A missing link between complex I and group 4 membrane-bound [NiFe] hydrogenases.
about
One step beyond a ribosome: The ancient anaerobic coreEarly bioenergetic evolutionIntact Functional Fourteen-subunit Respiratory Membrane-bound [NiFe]-Hydrogenase Complex of the Hyperthermophilic ArchaeonPyrococcus furiosusExpanding the substrates for a bacterial hydrogenlyase reaction.Energy conservation by oxidation of formate to carbon dioxide and hydrogen via a sodium ion current in a hyperthermophilic archaeon.The human gut and groundwater harbor non-photosynthetic bacteria belonging to a new candidate phylum sibling to Cyanobacteria.Energetics of Respiration and Oxidative Phosphorylation in Mycobacteria.Comparison of environmental and isolate Sulfobacillus genomes reveals diverse carbon, sulfur, nitrogen, and hydrogen metabolisms.Solar powered biohydrogen production requires specific localization of the hydrogenase.Genome Analysis of Structure-Function Relationships in Respiratory Complex I, an Ancient Bioenergetic EnzymeGenomic and metagenomic surveys of hydrogenase distribution indicate H2 is a widely utilised energy source for microbial growth and survivalRedox cofactors insertion in prokaryotic molybdoenzymes occurs via a conserved folding mechanism.Cation transport by the respiratory NADH:quinone oxidoreductase (complex I): facts and hypotheses.Cyanobacterial hydrogenases and hydrogen metabolism revisited: recent progress and future prospectsA survey of the energy metabolism of nodulating symbionts reveals a new form of respiratory complex I.Exploring the directionality of Escherichia coli formate hydrogenlyase: a membrane-bound enzyme capable of fixing carbon dioxide to organic acid.The Minimum Biological Energy Quantum.Genomic resolution of a cold subsurface aquifer community provides metabolic insights for novel microbes adapted to high CO2 concentrations.Three different [NiFe] hydrogenases confer metabolic flexibility in the obligate aerobe Mycobacterium smegmatis.Roles of Staphylococcus aureus Mnh1 and Mnh2 Antiporters in Salt Tolerance, Alkali Tolerance, and Pathogenesis.Respiratory complex I from Escherichia coli does not transport Na(+) in the absence of its NuoL subunit.Long-range proton-coupled electron transfer in biological energy conversion: towards mechanistic understanding of respiratory complex I.Metabolic marker gene mining provides insight in global diversity and, coupled with targeted genome reconstruction, sheds further light on metabolic potential of theHydrogen production by Sulfurospirillum species enables syntrophic interactions of Epsilonproteobacteria
P2860
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P2860
A missing link between complex I and group 4 membrane-bound [NiFe] hydrogenases.
description
2012 nî lūn-bûn
@nan
2012年の論文
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2012年学术文章
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2012年学术文章
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2012年学术文章
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2012年学术文章
@zh-hans
2012年学术文章
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2012年学术文章
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2012年學術文章
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2012年學術文章
@zh-hant
name
A missing link between complex I and group 4 membrane-bound [NiFe] hydrogenases.
@en
A missing link between complex I and group 4 membrane-bound [NiFe] hydrogenases.
@nl
type
label
A missing link between complex I and group 4 membrane-bound [NiFe] hydrogenases.
@en
A missing link between complex I and group 4 membrane-bound [NiFe] hydrogenases.
@nl
prefLabel
A missing link between complex I and group 4 membrane-bound [NiFe] hydrogenases.
@en
A missing link between complex I and group 4 membrane-bound [NiFe] hydrogenases.
@nl
P50
P1476
A missing link between complex I and group 4 membrane-bound [NiFe] hydrogenases.
@en
P2093
Afonso M S Duarte
P304
P356
10.1016/J.BBABIO.2012.09.012
P577
2012-09-20T00:00:00Z