1.2.7.11: 2-oxoacid oxidoreductase (ferredoxin)
This is an abbreviated version!
For detailed information about 2-oxoacid oxidoreductase (ferredoxin), go to the full flat file.
Word Map on EC 1.2.7.11
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1.2.7.11
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sulfolobus
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ferredoxins
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2-oxoacids
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thiamin
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thermoacidophilic
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pyrophosphate
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archaeon
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ofors
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pyruvate:ferredoxin
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2-oxoglutarate
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tpp
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iron-sulfur
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oxalate
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tokodaii
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2-oxobutyrate
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africanus
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halobium
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halobacterium
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2-oxoglutarate:ferredoxin
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analysis
- 1.2.7.11
- sulfolobus
- ferredoxins
- 2-oxoacids
- thiamin
-
thermoacidophilic
- pyrophosphate
- archaeon
-
ofors
-
pyruvate:ferredoxin
- 2-oxoglutarate
- tpp
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iron-sulfur
- oxalate
- tokodaii
- 2-oxobutyrate
- africanus
- halobium
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halobacterium
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2-oxoglutarate:ferredoxin
- analysis
Reaction
+ + 2 oxidized ferredoxin = + + 2 reduced ferredoxin + 2 H+
Synonyms
2-ketoacid:ferredoxin oxidoreductase, 2-oxoacid: ferredoxin oxidoreductase, 2-oxoacid:ferredoxin oxidoreductase, 2-oxoacid:ferredoxin oxidoreductases, Ape1473/1472, KOR, OFOR, OFOR1, OFOR2, PFOR, Saci_2306, Saci_2307, StOFOR, StOFOR1, StOFOR2
ECTree
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Substrates Products
Substrates Products on EC 1.2.7.11 - 2-oxoacid oxidoreductase (ferredoxin)
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REACTION DIAGRAM
2-oxo-4-methylthiobutyrate + CoA + 2 methyl viologen
3-methylthiopropanoyl-CoA + CO2 + 2 reduced methyl viologen + 2 H+
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enzyme Ape1473/1472, 48% of the activity compared to glyoxylate
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-
?
2-oxoadipate + CoA + 2 methyl viologen
glutaryl-CoA + CO2 + 2 reduced methyl viologen + 2 H+
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enzyme Ape1473/1472, 49% of the activity compared to glyoxylate
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-
?
2-oxobutanoate + CoA + 2 oxidized cytochrome c
propanoyl-CoA + CO2 + 2 reduced cytochrome c + 2 H+
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-
-
-
?
2-oxobutyrate + CoA + 2 oxidized methyl viologen
propanoyl-CoA + CO2 + 2 reduced methyl viologen
2-oxoglutarate + CoA + 2 oxidized cytochrome c
succinyl-CoA + CO2 + 2 reduced cytochrome c + 2 H+
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best substrate tested
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-
?
2-oxoglutarate + CoA + 2 oxidized ferredoxin
succinyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
2-oxoglutarate + CoA + 2 oxidized methyl viologen
succinyl-CoA + CO2 + 2 reduced methyl viologen + 2 H+
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enzyme Ape1473/1472, 94% of the activity compared to glyoxylate
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-
?
2-oxoglutarate + CoA + oxidized methyl viologen
succinoyl-CoA + CO2 + reduced methyl viologen
2-oxoglutarate + CoA + oxidized methyl viologen
succinyl-CoA + CO2 + reduced methyl viologen + H+
4-hydroxyphenylpyruvate + CoA + 2 methyl viologen
(4-hydroxyphenyl)acetyl-CoA + CO2 + 2 reduced methyl viologen + 2 H+
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enzyme Ape1473/1472, 16% of the activity compared to glyoxylate
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-
?
acetyl-CoA + CO2 + 2 reduced methyl viologen + 2 H+
pyruvate + CoA + 2 oxidized methyl viologen
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-
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r
glyoxylate + CoA + 2 oxidized methyl viologen
formyl-CoA + CO2 + 2 reduced methyl viologen + 2 H+
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enzyme Ape1473/1472
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-
?
hydroxypyruvate + CoA + 2 methyl viologen
?
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enzyme Ape1473/1472, 55% of the activity compared to glyoxylate
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-
?
phenylpyruvate + CoA + 2 methyl viologen
phenylacetyl-CoA + CO2 + 2 reduced methyl viologen + 2 H+
pyruvate + CoA + 2 oxidized cytochrome c
acetyl-CoA + CO2 + 2 reduced cytochrome c + 2 H+
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-
-
-
?
pyruvate + CoA + 2 oxidized methyl viologen
acetyl-CoA + CO2 + 2 reduced methyl viologen + 2 H+
acyl-CoA + CO2 + reduced ferredoxin + H+
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-
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-
?
