Characterization of a novel cyfluthrin-degrading bacterial strain Brevibacterium aureum and its biochemical degradation pathway

► A new bacterium Brevibacterium aureum was isolated and characterized. ► It utilizes cyfluthrin as a growth substrate and degrades high concentrations. ► The bacterium was able to degrade a wide range of other pyrethroid insecticides. ► A novel degradation pathway for cyfluthrin was proposed based...

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Published inBioresource technology Vol. 132; pp. 16 - 23
Main Authors Chen, Shaohua, Dong, Yi Hu, Chang, Changqing, Deng, Yinyue, Zhang, Xi Fen, Zhong, Guohua, Song, Haiwei, Hu, Meiying, Zhang, Lian-Hui
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 01.03.2013
Elsevier
Subjects
acids
Bacteria
biochemical pathways
Biodegradation
Biodegradation, Environmental
Biological and medical sciences
bioremediation
Biotechnology
Brevibacterium
Brevibacterium - metabolism
Brevibacterium aureum
Cyfluthrin
Degradation
Degradation pathway
Environmental Pollutants
Environmental Pollutants - metabolism
Fundamental and applied biological sciences. Psychology
Insecticides
Insecticides - metabolism
Kinetics
metabolism
Metabolites
microbiology
Nitriles
Nitriles - metabolism
Pathways
Phenol
Pyrethrins
Pyrethrins - metabolism
response surface methodology
Sewage
Sewage - microbiology
sludge
Strain
Biodegradation
Brevibacterium aureum
Kinetics
Cyfluthrin
Degradation pathway
Insecticide
Biochemical property
Pesticides
Brevibacteriaceae
Pyrethroids
Strain
Brevibacterium
Bacteria
Actinomycetes
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Abstract ► A new bacterium Brevibacterium aureum was isolated and characterized. ► It utilizes cyfluthrin as a growth substrate and degrades high concentrations. ► The bacterium was able to degrade a wide range of other pyrethroid insecticides. ► A novel degradation pathway for cyfluthrin was proposed based on the metabolites. ► The bacterium harbors the metabolic pathway for the detoxification of cyfluthrin. Brevibacterium aureum DG-12, a new bacterial strain isolated from active sludge, was able to degrade and utilize cyfluthrin as a growth substrate in the mineral medium. Response surface methodology using central composite rotatable design of cultural conditions was successfully employed for optimization resulting in 88.6% degradation of cyfluthrin (50mgL−1) within 5days. The bacterium degraded cyfluthrin by cleavage of both the carboxylester linkage and diaryl bond to form 2,2,3,3-tetramethyl-cyclopropanemethanol, 4-fluoro-3-phenexy-benzoic acid, 3,5-dimethoxy phenol, and phenol, and subsequently transformed these compounds with a maximum specific degradation rate, half-saturation constant and inhibition constant of 1.0384day−1, 20.4967mgL−1, and 141.9013mgL−1, respectively. A novel degradation pathway for cyfluthrin was proposed based on analysis of these metabolites. In addition, this strain was found capable of degrading a wide range of synthetic pyrethroid insecticides. Our results suggest that B. aureum DG-12 may be an ideal microorganism for bioremediation of the pyrethroid-contaminated environments.
AbstractList Brevibacterium aureum DG-12, a new bacterial strain isolated from active sludge, was able to degrade and utilize cyfluthrin as a growth substrate in the mineral medium. Response surface methodology using central composite rotatable design of cultural conditions was successfully employed for optimization resulting in 88.6% degradation of cyfluthrin (50 mg L/1) within 5 days. The bacterium degraded cyfluthrin by cleavage of both the carboxylester linkage and diaryl bond to form 2,2,3,3-tetramethyl-cyclopropanemethanol, 4-fluoro-3-phenexy-benzoic acid, 3,5-dimethoxy phenol, and phenol, and subsequently transformed these compounds with a maximum specific degradation rate, half-saturation constant and inhibition constant of 1.0384 day/1, 20.4967 mg L/1, and 141.9013 mg L/1, respectively. A novel degradation pathway for cyfluthrin was proposed based on analysis of these metabolites. In addition, this strain was found capable of degrading a wide range of synthetic pyrethroid insecticides. Our results suggest that B. aureum DG-12 may be an ideal microorganism for bioremediation of the pyrethroid-contaminated environments.
