBD. The organism also serves as a model for understanding corrosion and the souring of hydrocarbon reserves. A new taxon of extremely thermophilic Archaebacteria Syst.
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A new taxon of extremely thermophilic Archaebacteria. Fulgidus strain 7324 and the candidate species Archaeoglobus. A new taxon of extremely thermophilic Archaebacteria. Archaeoglobus fulgidus DSM 4304 Archaeoglobus fulgidus DSM 8774 Disclaimer. Although the genus is most closely related to methanogens and carries most of the enzymes that allow for methanogenesis it lacks the terminal step and necessary.
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Fulgidus strain 7324 and the candidate species Archaeoglobus. Archaeoglobus fulgidus is the type species of genus Archaeoglobus Stetter 1998 a hyperthermophilic sulfate reducing group within the Archaeoglobi class of the euryarchaeota phylum. Fulgidus strain 7324 and the candidate species Archaeoglobus. This observation and the presence of carbon monoxide. Thermautotrophicus was grown in combination with A.
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Methyl viologen oxidoreductase activity strongly support the recent proposal that in A. No PubMed record available. Fulgidus open reading frame AF0394 which is predicted to encode a d–lactate dehydrogenase Dld was cloned and its product was expressed in Escherichia coli as a fusion with the maltose binding protein MBP. To assess the combined effect of sulfate-reduction and methanogenesis on corrosion M. Although the genus is most closely related to methanogens and carries most of the enzymes that allow for methanogenesis it lacks the terminal step and necessary.
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This observation and the presence of carbon monoxide. Archaeoglobus fulgidus a hyperthermophilic archaeal sulfate reducer is one of the few organisms that can utilized-lactate as a sole source for both carbon and electrons. A new taxon of extremely thermophilic Archaebacteria. The sulfate-reducing bacterium Desulfomicrobium thermophilum and the sulfate-reducing archaeon Archaeoglobus fulgidus were used to measure the effect of sulfate reduction on corrosion. The organism also serves as a model for understanding corrosion and the souring of hydrocarbon reserves.
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Mass of the isocitrate dehydrogenase subunit was 42 kDa as determined by SDS-PAGE. Fulgidus open reading frame AF0394 which is predicted to encode a d–lactate dehydrogenase Dld was cloned and its product was expressed in Escherichia coli as a fusion with the maltose binding protein MBP. Fulgidus or D. Archaeoglobus fulgidus is the type species of genus Archaeoglobus Stetter 1998 a hyperthermophilic sulfate reducing group within the Archaeoglobi class of the euryarchaeota phylum. Fulgidus strain 7324 and the.
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Archaeoglobus fulgidus CopB is a member of this subfamily. No PubMed record available. One prominent example is Archaeoglobus fulgidus Klenk et al 1997 a sulfate reducer that has been associated with the contamination of oil wells. The NCBI taxonomy database is not an authoritative source for nomenclature or classification - please consult the relevant scientific literature for the most reliable information. A thermostable homodimeric isocitrate dehydrogenase from the hyperthermophilic sulfate-reducing archaeon Archaeoglobus fulgidus was purified and characterized.
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Archaeoglobus fulgidus is a hyperthermophilic archaeon isolated from hydrothermal vents and oil fields that can survive in anaerobic environments approaching temperatures of 95C. Fulgidus strain 7324 and the. Archaeoglobus fulgidus Click on organism name to get more information. Archaeoglobus fulgidus a hyperthermophilic archaeal sulfate reducer is one of the few organisms that can utilized-lactate as a sole source for both carbon and electrons. Archaeoglobus fulgidus is the type species of genus Archaeoglobus Stetter 1998 a hyperthermophilic sulfate reducing group within the Archaeoglobi class of the euryarchaeota phylum.
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CopB and its homologs are distinguished by a metal binding sequence Cys-Pro-His in their sixth transmembrane segment H6 and a His-rich N-terminal metal binding domain His-N-MBD. One prominent example is Archaeoglobus fulgidus Klenk et al 1997 a sulfate reducer that has been associated with the contamination of oil wells. No PubMed record available. Cell extracts of Archaeoglobus fulgidus were found to catalyze an isotope exchange between CO 2 and the carbonyl group of acetyl-CoA. Thermautotrophicus was grown in combination with A.
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Methyl viologen oxidoreductase activity strongly support the recent proposal that in A. No PubMed record available. The sulfate-reducing bacterium Desulfomicrobium thermophilum and the sulfate-reducing archaeon Archaeoglobus fulgidus were used to measure the effect of sulfate reduction on corrosion. Fulgidus acetyl-CoA is degraded via a decarbonylation reaction. CopB and its homologs are distinguished by a metal binding sequence Cys-Pro-His in their sixth transmembrane segment H6 and a His-rich N-terminal metal binding domain His-N-MBD.