2-oxoacid + CoA + oxidized ferredoxin
acyl-CoA + CO2 + reduced ferredoxin + H+
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-
?
2-oxoacid + CoA + oxidized ferredoxin
acyl-CoA + CO2 + reduced ferredoxin + H+
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-
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-
?
2-oxoacid + CoA + oxidized ferredoxin
acyl-CoA + CO2 + reduced ferredoxin + H+
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-
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-
?
propanoyl-CoA + CO2 + 2 reduced methyl viologen
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enzyme Ape1473/1472, 97% of the activity compared to glyoxylate
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-
?
2-oxobutyrate + CoA + 2 oxidized methyl viologen
propanoyl-CoA + CO2 + 2 reduced methyl viologen
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-
-
?
2-oxobutyrate + CoA + 2 oxidized methyl viologen
propanoyl-CoA + CO2 + 2 reduced methyl viologen
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-
-
?
2-oxobutyrate + CoA + 2 oxidized methyl viologen
propanoyl-CoA + CO2 + 2 reduced methyl viologen
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-
-
?
propanoyl-CoA + CO2 + reduced ferredoxin
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-
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?
2-oxobutyrate + CoA + oxidized ferredoxin
propanoyl-CoA + CO2 + reduced ferredoxin
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Sulfolobus solfataricus ferredoxin contains a dicluster, i.e., a [3Fe-4S] cluster and a [4Fe-4S] cluster, and to possibly contain one zinc center
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-
?
2-oxobutyrate + CoA + oxidized ferredoxin
propanoyl-CoA + CO2 + reduced ferredoxin
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Sulfolobus solfataricus ferredoxin contains a dicluster, i.e., a [3Fe-4S] cluster and a [4Fe-4S] cluster, and to possibly contain one zinc center
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-
?
2-oxobutyrate + CoA + oxidized ferredoxin
propanoyl-CoA + CO2 + reduced ferredoxin
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Sulfolobus solfataricus ferredoxin contains a dicluster, i.e., a [3Fe-4S] cluster and a [4Fe-4S] cluster, and to possibly contain one zinc center
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-
?
2-oxobutyrate + CoA + oxidized ferredoxin
propanoyl-CoA + CO2 + reduced ferredoxin
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-
-
?
2-oxobutyrate + CoA + oxidized ferredoxin
propanoyl-CoA + CO2 + reduced ferredoxin
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kcat/Km for 2-oxobutyrate is 60% compared to the kcat/Km-value for pyruvate, recombinant wild-type enzyme
-
-
?
2-oxobutyrate + CoA + oxidized ferredoxin
propanoyl-CoA + CO2 + reduced ferredoxin
-
kcat/Km for 2-oxobutyrate is 60% compared to the kcat/Km-value for pyruvate, recombinant wild-type enzyme
-
-
?
2-oxobutyrate + CoA + oxidized ferredoxin
propanoyl-CoA + CO2 + reduced ferredoxin
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-
-
?
succinyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
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specific activity under optimal conditions is 36% of the specific activity with 2-oxobutyrate
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-
?
2-oxoglutarate + CoA + 2 oxidized ferredoxin
succinyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
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relative activity is 20.4% compared to 2-oxoglutarate, kcat/Km for 2-oxoglutarate is 6.5% compared to kcat/Km for 2-oxobutyrate
-
-
?
2-oxoglutarate + CoA + 2 oxidized ferredoxin
succinyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
-
relative activity is 20.4% compared to 2-oxoglutarate, kcat/Km for 2-oxoglutarate is 6.5% compared to kcat/Km for 2-oxobutyrate
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-
?
2-oxoglutarate + CoA + 2 oxidized ferredoxin
succinyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
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relative activity is 20.4% compared to 2-oxoglutarate, kcat/Km for 2-oxoglutarate is 6.5% compared to kcat/Km for 2-oxobutyrate
-
-
?
2-oxoglutarate + CoA + 2 oxidized ferredoxin
succinyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
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-
-
?
2-oxoglutarate + CoA + 2 oxidized ferredoxin
succinyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
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kcat/Km for 2-oxobutyrate is 12% of the kcat/Km-value for pyruvate, a cognate Zn-7Fe-ferredoxin serves as an electron acceptor
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-
?
2-oxoglutarate + CoA + 2 oxidized ferredoxin
succinyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
-
kcat/Km for 2-oxoglutarate is 12% compared to the kcat/Km-value for pyruvate, recombinant wild-type enzyme
-
-
?
2-oxoglutarate + CoA + 2 oxidized ferredoxin
succinyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
-
kcat/Km for 2-oxoglutarate is 12% compared to the kcat/Km-value for pyruvate, recombinant wild-type enzyme
-
-
?
