Darya O Egorova, Tatyana I Gorbunova, Marina G Pervova, Tatyana D Kir'yanova, Vitalyi A Demakov, Viсtor I Saloutin, Oleg N Chupakhin
Journal of hazardous materials 2020 Dec 05For the first time, investigations are is carried out for the interactions of hydroxylated polychlorobiphenyls (HO-PCBs) mixtures, which were obtained from PCBs commercially available under the trade name Sovol, with the Rhodococcus (R.) strains. It is established that the HO-PCBs mixtures containing basic products within the range of 83.2-95.8% cause a toxic effect on the growth of R. wratislaviensis KT112-7, R. wratislaviensis CH628, R. ruber P25 strains. The inhibitory concentration (IC50) was varied within the range of 30-490 mg/l. For the first time, it is found that the bacterial strains can use HO-PCBs as a source of carbon with no co-substrate added. The strains are shown to degrade 95.5-100% of the HO-PCBs mixtures at a concentration of 0.1 g/l during 14 days. It is demonstrated that HO-PCBs degrading occurs following the classical bacterial pathway of transforming biphenyl/PCB. However, the HO-PCBs metabolites, which are substituted benzoic acids, are not the final products of the transformation and are subjected to further degrading by the strains. Therefore, the R. wratislaviensis KT112-7, R. wratislaviensis CH628, and R. ruber P25 strains are shown to degrade the HO-PCBs mixtures efficiently and are found to be stable to their toxic action. Copyright © 2020 Elsevier B.V. All rights reserved.
Darya O Egorova, Tatyana I Gorbunova, Marina G Pervova, Tatyana D Kir'yanova, Vitalyi A Demakov, Viсtor I Saloutin, Oleg N Chupakhin. Biodegradability of hydroxylated derivatives of commercial polychlorobiphenyls mixtures by Rhodococcus-strains. Journal of hazardous materials. 2020 Dec 05;400:123328
PMID: 32947723
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