EC Number |
Natural Substrates |
---|
1.3.1.8 | (2E)-hexadec-2-enoyl-CoA + NADPH |
- |
1.3.1.8 | 5-hydroxyundec-cis-2-enoyl-CoA + NADPH |
- |
1.3.1.8 | crotonyl-CoA + reduced acceptor |
enzyme is involved in synthesizing methylmalonyl-CoA precursors for monensin biosynthesis, pathway flux, overview |
1.3.1.8 | more |
- |
1.3.1.8 | more |
role in beta-oxidation of fatty acids |
1.3.1.8 | more |
active as part of fatty acid synthetase by incorporation of acetyl-CoA in mitochondria and of malonyl-CoA in cytosol |
1.3.1.8 | more |
specific for alpha/beta-unsaturated CoA derivatives with chain lengths of 4-16 C atoms, neither involved in beta-oxidation of fatty acids nor de novo-synthesis of fatty acids via malonyl-CoA |
1.3.1.8 | more |
involvement in malonyl-CoA fatty acid elongation system II |
1.3.1.8 | more |
the enzyme catalyzes the last step in synthesis of very long fatty acid. NbECR activity is essential for membrane biogenesis. Loss of NbECR function affects biogenesis of cellular membranes including the plasma membrane and the thylakoid membrane |
1.3.1.8 | primary fluorescent chlorophyll catabolite + NADP+ |
stereospecific reaction. RCCR catalyzes the ferredoxin-dependent and site-specific reduction of the C20/C1 double bond of red chlorophyll catabolite, RCC, the catabolic intermediate produced in chlorophyll degradation |