AI Article Synopsis
- Phenol is a harmful chemical found in wastewater from chemical plants, and aerobic biodegradation offers a way to clean it up effectively.
- The study focused on the strain Cupriavidus nantongensis X1, which can completely degrade 1.5 mM of phenol in 32 hours while using it as its only carbon source, with optimal conditions at 30 °C and pH 7.0.
- Researchers identified that strain X1 utilizes two metabolic pathways for phenol degradation and that the meta-pathway is significantly more efficient, revealing important genetic information that could aid in future bioremediation efforts.
Article Abstract
Phenol, as an important chemical raw material, often exists in wastewater from chemical plants and pollutes soil and groundwater. Aerobic biodegradation is a promising method for remediation of phenolic wastewater. In this study, degradation characteristics and mechanisms of phenol in Cupriavidus nantongensis X1 were explored. Strain X1 could completely degrade 1.5 mM phenol within 32 h and use it as the sole carbon source for growth. The optimal degradation temperature and pH for phenol by strain X1 were 30 °C and 7.0. The detection of 3-oxoadipate and 4-hydroxy-2-oxopentanoate indicated that dual metabolic pathways coexist in strain X1 for phenol degradation, ortho- and meta-pathway. Genome and transcriptome sequencing revealed the whole gene clusters for phenol biomineralization, in which C12O and C23O were key enzymes in two metabolic pathways. The ribosome proteins were also involved in the regulation of phenol degradation. Meanwhile, the degradation activities of enzyme C23O was 188-fold higher than that of C12O in vitro, which indicated that the meta-pathway was more efficient than ortho-pathway for catechol degradation in strain X1. This study provides an efficient strain resource for phenol degradation, and the discovery of dual metabolic pathways provides new insight into the aerobic biological metabolism and bioremediation of phenol.
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| http://dx.doi.org/10.1016/j.jhazmat.2023.132424 | DOI Listing |
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