Selected compound(s)
Each orphan metabolite is emphasized in bold.
Click [Fig] on the left hand, and the image of the reaction is shown.
[Suggested reactions |
Reported reactions]
Suggested reactions
- [Fig] 1.1.1.- : Glyoxalate + NADPH + H+ = Glycolate + NADP+
- [Fig] 1.1.1.- : Glycolate + NAD+ = Glyoxalate + NADH + H+
- [Fig] 1.1.3.- : Glycolate + O2 = Glyoxalate + H2O2
- [Fig] 1.1.4.- : Glyoxalate + 1,4-Dithiothreitol = Glycolate + Oxidized dithiothreitol
- [Fig] 1.1.5.- : Glyoxalate + CoQH2 = Glycolate + CoQ
- [Fig] 1.1.99.- : Glycolate + FAD = Glyoxalate + FADH2
- [Fig] 1.1.99.- : Glycolate + Coenzyme F420 = Glyoxalate + Reduced coenzyme F420
- [Fig] 1.2.1.- : Glyoxalate + H2O + NAD+ = Ethanedioic acid + NADH + H+
- [Fig] 1.2.1.- : Glyoxalate + H2O + NADP+ = Ethanedioic acid + NADPH + H+
- [Fig] 1.2.1.- : Glyoxalate + NADPH + CO2 = Hydroxymalonate + NADP+
- [Fig] 1.2.1.- : Glyoxalate + NADPH + CO2 = 2-Hydroxymalonate + NADP+
- [Fig] 1.2.1.- : Hydroxymalonate + NAD+ = Glyoxalate + NADH + CO2
- [Fig] 1.2.1.- : 2-Hydroxymalonate + NAD+ = Glyoxalate + NADH + CO2
- [Fig] 1.2.3.- : Glyoxalate + H2O + O2 = Ethanedioic acid + H2O2
- [Fig] 1.7.1.- : Glyoxalate + L-2,3-Diaminopropanoate + NAD+ = L-alpha-Amino-beta-oxalylaminopropionic acid + NADH + H+
- [Fig] 1.7.1.- : L-alpha-Amino-beta-oxalylaminopropionic acid + NADPH + H+ = Glyoxalate + L-2,3-Diaminopropanoate + NADP+
- [Fig] 1.7.3.- : Glyoxalate + L-2,3-Diaminopropanoate + O2 = L-alpha-Amino-beta-oxalylaminopropionic acid + H2O2
- [Fig] 1.7.4.- : L-alpha-Amino-beta-oxalylaminopropionic acid + Reduced thioredoxin = Glyoxalate + L-2,3-Diaminopropanoate + Oxidized thioredoxin
- [Fig] 1.7.99.- : Glyoxalate + L-2,3-Diaminopropanoate + FAD = L-alpha-Amino-beta-oxalylaminopropionic acid + FADH2
- [Fig] 1.13.11.- : 4-Hydroxybenzaldehyde + Glyoxalate = 4-Coumarate + O2
- [Fig] 1.14.11.- : Rifamycin B + O2 + 2-Ketoglutaric acid = Rifamycin + Glyoxalate + CO2 + Butanedionic acid
- [Fig] 1.14.11.- : 2,4-D + O2 + 2-Ketoglutaric acid = 2,4-Dichlorophenol + Glyoxalate + CO2 + Butanedionic acid
- [Fig] 1.14.11.- : 4-CPA + O2 + 2-Ketoglutaric acid = Glyoxalate + 4-Chlorophenol + CO2 + Butanedionic acid
- [Fig] 1.14.11.- : 2,4,5-Trichlorophenoxyacetic acid + O2 + 2-Ketoglutaric acid = 2,4,5-Trichlorophenol + Glyoxalate + CO2 + Butanedionic acid
- [Fig] 2.1.1.- : Glyoxalate + S-Adenosyl-L-methionine = 2-Oxopropanoate + S-Adenosyl-L-homocysteine
- [Fig] 2.1.1.- : Glyoxalate + S-Adenosyl-L-methionine = 2-Oxopropanoate + S-Adenosyl-L-homocysteine
- [Fig] 2.1.1.- : Glyoxalate + S-Adenosyl-L-methionine = 2-Oxopropanoate + S-Adenosyl-L-homocysteine + H+
- [Fig] 2.1.1.- : Glyoxalate + S-Adenosyl-L-methionine = 2-Oxopropanoate + S-Adenosyl-L-homocysteine + H+
- [Fig] 2.1.2.- : Ketomalonic acid + THF = Glyoxalate + 10-Formyl-THF
- [Fig] 2.3.3.- : Thiamine diphosphate + 2-Hydroxy-3-oxoadipate = Succinate semialdehyde-thiamin diphosphate anion + Glyoxalate
- [Fig] 3.3.2.- : 2-Oxopropanoate + H2O = Glyoxalate + Methanol
- [Fig] 3.3.2.- : 2-Oxopropanoate + H2O = Glyoxalate + Methanol
- [Fig] 3.7.1.- : Ketomalonic acid + H2O = Glyoxalate + Formate
- [Fig] 4.1.1.- : Glyoxalate + CO2 = Ketomalonic acid
- [Fig] 4.1.2.- : Glyoxalate + Formaldehyde = Hydroxypyruvate
- [Fig] 4.1.2.- : Glyoxalate + Formaldehyde = 2-Hydroxy-3-oxopropanoate
- [Fig] 4.1.2.- : L-erythro-3-Methylmalyl-CoA = Propanoyl-CoA + Glyoxalate
- [Fig] 4.1.2.- : L-erythro-3-Methylmalyl-CoA = Long-chain acyl-CoA + Glyoxalate
- [Fig] 4.1.3.- : Glyoxalate + Acetate = L-Malate
- [Fig] 4.1.3.- : Glyoxalate + Acetate = (R)-Malate
- [Fig] 4.1.3.- : Glyoxalate + Acetate = 2-Hydroxybutanedioic acid
- [Fig] 6.4.1.- : Glyoxalate + ATP + Acid carbonate = Ketomalonic acid + ADP + Orthophosphate
- [Fig] 6.4.1.- : Ketomalonic acid + ADP + Orthophosphate = Glyoxalate + Formate + ATP
Reported reactions
GREP v1.0.2 http://bisscat.org/GREP/
Developed by Masaaki Kotera (2008), Department of Biochemistry, Trinity College Dublin.
Science Foundation of Ireland is gratefully acknowledged.