2.1.3.1: methylmalonyl-CoA carboxytransferase
This is an abbreviated version!
For detailed information about methylmalonyl-CoA carboxytransferase, go to the full flat file.
Word Map on EC 2.1.3.1
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2.1.3.1
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biotin
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propionibacterium
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shermanii
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propionyl-coa
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biotin-containing
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biotin-dependent
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carboxylases
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freudenreichii
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propionyl
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carboxybiotin
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transcarboxylation
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biotin-binding
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medicine
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analysis
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diagnostics
- 2.1.3.1
- biotin
- propionibacterium
- shermanii
- propionyl-coa
-
biotin-containing
-
biotin-dependent
- carboxylases
- freudenreichii
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propionyl
- carboxybiotin
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transcarboxylation
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biotin-binding
- medicine
- analysis
- diagnostics
Reaction
Synonyms
5S subunit of transcarboxylase, carboxyltransferase subunit of acetyl-CoA carboxylase, carboxyltransferase, methylmalonyl coenzyme A, DtsR1, MCT, methyl malonyl CoA carboxyl transferase, methylmalonyl CoA carboxyltransferase, methylmalonyl CoA-oxalacetate transcarboxylase, methylmalonyl coenzyme A carboxyltransferase, methylmalonyl-CoA carboxyltransferase, methylmalonyl-CoA transcarboxylase, MMC, oxalacetic transcarboxylase, transcarboxylase
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General Information
General Information on EC 2.1.3.1 - methylmalonyl-CoA carboxytransferase
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metabolism
physiological function
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the enzyme is one of three biotin-dependent carboxylases in the dicarboxylic acid pathway controlling the carbon fluxin the Wood-Werkman cycle, metabolic flux analysis
metabolism
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the enzyme provides an alternative pathway for malonyl-CoA synthesis and increases fatty acid production. The enzyme efficiently directs tricarboxylic acid cycle intermediates towards fatty acid synthesis during the acetyl-CoA carboxylation bypass
metabolism
Propionibacterium freudenreichii DSM 4902
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the enzyme is one of three biotin-dependent carboxylases in the dicarboxylic acid pathway controlling the carbon fluxin the Wood-Werkman cycle, metabolic flux analysis
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metabolism
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the enzyme provides an alternative pathway for malonyl-CoA synthesis and increases fatty acid production. The enzyme efficiently directs tricarboxylic acid cycle intermediates towards fatty acid synthesis during the acetyl-CoA carboxylation bypass
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the enzyme is involved in production of anticancer ansamitocin P-3, AP-3 by submerged cultures of Actinosynnema pretiosum in medium containing agro-industrial residues. The production is increased by addition of metal ions, especially Mg2+
physiological function
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the enzyme is involved in production of anticancer ansamitocin P-3, AP-3 by submerged cultures of Actinosynnema pretiosum in medium containing agro-industrial residues. The production is increased by addition of metal ions, especially Mg2+
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