Brevibacterium aureum DG-12, a new bacterial strain isolated from active sludge, was able to degrade and utilize cyfluthrin as a growth substrate in the mineral medium. Response surface methodology using central composite rotatable design of cultural conditions was successfully employed for optimization resulting in 88.6% degradation of cyfluthrin (50mgL(-1)) within 5days. The bacterium degraded cyfluthrin by cleavage of both the carboxylester linkage and diaryl bond to form 2,2,3,3-tetramethyl-cyclopropanemethanol, 4-fluoro-3-phenexy-benzoic acid, 3,5-dimethoxy phenol, and phenol, and subsequently transformed these compounds with a maximum specific degradation rate, half-saturation constant and inhibition constant of 1.0384day(-1), 20.4967mgL(-1), and 141.9013mgL(-1), respectively. A novel degradation pathway for cyfluthrin was proposed based on analysis of these metabolites. In addition, this strain was found capable of degrading a wide range of synthetic pyrethroid insecticides. Our results suggest that B. aureum DG-12 may be an ideal microorganism for bioremediation of the pyrethroid-contaminated environments.Brevibacterium aureum DG-12, a new bacterial strain isolated from active sludge, was able to degrade and utilize cyfluthrin as a growth substrate in the mineral medium. Response surface methodology using central composite rotatable design of cultural conditions was successfully employed for optimization resulting in 88.6% degradation of cyfluthrin (50mgL(-1)) within 5days. The bacterium degraded cyfluthrin by cleavage of both the carboxylester linkage and diaryl bond to form 2,2,3,3-tetramethyl-cyclopropanemethanol, 4-fluoro-3-phenexy-benzoic acid, 3,5-dimethoxy phenol, and phenol, and subsequently transformed these compounds with a maximum specific degradation rate, half-saturation constant and inhibition constant of 1.0384day(-1), 20.4967mgL(-1), and 141.9013mgL(-1), respectively. A novel degradation pathway for cyfluthrin was proposed based on analysis of these metabolites. In addition, this strain was found capable of degrading a wide range of synthetic pyrethroid insecticides. Our results suggest that B. aureum DG-12 may be an ideal microorganism for bioremediation of the pyrethroid-contaminated environments.
► A new bacterium Brevibacterium aureum was isolated and characterized. ► It utilizes cyfluthrin as a growth substrate and degrades high concentrations. ► The bacterium was able to degrade a wide range of other pyrethroid insecticides. ► A novel degradation pathway for cyfluthrin was proposed based on the metabolites. ► The bacterium harbors the metabolic pathway for the detoxification of cyfluthrin. Brevibacterium aureum DG-12, a new bacterial strain isolated from active sludge, was able to degrade and utilize cyfluthrin as a growth substrate in the mineral medium. Response surface methodology using central composite rotatable design of cultural conditions was successfully employed for optimization resulting in 88.6% degradation of cyfluthrin (50mgL−1) within 5days. The bacterium degraded cyfluthrin by cleavage of both the carboxylester linkage and diaryl bond to form 2,2,3,3-tetramethyl-cyclopropanemethanol, 4-fluoro-3-phenexy-benzoic acid, 3,5-dimethoxy phenol, and phenol, and subsequently transformed these compounds with a maximum specific degradation rate, half-saturation constant and inhibition constant of 1.0384day−1, 20.4967mgL−1, and 141.9013mgL−1, respectively. A novel degradation pathway for cyfluthrin was proposed based on analysis of these metabolites. In addition, this strain was found capable of degrading a wide range of synthetic pyrethroid insecticides. Our results suggest that B. aureum DG-12 may be an ideal microorganism for bioremediation of the pyrethroid-contaminated environments.
Brevibacterium aureum DG-12, a new bacterial strain isolated from active sludge, was able to degrade and utilize cyfluthrin as a growth substrate in the mineral medium. Response surface methodology using central composite rotatable design of cultural conditions was successfully employed for optimization resulting in 88.6% degradation of cyfluthrin (50mgL(-1)) within 5days. The bacterium degraded cyfluthrin by cleavage of both the carboxylester linkage and diaryl bond to form 2,2,3,3-tetramethyl-cyclopropanemethanol, 4-fluoro-3-phenexy-benzoic acid, 3,5-dimethoxy phenol, and phenol, and subsequently transformed these compounds with a maximum specific degradation rate, half-saturation constant and inhibition constant of 1.0384day(-1), 20.4967mgL(-1), and 141.9013mgL(-1), respectively. A novel degradation pathway for cyfluthrin was proposed based on analysis of these metabolites. In addition, this strain was found capable of degrading a wide range of synthetic pyrethroid insecticides. Our results suggest that B. aureum DG-12 may be an ideal microorganism for bioremediation of the pyrethroid-contaminated environments.
Brevibacterium aureum DG-12, a new bacterial strain isolated from active sludge, was able to degrade and utilize cyfluthrin as a growth substrate in the mineral medium. Response surface methodology using central composite rotatable design of cultural conditions was successfully employed for optimization resulting in 88.6% degradation of cyfluthrin (50mgL−1) within 5days. The bacterium degraded cyfluthrin by cleavage of both the carboxylester linkage and diaryl bond to form 2,2,3,3-tetramethyl-cyclopropanemethanol, 4-fluoro-3-phenexy-benzoic acid, 3,5-dimethoxy phenol, and phenol, and subsequently transformed these compounds with a maximum specific degradation rate, half-saturation constant and inhibition constant of 1.0384day−1, 20.4967mgL−1, and 141.9013mgL−1, respectively. A novel degradation pathway for cyfluthrin was proposed based on analysis of these metabolites. In addition, this strain was found capable of degrading a wide range of synthetic pyrethroid insecticides. Our results suggest that B. aureum DG-12 may be an ideal microorganism for bioremediation of the pyrethroid-contaminated environments.
