Ma_2022_J.Hazard.Mater_443_130197

Reference

Title : Characterization of a new chlorimuron-ethyl-degrading strain Cedecea sp. LAM2020 and biodegradation pathway revealed by multiomics analysis - Ma_2022_J.Hazard.Mater_443_130197
Author(s) : Ma Q , Han X , Song J , Wang J , Li Q , Parales RE , Li L , Ruan Z
Ref : J Hazard Mater , 443 :130197 , 2022
Abstract : The widespread use of the herbicide chlorimuron-methyl is hazard to rotational crops and causes soil degradation problems. Biodegradation is considered a promising way for removing herbicide residues from the environment. Here, a new isolated strain, Cedecea sp. LAM2020, enabled complete degradation of 100 mg/L chlorimuron-methyl within five days. Transcriptome analysis revealed that ABC transporters, atrazine degradation and purine metabolism were enriched in the KEGG pathway. Integrating GO and KEGG classification with related reports, we predict that carboxylesterases are involved in the biodegradation of chlorimuron-methyl by LAM2020. Heterologous expression of the carboxylesterase gene carH showed 26.67% degradation of 50 mg/L chlorimuron-methyl within 6 h. The intracellular potential biological response and extracellular degradation process of chlorimuron-ethyl were analyzed by the nontarget metabolomic and mass spectrometry respectively, and the biodegradation characteristics and complete mineralization pathway was revealed. The cleavage of the sulfonylurea bridge and the ester bond achieved the first step in the degradation of chlorimuron-methyl. Together, these results reveal the presence of acidolysis and enzymatic degradation of chlorimuron-methyl by strain LAM2020. Hydroponic corn experiment showed that the addition of strain LAM2020 alleviated the toxic effects of chlorimuron-ethyl on the plants. Collectively, strain LAM2020 may be a promising microbial agent for plants chlorimuron-ethyl detoxification and soil biofertilizer.
ESTHER : Ma_2022_J.Hazard.Mater_443_130197
PubMedSearch : Ma_2022_J.Hazard.Mater_443_130197
PubMedID: 36272371
Gene_locus related to this paper: 9entr-CarHBioH

Related information

Gene_locus related to this paper: 9entr-CarHBioH

Citations formats

Ma Q, Han X, Song J, Wang J, Li Q, Parales RE, Li L, Ruan Z (2022)
Characterization of a new chlorimuron-ethyl-degrading strain Cedecea sp. LAM2020 and biodegradation pathway revealed by multiomics analysis
J Hazard Mater 443 :130197

Ma Q, Han X, Song J, Wang J, Li Q, Parales RE, Li L, Ruan Z (2022)
J Hazard Mater 443 :130197