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BKMS-react is an integrated and non-redundant biochemical reaction database containing known enzyme-catalyzed and spontaneous reactions. Biochemical reactions collected from BRENDA, KEGG, MetaCyc and SABIO-RK were matched and integrated by aligning substrates and products.
 

:= BRENDA, := KEGG, := MetaCyc, := SABIO-RK
:= amino acid sequences := show the reaction diagram
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  • EC Number
  • Reaction
  • Pathways
  • Reaction IDs
  • Stoichiometry Check
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  • Commentary
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EC Number
Reaction
Pathways
Reaction IDs
Stoichiometry Check  
Commentary
L-aspartate oxidase
L-aspartate + fumarate = iminosuccinate + succinate
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: A flavoprotein (FAD). L-Aspartate oxidase catalyses the first step in the de novo biosynthesis of NAD+ in some bacteria. Oxygen can be replaced by FUM as electron acceptor, yielding SUC [11863440]. The ability of the enzyme to use both OXYGEN-MOLECULE and fumarate in cofactor reoxidation enables it to function under both aerobic and anaerobic conditions |CITS:[ 11863440]|. IMINOASPARTATE can either be hydrolysed to form OXALACETIC_ACID and AMMONIA or can be used by EC 2.5.1.72, quinolinate synthase, in the production of QUINOLINATE. The enzyme is a member of the succinate dehydrogenase/fumarate reductase family of enzymes |CITS:[11863440]|.
L-aspartate + fumarate = iminosuccinate + succinate
-
: A flavoprotein (FAD). L-Aspartate oxidase catalyses the first step in the de novo biosynthesis of NAD+ in some bacteria. Oxygen can be replaced by FUM as electron acceptor, yielding SUC [11863440]. The ability of the enzyme to use both OXYGEN-MOLECULE and fumarate in cofactor reoxidation enables it to function under both aerobic and anaerobic conditions |CITS:[ 11863440]|. IMINOASPARTATE can either be hydrolysed to form OXALACETIC_ACID and AMMONIA or can be used by EC 2.5.1.72, quinolinate synthase, in the production of QUINOLINATE. The enzyme is a member of the succinate dehydrogenase/fumarate reductase family of enzymes |CITS:[11863440]|.