1.3.3.6	acyl-CoA + O2	-	
1.3.3.6	acyl-CoA + O2	involved in beta-oxidation of fatty acids in peroxisomes and glyoxysomes, respectively	
1.3.3.6	acyl-CoA + O2	CoA derivatives of fatty acids with chain length from 8 to 18, first reaction of peroxisomal beta-oxidation, rate limiting for this process	
1.3.3.6	acyl-CoA + O2	involved in lignin degradative system	
1.3.3.6	acyl-CoA + O2	beta-oxidation of dicarboxylic acid-CoAs in rat liver is carried out exclusively in peroxisomes	
1.3.3.6	acyl-CoA + O2	significance in metabolism of alkanes of Candida tropicalis	
1.3.3.6	acyl-CoA + O2	key enzyme of beta-oxidation. A basal level of long chain ACX is always present along the barley life cycle, while a higher level of expression is typical of actively growing tissues such as germinating embryos, ovary before anthesis, developing embryos, shoots and root apexes. The enzyme plays a role not only during oil reserve mobilization, but also in plant growth and metabolism	
1.3.3.6	acyl-CoA + O2	ACOX-2 serves as specialized acyl-CoA oxidase that promotes the biosynthesis of short-chain omega-ascarosides	
1.3.3.6	acyl-CoA + O2	ACOX-3 serves as specialized acyl-CoA oxidase that promotes the biosynthesis of (omega-1)-ascarosides	
1.3.3.6	additional information	Aox2p expression regulates the size of cellular triacylglycerol pools and the size and number of intracellular lipid bodies in which these gatty acids accumulate	
1.3.3.6	additional information	Eucalyptus terpenes elevate hepatic AOX expression in possum	
1.3.3.6	additional information	key enzyme for the beta-oxidation of fatty acids	
1.3.3.6	additional information	rate-limiting enzyme of the peroxisomal beta-oxidation spiral	
1.3.3.6	additional information	each ACX enzyme acts on specific chain-length targets, but in a partially overlapping manner, indicating a degree of functional redundancy	
1.3.3.6	palmitoyl-CoA + O2	-