EC Number   |
Application |
Reference |
|---|
    1.3.3.6 | analysis |
amperometric propionate sensor |
694994 |
| 1.3.3.6 | analysis |
useful for the determination of free fatty acids |
-, 672429 |
| 1.3.3.6 | biotechnology |
potential depolluting agent by degradation of oils |
391066 |
| 1.3.3.6 | biotechnology |
several biotechnological applications: production of metabolites, such as citrate, secretion of proteins, degradation of fatty acids |
391066 |
| 1.3.3.6 | degradation |
ACO activity in Beauveria bassiana depends on the carbon source used for growth and the chain length of the substrate utilized for the oxidation reaction |
-, 674349 |
| 1.3.3.6 | medicine |
ACOX1 is a rate-limiting enzyme in peroxisomal fatty acids beta-oxidation and its deficiency is associated with a lethal, autosomal recessive disease, called pseudoneonatal-adrenoleukodystrophy |
684861 |
| 1.3.3.6 | medicine |
AOX activity is negatively correlated with postprandial triacylglycerol levels |
675738 |
| 1.3.3.6 | medicine |
inhibition of ACOX1 is an effective approach for the treatment of high fat diet or obesity-induced metabolic diseases by improving mitochondrial lipid and reactive oxygen species metabolism |
745377 |
| 1.3.3.6 | more |
ACOX1 alternative splicing isoforms play a key conserved role in the vertebrate fatty acid metabolism, tissue-specific modulation of ACOX1 activity by exchanging exon 3 duplicated isoforms containing amino acid sequences that are potentially implicated in fatty acyl chain specificity |
676339 |
| 1.3.3.6 | more |
inability of ACX1, ACX3, and ACX4 to fully compensate for one another in indole-3-butyric acid-mediated root elongation inhibition and ability of ACX2 and ACX5 to contribute to indole-3-butyric acid response suggests that indole-3-butyric acid-response defects in acx mutants may reflect indirect blocks in peroxisomal metabolism and indole-3-butyric acid beta-oxidation, rather than direct enzymatic activity of ACX isozymes on indole-3-butyric acid-CoA |
676493 |
