Title : Unveiling microbial community structure and metabolic pathway over carbon cloth-titanium nitride-polyaniline biocathode for effective dichloromethane transformation - Wu_2024_Environ.Pollut_358_124486 |
Author(s) : Wu M , Yang F , Hu J , Yu Z , Yu J , Chen J |
Ref : Environ Pollut , 358 :124486 , 2024 |
Abstract :
Chlorinated volatile organic compounds (Cl-VOCs) have dramatically biotoxicity and environmental persistence due to the presence of chlorine atoms, seriously jeopardizing ecological security and human health. Dichloromethane (DCM) as a model pollutant, is widely applied in solvents, extractants and cleaning agents in the pharmaceutical, chemical and food industries. In this study, highly biocompatible and conductive carbon cloth-titanium nitride-polyaniline (CC-TiN-PANI) bioelectrodes were obtained for DCM degradation in microbial electrolysis cell (MEC). The good adhesion of TiN and PANI on the electrode surface was demonstrated. The degradation kinetics were fitted by the Haldane model, compared to the CC bioelectrode (0.8 h(-1)), the proportion of maximum degradation rates to half-saturation concentration (V(max)/K(m)) of CC-TiN (1.4 h(-1)) and CC-TiN-PANI (2.2 h(-1)) bioelectrodes were enhanced by 1.8 and 2.8 times, respectively. Microbial community structure analysis illuminated that the dominant genera on the biofilm were Alicycliphilus and Hyphomicrobium, and the abundance was enhanced significantly with the modification of TiN and PANI. The dechlorination of DCM to formaldehyde could be catalyzed by DCM dehalogenase (DcmA) or by haloalkane dehalogenase (DhlA). And further oxidized to formate: 1) direct catalyzed by formaldehyde dehydrogenase (FdhA); 2) conjugated with glutathione by S-(hydroxymethyl)-glutathione synthase (Gfa), S-(hydroxymethyl)-glutathione dehydrogenase (FrmA) and S-formyl-glutathione hydrolase (FrmB); 3) conjugation with tetrahydrofolate (H(4)F) and/or tetrahydromethanopterin. |
PubMedSearch : Wu_2024_Environ.Pollut_358_124486 |
PubMedID: 38972563 |
Wu M, Yang F, Hu J, Yu Z, Yu J, Chen J (2024)
Unveiling microbial community structure and metabolic pathway over carbon cloth-titanium nitride-polyaniline biocathode for effective dichloromethane transformation
Environ Pollut
358 :124486
Wu M, Yang F, Hu J, Yu Z, Yu J, Chen J (2024)
Environ Pollut
358 :124486