화학공학소재연구정보센터
Biotechnology and Bioengineering, Vol.117, No.12, 3712-3726, 2020
Combined genomic and transcriptomic analysis of the dibutyl phthalate metabolic pathway inArthrobactersp. ZJUTW
Dibutyl phthalate (DBP) is an environmental pollutant thaf can threaten human health. The strainArthrobactersp. ZJUTW, isolated from the sludge of a river of Hangzhou, can efficiently degrade DBP. Its genomic and transcriptomic differences when cultivated with DBP compared with glucose revealed specific DBP metabolic pathways in the ZJUTW strain. The degrading gene clusters localize separately on a circular chromosome and a plasmid pQL1. Genes related to the initial steps of DBP degradation from DBP to phthalic acid (PA), thepehAgene, andphtgene cluster, are located on the plasmid pQL1. However, the pcagene cluster related to the transforming of intermediate protocatechuic acid (PCA) to acetyl-CoA, is located on the chromosome. After comparative analysis with the reported gene clusters, we found that there were a series of homologous genes inphtandpcagene clusters that contribute to the efficient degradation of DBP by ZJUTW. In addition, transcriptomic analysis suggested a synergistic effect betweenphtandpcaclusters, which also favor ZJUTW allowing it to efficiently degrade DBP. Combined genomic and transcriptomic analyses revealed a complete DBP metabolic pathway inArthrobactersp. ZJUTW that is different from that of other reportedArthrobacterstrains. After necessary modification based on its metabolic characteristics,Arthrobactersp. ZJUTW or its derivatives might represent promising candidates for the bioremediation of DBP pollution.