US EPA

4274316 

Journal Article 

Degradation of o-xylene by a novel strain, Zoogloearesiniphila HJ1: Identification, kinetics and metabolic pathway 

Yu, J; Liu, Q; Hu, Jun; Feng, Z 

2017 

1 

Global NEST Journal
ISSN: 1790-7632
EISSN: 1108-4006 

19 

2 

241-250 

WOS:000412801100003 

Biodegradation has become a popular alternative remediation technology due to its economical and ecological advantages. A strain able to degrade o-xylene effectively was selected and identified as Zoogloearesiniphila HJ1. The organism, strain HJ1, could degrade o-xylene with concentration as high as 256 mg L-1 at pH 6.8 and 26.3 degrees C. The Haldane model adequately described the relationship between specific growth rate and substrate concentration. The maximum specific growth rate and yield coefficient were 0.118 h(-1) and 0.2572, respectively. A high mineralization rate of 67.9% was observed. Theenzyme activity and metabolic intermediates analysis showed that the ring cleavage of oxylene was catalyzed by catechol 1,2-dioxygenase, and 3,4-dimethylcatechol was the main metabolic product. The present study demonstrated that the isolated strain, Zoogloearesiniphila HJ1, had a great application prospect for remediation of o-xylene-contaminated environment. 

O-xylene; Zoogloearesiniphila; Biodegradation; Kinetics; Metabolic pathway