2.3.1.54: formate C-acetyltransferase
This is an abbreviated version!
For detailed information about formate C-acetyltransferase, go to the full flat file.
Word Map on EC 2.3.1.54
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2.3.1.54
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glycyl
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anaerobiosis
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phosphotransacetylase
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chemostats
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homolactic
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glucose-limited
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microaerobic
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pyruvate:ferredoxin
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mixed-acid
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acetoin
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flavodoxins
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activase
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5\'-deoxyadenosyl
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dual-phase
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hypophosphite
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knappe
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benzylsuccinate
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embden-meyerhof-parnas
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biotechnology
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nutrition
- 2.3.1.54
-
glycyl
- anaerobiosis
- phosphotransacetylase
-
chemostats
-
homolactic
-
glucose-limited
-
microaerobic
-
pyruvate:ferredoxin
-
mixed-acid
- acetoin
- flavodoxins
- activase
-
5\'-deoxyadenosyl
-
dual-phase
- hypophosphite
-
knappe
- benzylsuccinate
-
embden-meyerhof-parnas
- biotechnology
- nutrition
Reaction
Synonyms
AF_1449, formate acetyltransferase, PFL, PFL I, Pfl1, PflB, phosphotransferase system enzyme I, pyruvate formate lyase, pyruvate formate-lyase, pyruvate-formate lyase, pyruvate:formate lyase, pyruvic formate-lyase
ECTree
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Reaction
Reaction on EC 2.3.1.54 - formate C-acetyltransferase
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acetyl-CoA + formate = CoA + pyruvate
modelling study proposes a four-step mechanism. The reaction is initiated by H transfer from C418 via C410 to the glycyl radical G734. H transfer from C419 to G734 is the rate-limiting process
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acetyl-CoA + formate = CoA + pyruvate
part of a bacterial-type mixed-acid fermentation in combination with alcohol dehydrogenase E
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acetyl-CoA + formate = CoA + pyruvate
active site structure includes an active site tunnel, substrate binding at Asp447 at the protein surface
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acetyl-CoA + formate = CoA + pyruvate
catalytic mechanism involving residues Gly734, Cys418 and Cys419, transition state, modeling, overview
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acetyl-CoA + formate = CoA + pyruvate
the reaction mechanism proceeds via generation of a catalytically essential glycyl radical at Gly734
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