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ferredoxin + NADH
reduced ferredoxin + NAD+ + H+
flavodoxin hydroquinone + NADH
flavodoxin hydroquinol + NAD+ + H+
oxidized ferredoxin + NADH
reduced ferredoxin + NAD+
oxidized ferredoxin + NADPH
reduced ferredoxin + NADP+
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enzyme enhances the level of the active form of CYP105D1
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oxidized [2Fe-2S] ferredoxin + NADH
reduced [2Fe-2S] ferredoxin + NAD+ + H+
reduced ferredoxin + NAD+
oxidized ferredoxin + NADH + H+
reduced [2Fe-2S] ferredoxin + NAD+ + H+
oxidized [2Fe-2S] ferredoxin + NADH
additional information
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ferredoxin + NADH
reduced ferredoxin + NAD+ + H+
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BphA3, a Rieske-type [2Fe-2S] ferredoxin, and BphA4 comprise an electron-transfer system for the multi-component dioxygenase BphA, BphA4 receives two electrons from NADH as a form of hydride and transfers an electron to each of two BphA3 molecules, molecular mechanism of the electron transfer between BphA3 and BphA4, overview
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ferredoxin + NADH
reduced ferredoxin + NAD+ + H+
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the enzyme is an essential component of the cytochrome P450 systems in Rhodopseudomonas palustris strain CGA009, a model organism with diverse metabolic pathways
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ferredoxin + NADH
reduced ferredoxin + NAD+ + H+
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the enzyme is an essential component of the cytochrome P450 systems in Rhodopseudomonas palustris strain CGA009, a model organism with diverse metabolic pathways
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flavodoxin hydroquinone + NADH
flavodoxin hydroquinol + NAD+ + H+
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ir
flavodoxin hydroquinone + NADH
flavodoxin hydroquinol + NAD+ + H+
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ir
flavodoxin hydroquinone + NADH
flavodoxin hydroquinol + NAD+ + H+
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ir
oxidized ferredoxin + NADH
reduced ferredoxin + NAD+
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essential step in glucose fermentation
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oxidized ferredoxin + NADH
reduced ferredoxin + NAD+
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catabolic enzyme
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oxidized ferredoxin + NADH
reduced ferredoxin + NAD+
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essential step in glucose fermentation
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oxidized ferredoxin + NADH
reduced ferredoxin + NAD+
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essential step in glucose fermentation
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oxidized ferredoxin + NADH
reduced ferredoxin + NAD+
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catabolic enzyme
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oxidized ferredoxin + NADH
reduced ferredoxin + NAD+
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the enzyme couples electron flow from formate dehydrogenase (NAD+ requiring) to ferredoxin
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oxidized ferredoxin + NADH
reduced ferredoxin + NAD+
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required for activity of CYP101
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oxidized ferredoxin + NADH
reduced ferredoxin + NAD+
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oxidized ferredoxin + NADH
reduced ferredoxin + NAD+
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the enzyme is required for the mechanism of CO tolerance by the CO-adapted strain
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oxidized [2Fe-2S] ferredoxin + NADH
reduced [2Fe-2S] ferredoxin + NAD+ + H+
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oxidized [2Fe-2S] ferredoxin + NADH
reduced [2Fe-2S] ferredoxin + NAD+ + H+
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oxidized [2Fe-2S] ferredoxin + NADH
reduced [2Fe-2S] ferredoxin + NAD+ + H+
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oxidized [2Fe-2S] ferredoxin + NADH
reduced [2Fe-2S] ferredoxin + NAD+ + H+
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oxidized [2Fe-2S] ferredoxin + NADH
reduced [2Fe-2S] ferredoxin + NAD+ + H+
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?
reduced ferredoxin + NAD+
oxidized ferredoxin + NADH + H+
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ferredoxin is reduced with CO, catalyzed by the purified acetyl-CoA synthase/CO dehydrogenase. Using CO-reduced ferredoxin, NAD+ reduction is highly specific and strictly dependent on ferredoxin. Electron transport from reduced ferredoxin to NAD+ is coupled to electrogenic Na+ transport, indicating the generation of a sodium ion potential. Vice versa, endergonic ferredoxin reduction with NADH as reductant is possible, but only in the presence of a sodium ion potential, and is accompanied by Na+ efflux out of the vesicles
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r
reduced ferredoxin + NAD+
oxidized ferredoxin + NADH + H+
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ferredoxin is reduced with CO, catalyzed by the purified acetyl-CoA synthase/CO dehydrogenase. Using CO-reduced ferredoxin, NAD+ reduction is highly specific and strictly dependent on ferredoxin. Electron transport from reduced ferredoxin to NAD+ is coupled to electrogenic Na+ transport, indicating the generation of a sodium ion potential. Vice versa, endergonic ferredoxin reduction with NADH as reductant is possible, but only in the presence of a sodium ion potential, and is accompanied by Na+ efflux out of the vesicles
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r
reduced ferredoxin + NAD+
oxidized ferredoxin + NADH + H+
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ferredoxin is reduced with CO, catalyzed by the purified acetyl-CoA synthase/CO dehydrogenase. Using CO-reduced ferredoxin, NAD+ reduction is highly specific and strictly dependent on ferredoxin. Electron transport from reduced ferredoxin to NAD+ is coupled to electrogenic Na+ transport, indicating the generation of a sodium ion potential. Vice versa, endergonic ferredoxin reduction with NADH as reductant is possible, but only in the presence of a sodium ion potential, and is accompanied by Na+ efflux out of the vesicles
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r
reduced [2Fe-2S] ferredoxin + NAD+ + H+
oxidized [2Fe-2S] ferredoxin + NADH
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?
reduced [2Fe-2S] ferredoxin + NAD+ + H+
oxidized [2Fe-2S] ferredoxin + NADH
Oleidesulfovibrio alaskensis
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reduced [2Fe-2S] ferredoxin + NAD+ + H+
oxidized [2Fe-2S] ferredoxin + NADH
Oleidesulfovibrio alaskensis G20
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additional information
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the enzyme can, depending on cellular conditions, produce or oxidize NADH. NADH-ferredoxin reductase can control the level of NAD+ and NADH in the cell
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additional information
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the enzyme can, depending on cellular conditions, produce or oxidize NADH. NADH-ferredoxin reductase can control the level of NAD+ and NADH in the cell
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additional information
?
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the enzyme can, depending on cellular conditions, produce or oxidize NADH. NADH-ferredoxin reductase can control the level of NAD+ and NADH in the cell
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