Reductive acetyl CoA pathway: Difference between revisions
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<StructureSection load='CODH2-nBIC-Dimer1.pdb' size='300' side='right' scene='Journal:JBIC:13/Cv/5' caption='Carbon monoxide dehydrogenase showing Fe4-S4, Fe2-S2, Fe3-Ni-S4 clusters complex with butylformamide, butyl isocyanate and Fe+3 ion (PDB code [[2yiv]]) '> | <StructureSection load='CODH2-nBIC-Dimer1.pdb' size='300' side='right' scene='Journal:JBIC:13/Cv/5' caption='Carbon monoxide dehydrogenase showing Fe4-S4, Fe2-S2, Fe3-Ni-S4 clusters complex with butylformamide, butyl isocyanate and Fe+3 ion (PDB code [[2yiv]]) '> | ||
The reductive acetyl CoA pathway (CoA) pathway, also known as the Wood-Ljungdahl pathway uses CO2 as electron acceptor and carbon source, and H2 as an electron donor to form acetic acid. | The reductive acetyl CoA pathway (CoA) pathway, also known as the Wood-Ljungdahl pathway uses CO2 as electron acceptor and carbon source, and H2 as an electron donor to form acetic acid. See [[Carbon Fixation]]. | ||
The [[Carbon Monoxide Dehydrogenase]]/Acetyl-CoA Synthase is the oxygen-sensitive enzyme that permits the reduction of CO2 to CO and the synthesis of acetyl | The [[Carbon Monoxide Dehydrogenase]]/[[Acetyl-CoA Synthase]] is the oxygen-sensitive enzyme that permits the reduction of CO2 to CO and the synthesis of <scene name='43/430893/Cv/2'>acetyl CoA</scene> in several reactions. | ||
</StructureSection> | </StructureSection> | ||
== References == | == References == | ||
<references/> | <references/> | ||
Latest revision as of 18:54, 26 January 2023
The reductive acetyl CoA pathway (CoA) pathway, also known as the Wood-Ljungdahl pathway uses CO2 as electron acceptor and carbon source, and H2 as an electron donor to form acetic acid. See Carbon Fixation. The Carbon Monoxide Dehydrogenase/Acetyl-CoA Synthase is the oxygen-sensitive enzyme that permits the reduction of CO2 to CO and the synthesis of in several reactions.
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