Characteristics and functional bacteria of an efficient benzocaine-mineralizing bacterial consortium.

ABSTRACT

The extensive use of pharmaceutical and personal care products (PPCPs) has led to widespread residual pollution, which increases the risk of the development of drug resistance in pathogenic microorganisms. Benzocaine is a PPCP that is widely used medical anesthesia and in sunscreen. Microorganisms are essential for the degradation of residual PPCPs. However, no studies have reported the microbial degradation of benzocaine. In this study, through continuous enrichment of the initial consortium HJ1, the highly efficient benzocaine-degrading consortium HJ7 was obtained, HJ7 exhibited a degradation rate that was 1.92 times greater than that of HJ1. Methyl 4-aminobenzoate and 4-aminobenzoic acid were identified as major intermediate products during benzocaine biodegradation by consortium HJ1 or HJ7. Methylobacillus (57.8 % ± 0.9 %) and Pseudomonas (22.1 % ± 0.7 %), which are thought to harbor essential species for benzocaine degradation, were significantly enriched in consortium HJ7. Two benzocaine-degrading strains, Pseudomonas sp. A8 and Microbacterium sp. A741, and one methyl 4-aminobenzoate-degrading strain, Achromobacter sp. A5, were isolated from consortium HJ7, and they synergistically mineralized benzocaine. These findings not only provide new insights into the biotransformation of benzocaine but also provide strain resources for the bioremediation of residual benzocaine in the environment.