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Literature summary for 2.3.1.37 extracted from

  • Fanica-Gaignier, M.; Clement-Metral, J.
    5-Aminolevulinic-acid synthetase of Rhodopseudomonas spheroides Y. Kinetic mechanism and inhibition by ATP (1973), Eur. J. Biochem., 40, 19-24.
    View publication on PubMed

Inhibitors

Inhibitors Comment Organism Structure
ATP
-
Cereibacter sphaeroides
CoA noncompetitive Cereibacter sphaeroides
delta-aminolevuinate competitive against glycine, noncompetitive against succinyl-CoA Cereibacter sphaeroides
GTP
-
Cereibacter sphaeroides

KM Value [mM]

KM Value [mM] KM Value Maximum [mM] Substrate Comment Organism Structure
additional information
-
additional information
-
Cereibacter sphaeroides

Organism

Organism UniProt Comment Textmining
Cereibacter sphaeroides
-
Y
-
Cereibacter sphaeroides Y
-
Y
-

Reaction

Reaction Comment Organism Reaction ID
succinyl-CoA + glycine = 5-aminolevulinate + CoA + CO2 mechanism Cereibacter sphaeroides
succinyl-CoA + glycine = 5-aminolevulinate + CoA + CO2 ordered bi-bi mechanism in which glycine binds first and 5-aminolevulinic acid dissociates last Cereibacter sphaeroides

Substrates and Products (Substrate)

Substrates Comment Substrates Organism Products Comment (Products) Rev. Reac.
succinyl-CoA + glycine
-
Cereibacter sphaeroides 5-aminolevulinate + CoA + CO2
-
?
succinyl-CoA + glycine
-
Cereibacter sphaeroides Y 5-aminolevulinate + CoA + CO2
-
?

Cofactor

Cofactor Comment Organism Structure
pyridoxal 5'-phosphate
-
Cereibacter sphaeroides

Ki Value [mM]

Ki Value [mM] Ki Value maximum [mM] Inhibitor Comment Organism Structure
additional information
-
additional information
-
Cereibacter sphaeroides
0.12
-
CoA versus glycine Cereibacter sphaeroides
0.23
-
5-aminolevulinate versus glycine Cereibacter sphaeroides