2-oxoglutarate + CoA + 2 oxidized ferredoxin
succinyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
-
kcat/Km for 2-oxobutyrate is 12% of the kcat/Km-value for pyruvate, a cognate Zn-7Fe-ferredoxin serves as an electron acceptor
-
-
?
2-oxoglutarate + CoA + 2 oxidized ferredoxin
succinyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
-
-
-
?
2-oxoglutarate + CoA + 2 oxidized ferredoxin
succinyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
because 2-oxoacid oxidoreductase enzymes from Sulfolobus tokodaii lack the intramolecular Fd-like domain V, there is a large pocket surrounded by domains III and VI in each protomer, which appears to be able to bind an external ferredoxin molecule
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-
?
2-oxoglutarate + CoA + 2 oxidized ferredoxin
succinyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
the recombinant enzyme StOFOR2 exhibits a preference for pyruvate over 2-oxoglutarate. Because 2-oxoacid oxidoreductase enzymes from Sulfolobus tokodaii lack the intramolecular Fd-like domain V, there is a large pocket surrounded by domains III and VI in each protomer, which appears to be able to bind an external ferredoxin molecule
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-
?
2-oxoglutarate + CoA + 2 oxidized ferredoxin
succinyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
the recombinant enzyme StOFOR2 exhibits a preference for pyruvate over 2-oxoglutarate. Because 2-oxoacid oxidoreductase enzymes from Sulfolobus tokodaii lack the intramolecular Fd-like domain V, there is a large pocket surrounded by domains III and VI in each protomer, which appears to be able to bind an external ferredoxin molecule
-
-
?
2-oxoglutarate + CoA + 2 oxidized ferredoxin
succinyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
because 2-oxoacid oxidoreductase enzymes from Sulfolobus tokodaii lack the intramolecular Fd-like domain V, there is a large pocket surrounded by domains III and VI in each protomer, which appears to be able to bind an external ferredoxin molecule
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-
?
succinyl-CoA + CO2 + reduced ferredoxin + H+
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?
2-oxoglutarate + CoA + oxidized ferredoxin
succinyl-CoA + CO2 + reduced ferredoxin + H+
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?
succinoyl-CoA + CO2 + reduced methyl viologen
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r
2-oxoglutarate + CoA + oxidized methyl viologen
succinoyl-CoA + CO2 + reduced methyl viologen
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r
succinyl-CoA + CO2 + reduced methyl viologen + H+
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?
2-oxoglutarate + CoA + oxidized methyl viologen
succinyl-CoA + CO2 + reduced methyl viologen + H+
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?
pyruvate + CoA + 2 oxidized ferredoxin
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r
acetyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
pyruvate + CoA + 2 oxidized ferredoxin
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r
phenylacetyl-CoA + CO2 + 2 reduced methyl viologen + 2 H+
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enzyme Ape1473/1472, 24% of the activity compared to glyoxylate
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-
?
phenylpyruvate + CoA + 2 methyl viologen
phenylacetyl-CoA + CO2 + 2 reduced methyl viologen + 2 H+
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enzyme Ape1473/1472, 36% of the activity compared to glyoxylate
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-
?
acetyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
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specific activity under optimal conditions is 65% of the specific activity with 2-oxobutyrate
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-
?
pyruvate + CoA + 2 oxidized ferredoxin
acetyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
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relative activity is 31.2% compared to 2-oxoglutarate, kcat/Km for pyruvate is 19% compared to kcat/Km for 2-oxobutyrate
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-
?
pyruvate + CoA + 2 oxidized ferredoxin
acetyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
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relative activity is 31.2% compared to 2-oxoglutarate, kcat/Km for pyruvate is 19% compared to kcat/Km for 2-oxobutyrate
-
-
?
pyruvate + CoA + 2 oxidized ferredoxin
acetyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
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relative activity is 31.2% compared to 2-oxoglutarate, kcat/Km for pyruvate is 19% compared to kcat/Km for 2-oxobutyrate
-
-
?
pyruvate + CoA + 2 oxidized ferredoxin
acetyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
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-
-
r
pyruvate + CoA + 2 oxidized ferredoxin
acetyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
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-
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r
pyruvate + CoA + 2 oxidized ferredoxin
acetyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
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-
-
-
?
pyruvate + CoA + 2 oxidized ferredoxin
acetyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
-
-
-
?
pyruvate + CoA + 2 oxidized ferredoxin
acetyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
-
a cognate Zn-7Fe-ferredoxin serves as an electron acceptor
-
-
?
pyruvate + CoA + 2 oxidized ferredoxin
acetyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
Vmax/Km is 1.9fold higher than that for 2-oxoglutarate
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-
?
