|
phosphoribosyl 1,2-cyclic phosphate phosphodiesterase activity
|
GO_0103043 |
[Catalysis of the reaction: alpha-D-ribose 1,2-cyclic phosphate 5-phosphate + H2O = alpha-D-ribose 1,5-bisphosphate + H+.] |
|
L-citrulline catabolic process
|
GO_0019241 |
[The chemical reactions and pathways resulting in the breakdown of L-citrulline, N5-carbamoyl-L-ornithine, an alpha amino acid not found in proteins.] |
|
obsolete ribosomal protein S6 glutamate-glutamate ligase activity
|
GO_0103044 |
[OBSOLETE. Catalysis of the reaction: L-glutamate + ATP + a [protein] C-terminal L-glutamate = ADP + hydrogenphosphate + H+ + a [protein] with C-terminal alpha-L-glutamate-alpha-L-glutamate.] |
|
methylglyoxal biosynthetic process
|
GO_0019242 |
[The chemical reactions and pathways resulting in the formation of methylglyoxal, CH3-CO-CHO, the aldehyde of pyruvic acid.] |
|
ketone biosynthetic process
|
GO_0042181 |
[The chemical reactions and pathways resulting in the formation of ketones, a class of organic compounds that contain the carbonyl group, CO, and in which the carbonyl group is bonded only to carbon atoms. The general formula for a ketone is RCOR, where R and R are alkyl or aryl groups.] |
|
methylglyoxal metabolic process
|
GO_0009438 |
[The chemical reactions and pathways involving methylglyoxal, CH3-CO-CHO, the aldehyde of pyruvic acid.] |
|
aldehyde biosynthetic process
|
GO_0046184 |
[The chemical reactions and pathways resulting in the formation of aldehydes, any organic compound with the formula R-CH=O.] |
|
L-methionine N-acyltransferase activity
|
GO_0103045 |
[Catalysis of the reaction: L-methionine + acetyl-CoA = N-acetyl-L-methionine + coenzyme A + H+.] |
|
L-amino-acid N-acetyltransferase activity
|
GO_0140085 |
[Catalysis of the reaction: acetyl-CoA + a L-amino acid = CoA + an N-acetyl-L-amino-acid. In some cases acetyl phosphate can be used as a donor.] |
|
methylglyoxal catabolic process to D-lactate via S-lactoyl-glutathione
|
GO_0019243 |
[The chemical reactions and pathways resulting in the breakdown of methylglyoxal, CH3-CO-CHO, into D-lactate via the intermediate S-lactoyl-glutathione. Glutathione is used in the first step of the pathway and then regenerated in the second step.] |
|
methylglyoxal catabolic process to lactate
|
GO_0061727 |
[The chemical reactions and pathways resulting in the breakdown of methylglyoxal, CH3-CO-CHO, into lactate.] |
|
obsolete alanylglutamate dipeptidase activity
|
GO_0103046 |
[OBSOLETE. Catalysis of the reaction: L-alanyl-L-glutamate + H2O = L-alanine + L-glutamate.] |
|
lactate biosynthetic process from pyruvate
|
GO_0019244 |
[The chemical reactions and pathways resulting in the formation of lactate from other compounds, including pyruvate.] |
|
lactate biosynthetic process
|
GO_0019249 |
[The chemical reactions and pathways resulting in the formation of lactate, the anion of lactic acid.] |
|
D(-)-lactate biosynthetic process from pyruvate
|
GO_0019245 |
[The chemical reactions and pathways resulting in the formation of D(-)-lactate from other compounds, including pyruvate.] |
|
aldose sugar dehydrogenase activity
|
GO_0103040 |
[Catalysis of the reaction: H2O + an aldose + an oxidized electron acceptor = H+ + an aldonate + a reduced electron acceptor.] |
|
oxidoreductase activity, acting on the CH-OH group of donors, quinone or similar compound as acceptor
|
GO_0016901 |
[Catalysis of an oxidation-reduction (redox) reaction in which a CH-OH group acts as a hydrogen or electron donor and reduces a quinone or a similar acceptor molecule.] |
|
L(+)-lactate biosynthetic process from pyruvate
|
GO_0019246 |
[The chemical reactions and pathways resulting in the formation of L(+)-lactate from other compounds, including pyruvate.] |
|
thiosulfate-thioredoxin sulfurtransferase activity
|
GO_0103041 |
[Catalysis of the reaction: thiosulfate + [thioredoxin]-dithiol = sulfite + 2 H+ + [thioredoxin]-disulfide + hydrogen sulfide.] |
|
sulfurtransferase activity
|
GO_0016783 |
[Catalysis of the transfer of sulfur atoms from one compound (donor) to another (acceptor).] |
