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acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH + H+
acetyl-CoA + NADH + H+
acetaldehyde + CoA + NAD+
butanoyl-CoA + NADH + H+
butanal + CoA + NAD+
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-
-
-
r
formaldehyde + CoA + NAD+
formyl-CoA + NADH + H+
-
-
-
?
propanal + CoA + NAD+
propionyl-CoA + NADH
propanoyl-CoA + NADH + H+
propanal + CoA + NAD+
-
-
-
-
r
propionaldehyde + CoA + NAD+
propionyl-CoA + NADH + H+
-
-
-
?
additional information
?
-
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
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-
-
r
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
-
-
-
r
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
-
-
-
?
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
-
-
-
?
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
-
during ethanol fermentation
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?
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
-
during ethanol fermentation
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r
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
-
-
-
?
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
-
-
-
?
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
-
-
-
r
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
-
during glucose fermentation
-
?
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
-
during glucose fermentation
-
r
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
-
during glucose fermentation
-
r
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
-
-
-
r
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
-
-
-
r
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
-
ethanol production in aerobic glucose dissimilation
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r
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
-
-
-
?
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
-
-
-
?
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
-
involved in degradation of toxic aromatic compounds via the intermediate catechol
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-
r
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
-
-
-
?
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
-
involved in degradation of toxic aromatic compounds via the intermediate catechol
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-
r
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH
-
-
-
r
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH + H+
-
-
-
r
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH + H+
-
-
-
-
?
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH + H+
-
-
-
-
?
acetaldehyde + CoA + NAD+
acetyl-CoA + NADH + H+
-
-
-
?
acetyl-CoA + NADH + H+
acetaldehyde + CoA + NAD+
-
best substrate
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-
r
acetyl-CoA + NADH + H+
acetaldehyde + CoA + NAD+
-
-
-
r
acetyl-CoA + NADH + H+
acetaldehyde + CoA + NAD+
-
-
-
r
propanal + CoA + NAD+
propionyl-CoA + NADH
-
is used 63% as efficiently as acetaldehyde
-
r
propanal + CoA + NAD+
propionyl-CoA + NADH
-
is used 63% as efficiently as acetaldehyde
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r
propanal + CoA + NAD+
propionyl-CoA + NADH
-
fermentation of 1,2-propanediol
-
r
additional information
?
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the bifunctional enzymes commonly produce ethanol from acetyl-CoA with acetaldehyde as intermediate
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-
-
additional information
?
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the bifunctional enzymes commonly produce ethanol from acetyl-CoA with acetaldehyde as intermediate
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-
-
additional information
?
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the bifunctional enzymes commonly produce ethanol from acetyl-CoA with acetaldehyde as intermediate
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-
additional information
?
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DmpFG is a bifunctional enzyme comprised of an aldolase subunit, DmpG, and a dehydrogenase subunit, DmpF. The aldehyde intermediate produced by the aldolase is channeled directly through a buried molecular channel in the protein structure from the aldolase to the dehydrogenase active site. Binding and channeling of alternative substrates in the enzyme DmpFG, molecular dynamics, overview
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-
?
additional information
?
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DmpFG is a bifunctional enzyme comprised of an aldolase subunit, DmpG, and a dehydrogenase subunit, DmpF. The aldehyde intermediate produced by the aldolase is channeled directly through a buried molecular channel in the protein structure from the aldolase to the dehydrogenase active site. Binding and channeling of alternative substrates in the enzyme DmpFG, molecular dynamics, overview
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-
?