pyruvate + CoA + 2 oxidized ferredoxin
acetyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
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-
-
-
?
pyruvate + CoA + 2 oxidized ferredoxin
acetyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
-
a cognate Zn-7Fe-ferredoxin serves as an electron acceptor
-
-
?
pyruvate + CoA + 2 oxidized ferredoxin
acetyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
Vmax/Km is 1.9fold higher than that for 2-oxoglutarate
-
-
?
pyruvate + CoA + 2 oxidized ferredoxin
acetyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
-
-
-
?
pyruvate + CoA + 2 oxidized ferredoxin
acetyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
-
-
-
-
?
pyruvate + CoA + 2 oxidized ferredoxin
acetyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
-
Lys125 in subunit b is the critical residue that interacts with CoA
-
-
?
pyruvate + CoA + 2 oxidized ferredoxin
acetyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
because 2-oxoacid oxidoreductase enzymes from Sulfolobus tokodaii lack the intramolecular Fd-like domain V, there is a large pocket surrounded by domains III and VI in each protomer, which appears to be able to bind an external ferredoxin molecule
-
-
?
pyruvate + CoA + 2 oxidized ferredoxin
acetyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
the recombinant enzyme StOFOR2 exhibits a preference for pyruvate over 2-oxoglutarate. The carboxylate group of pyruvate is recognized by Arg344 and Thr257 from the alpha-subunit of
-
-
?
pyruvate + CoA + 2 oxidized ferredoxin
acetyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
the recombinant enzyme StOFOR2 exhibits a preference for pyruvate over 2-oxoglutarate. The carboxylate group of pyruvate is recognized by Arg344 and Thr257 from the alpha-subunit of
-
-
?
pyruvate + CoA + 2 oxidized ferredoxin
acetyl-CoA + CO2 + 2 reduced ferredoxin + 2 H+
because 2-oxoacid oxidoreductase enzymes from Sulfolobus tokodaii lack the intramolecular Fd-like domain V, there is a large pocket surrounded by domains III and VI in each protomer, which appears to be able to bind an external ferredoxin molecule
-
-
?
acetyl-CoA + CO2 + 2 reduced methyl viologen + 2 H+
-
enzyme Ape1473/1472, 95% of the activity compared to glyoxylate
-
-
?
pyruvate + CoA + 2 oxidized methyl viologen
acetyl-CoA + CO2 + 2 reduced methyl viologen + 2 H+
-
-
-
r
pyruvate + CoA + 2 oxidized methyl viologen
acetyl-CoA + CO2 + 2 reduced methyl viologen + 2 H+
-
-
-
r
pyruvate + CoA + 2 oxidized methyl viologen
acetyl-CoA + CO2 + 2 reduced methyl viologen + 2 H+
-
-
-
?
pyruvate + CoA + 2 oxidized methyl viologen
acetyl-CoA + CO2 + 2 reduced methyl viologen + 2 H+
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-
?
?
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?
?
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Ape1473/1472 operates in the TCA cycle of Aeropyrum pernix
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?
additional information
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no activity with 3-methyl-2-oxovalerate, 4-methyl-2-oxovalerate, 2-oxoisocaproic acid or 2-oxooctanoic acid, enzyme Ape1473/1472
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?
additional information
?
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enzyme displays broad substrate specificity toward 2-oxoacids, such as pyruvate, 2-oxobutanoate, and 2-oxoglutarate
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?
additional information
?
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no activity with glyoxylate
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?
additional information
?
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enzyme displays broad substrate specificity toward 2-oxoacids, such as pyruvate, 2-oxobutanoate, and 2-oxoglutarate
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?
additional information
?
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enzyme displays broad substrate specificity toward 2-oxoacids, such as pyruvate, 2-oxobutanoate, and 2-oxoglutarate
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-
?
additional information
?
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enzyme is able to use low-potential ferredoxins of the green sulfur bacterium Chlorobium tepidum and of Sulfolobus acidocaldarius whereas CO2 fixation is not supported by the native ferredoxin of Desulfocurvibacter africanus. Methyl viologen as an artificial electron carrier also allows CO2 fixation
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additional information
?
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enzyme is able to use low-potential ferredoxins of the green sulfur bacterium Chlorobium tepidum and of Sulfolobus acidocaldarius whereas CO2 fixation is not supported by the native ferredoxin of Desulfocurvibacter africanus. Methyl viologen as an artificial electron carrier also allows CO2 fixation
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additional information
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the YPITP-motif is essential for the turnover of the reaction rather than the affinity toward 2-oxoacid
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?
additional information
?
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the YPITP-motif is essential for the turnover of the reaction rather than the affinity toward 2-oxoacid
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?