1.13.11.2	2,4-dichlorophenol + O2	-	
1.13.11.2	2-chlorophenol + O2	-	
1.13.11.2	2-methylphenol + O2	-	
1.13.11.2	3-methylphenol + O2	-	
1.13.11.2	4-alkylcatechol + O2	initial step of long-chain alkylphenol cleavage pathway	
1.13.11.2	4-Methylphenol + O2	-	
1.13.11.2	alkylcatechol + O2	degradation of aromatic compounds	
1.13.11.2	catechol + O2	-	
1.13.11.2	catechol + O2	metacleavage enzyme of catechol metabolism	
1.13.11.2	catechol + O2	enzyme is a important component in the degradation pathways of toluene and xylene and catalyses the dioxygenolytic cleavage of the aromatic ring	
1.13.11.2	catechol + O2	key role in the degradation of aromatic molecules	
1.13.11.2	catechol + O2	catechol 2,3-dioxygenase is a key enzyme in the catabolism of monocyclic aromatic compounds including aniline and catalyzes the extradiol cleavage of catechol	
1.13.11.2	catechol + O2	metapyrocatechase 1 takes part in oxidation of aromatic compounds, producing catechol as an intermediate, metapyrocatechase 2 is involved in oxidation of methyl-substituted aromatic substrates	
1.13.11.2	catechol + O2	cleavage of aromatic compounds, involved in alpha-ketoadiapate pathway	
1.13.11.2	catechol + O2	degradation of aromatic compounds	
1.13.11.2	catechol + O2	degradation of aromatic compounds, involved in toluene and ortho-xylene metabolism	
1.13.11.2	catechol + O2	involved in biodegradation of benzothiazoles	
1.13.11.2	catechol + O2	involved in metabolism of aromatic compounds	
1.13.11.2	catechol + O2	key enzyme for the degradation of aromatic compounds	
1.13.11.2	catechol + O2	enzyme is induced by benzenesulfonate, catechol or toluene p-sulfonate	
1.13.11.2	catechol + O2	catechol 2,3-dioxygenase is involved in the meta phenol degradation pathway	
1.13.11.2	catechol + O2	catechol 2,3-dioxygenase is a critical enzyme in the multistep biodegradation of 3,4-dichloroaniline by Pseudomonas sp. KB35B	
1.13.11.2	catechol + O2	benzoate degadation pathway	
1.13.11.2	catechol + O2	both the ortho- and the meta-degradation pathways are functional in presence of phenol. However, the activation of the catechol 2,3-dioxygenase, only when phenol is present, and the accumulation of only intermediary compounds related to this pathway lead us to the conclusion that the aromatic ring is preferentially opened through the meta-pathway	
1.13.11.2	catechol + O2	100% activity	
1.13.11.2	catechol + O2	the enzyme is constitutively transcribed	
1.13.11.2	phenol + O2	activity in cadmium-induced cells