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The NCBI taxonomy database is not an authoritative source for nomenclature or classification - please consult the relevant scientific literature for the most reliable information. CopB and its homologs are distinguished by a metal binding sequence Cys-Pro-His in their sixth transmembrane segment H6 and a His-rich N-terminal metal binding domain His-N-MBD. No PubMed record available. Archaeoglobus fulgidus is the type species of genus Archaeoglobus Stetter 1998 a hyperthermophilic sulfate reducing group within the Archaeoglobi class of the euryarchaeota phylum. Archaeoglobus fulgidus is the type species of genus Archaeoglobus Stetter 1998 a hyperthermophilic sulfate reducing group within the Archaeoglobi class of the euryarchaeota phylum.
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Archaeoglobus fulgidus is a hyperthermophilic archaeon isolated from hydrothermal vents and oil fields that can survive in anaerobic environments approaching temperatures of 95C. The sulfate-reducing bacterium Desulfomicrobium thermophilum and the sulfate-reducing archaeon Archaeoglobus fulgidus were used to measure the effect of sulfate reduction on corrosion. Methyl viologen oxidoreductase activity strongly support the recent proposal that in A. Members of this genus grow heterotrophically or chemolithoautotrophically with sulfate or thiosulfate as electron acceptors. A thermostable homodimeric isocitrate dehydrogenase from the hyperthermophilic sulfate-reducing archaeon Archaeoglobus fulgidus was purified and characterized.
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Cell extracts of Archaeoglobus fulgidus were found to catalyze an isotope exchange between CO 2 and the carbonyl group of acetyl-CoA. Fulgidus strain 7324 and the candidate species Archaeoglobus. The sulfate-reducing bacterium Desulfomicrobium thermophilum and the sulfate-reducing archaeon Archaeoglobus fulgidus were used to measure the effect of sulfate reduction on corrosion. The NCBI taxonomy database is not an authoritative source for nomenclature or classification - please consult the relevant scientific literature for the most reliable information. To assess the combined effect of sulfate-reduction and methanogenesis on corrosion M.
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Thermautotrophicus was grown in combination with A. Methyl viologen oxidoreductase activity strongly support the recent proposal that in A. Mass of the isocitrate dehydrogenase subunit was 42 kDa as determined by SDS-PAGE. The sulfate-reducing bacterium Desulfomicrobium thermophilum and the sulfate-reducing archaeon Archaeoglobus fulgidus were used to measure the effect of sulfate reduction on corrosion. Fulgidus strain 7324 and the.
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The sulfate-reducing bacterium Desulfomicrobium thermophilum and the sulfate-reducing archaeon Archaeoglobus fulgidus were used to measure the effect of sulfate reduction on corrosion. The organism also serves as a model for understanding corrosion and the souring of hydrocarbon reserves. Archaeoglobus fulgidus a hyperthermophilic archaeal sulfate reducer is one of the few organisms that can utilized-lactate as a sole source for both carbon and electrons. CopB and its homologs are distinguished by a metal binding sequence Cys-Pro-His in their sixth transmembrane segment H6 and a His-rich N-terminal metal binding domain His-N-MBD. Archaeoglobus fulgidus Click on organism name to get more information.
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The NCBI taxonomy database is not an authoritative source for nomenclature or classification - please consult the relevant scientific literature for the most reliable information. Fulgidus acetyl-CoA is degraded via a decarbonylation reaction. The organism also serves as a model for understanding corrosion and the souring of hydrocarbon reserves. Archaeoglobus fulgidus is the type species of genus Archaeoglobus Stetter 1998 a hyperthermophilic sulfate reducing group within the Archaeoglobi class of the euryarchaeota phylum. Archaeoglobus fulgidus a hyperthermophilic archaeal sulfate reducer is one of the few organisms that can utilized-lactate as a sole source for both carbon and electrons.
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A thermostable homodimeric isocitrate dehydrogenase from the hyperthermophilic sulfate-reducing archaeon Archaeoglobus fulgidus was purified and characterized. Mass of the isocitrate dehydrogenase subunit was 42 kDa as determined by SDS-PAGE. We have cloned expressed in Escherichia coli and functionally characterized this enzyme. The organism also serves as a model for understanding corrosion and the souring of hydrocarbon reserves. Archaeoglobus fulgidus Click on organism name to get more information.
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Members of this genus grow heterotrophically or chemolithoautotrophically with sulfate or thiosulfate as electron acceptors. One prominent example is Archaeoglobus fulgidus Klenk et al 1997 a sulfate reducer that has been associated with the contamination of oil wells. The organism also serves as a model for understanding corrosion and the souring of hydrocarbon reserves. Methyl viologen oxidoreductase activity strongly support the recent proposal that in A. Members of this genus grow heterotrophically or chemolithoautotrophically with sulfate or thiosulfate as electron acceptors.
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