EC Number |
Natural Substrates |
---|
4.1.1.9 | Malonyl-CoA |
- |
4.1.1.9 | Malonyl-CoA |
control of malonyl-CoA concentration |
4.1.1.9 | Malonyl-CoA |
degradation of malonyl-CoA, MCD is regulated both transcriptionally and posttranscriptionally, fatty acids induce MCD gene expression |
4.1.1.9 | Malonyl-CoA |
fatty-acid metabolism |
4.1.1.9 | Malonyl-CoA |
important role in regulating fatty acid metabolism, involved in the control of cellular malonyl-CoA levels, may play an essential role in regulating energy utilization in the liver by regulating malonyl-CoA levels in response to various nutritional or pathological states, MCD regulation from liver |
4.1.1.9 | Malonyl-CoA |
important role in the regulation of malonyl-CoA concentration, role in the regulation of fatty-acid oxidation, may play a role in lipid catabolism by peroxisomal-proliferator-activated receptor alpha, which transcriptionally regulates the MCD gene |
4.1.1.9 | Malonyl-CoA |
involved in the control of fatty acid oxidation, contributes to the high fatty acid oxidation rates in the diabetic heart |
4.1.1.9 | Malonyl-CoA |
main route for the disposal of malonyl-CoA, the key metabolite in the regulation of mitochondrial fatty acid oxidation |
4.1.1.9 | Malonyl-CoA |
malonate metabolism |
4.1.1.9 | Malonyl-CoA |
malonyl-CoA degradation, transcriptional control of MCD by peroxisome proliferator-activated receptor alpha, involved in the regulation of fatty acid oxidation |