Author Chen, Shaohua
Zhang, Lian-Hui
Zhong, Guohua
Zhang, Xi Fen
Hu, Meiying
Song, Haiwei
Dong, Yi Hu
Deng, Yinyue
Chang, Changqing
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  surname: Chen
  fullname: Chen, Shaohua
  organization: Key Laboratory of Pesticide and Chemical Biology, Ministry of Education, South China Agricultural University, Guangzhou 510642, PR China
– sequence: 2
  givenname: Yi Hu
  surname: Dong
  fullname: Dong, Yi Hu
  organization: Institute of Molecular and Cell Biology, Proteos, 61 Biopolis Drive, Singapore 138673, Republic of Singapore
– sequence: 3
  givenname: Changqing
  surname: Chang
  fullname: Chang, Changqing
  organization: Institute of Molecular and Cell Biology, Proteos, 61 Biopolis Drive, Singapore 138673, Republic of Singapore
– sequence: 4
  givenname: Yinyue
  surname: Deng
  fullname: Deng, Yinyue
  organization: Institute of Molecular and Cell Biology, Proteos, 61 Biopolis Drive, Singapore 138673, Republic of Singapore
– sequence: 5
  givenname: Xi Fen
  surname: Zhang
  fullname: Zhang, Xi Fen
  organization: Institute of Molecular and Cell Biology, Proteos, 61 Biopolis Drive, Singapore 138673, Republic of Singapore
– sequence: 6
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  fullname: Zhong, Guohua
  organization: Key Laboratory of Pesticide and Chemical Biology, Ministry of Education, South China Agricultural University, Guangzhou 510642, PR China
– sequence: 7
  givenname: Haiwei
  surname: Song
  fullname: Song, Haiwei
  organization: Institute of Molecular and Cell Biology, Proteos, 61 Biopolis Drive, Singapore 138673, Republic of Singapore
– sequence: 8
  givenname: Meiying
  surname: Hu
  fullname: Hu, Meiying
  email: humy@scau.edu.cn
  organization: Key Laboratory of Pesticide and Chemical Biology, Ministry of Education, South China Agricultural University, Guangzhou 510642, PR China
– sequence: 9
  givenname: Lian-Hui
  surname: Zhang
  fullname: Zhang, Lian-Hui
  email: lianhui@imcb.a-star.edu.sg
  organization: Department of Plant Pathology, South China Agricultural University, Guangzhou 510642, PR China
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ID FETCH-LOGICAL-c497t-38737a5680449f9c3a98d7522322cf28e6de6931eef7e8a7ee47db93a86edc703
IEDL.DBID .~1
ISSN 0960-8524
1873-2976
IngestDate Fri Jul 11 07:49:36 EDT 2025
Fri Jul 11 13:03:35 EDT 2025
Thu Jul 10 22:59:21 EDT 2025
Thu Jul 10 21:55:50 EDT 2025
Thu Apr 03 06:59:14 EDT 2025
Mon Jul 21 09:15:27 EDT 2025
Thu Apr 24 23:11:22 EDT 2025
Tue Jul 01 02:43:06 EDT 2025
Fri Feb 23 02:34:23 EST 2024
IsPeerReviewed true
IsScholarly true
Keywords Biodegradation
Brevibacterium aureum
Kinetics
Cyfluthrin
Degradation pathway
Insecticide
Biochemical property
Pesticides
Brevibacteriaceae
Pyrethroids
Strain
Brevibacterium
Bacteria
Actinomycetes
Language English
License CC BY 4.0
Copyright © 2013 Elsevier Ltd. All rights reserved.
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MergedId FETCHMERGED-LOGICAL-c497t-38737a5680449f9c3a98d7522322cf28e6de6931eef7e8a7ee47db93a86edc703
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PMID 23395753
PQID 1315630299
PQPubID 23479
PageCount 8
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proquest_miscellaneous_1365047401
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pubmed_primary_23395753
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crossref_citationtrail_10_1016_j_biortech_2013_01_002
crossref_primary_10_1016_j_biortech_2013_01_002
elsevier_sciencedirect_doi_10_1016_j_biortech_2013_01_002
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PublicationTitle Bioresource technology
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Elsevier
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Snippet ► A new bacterium Brevibacterium aureum was isolated and characterized. ► It utilizes cyfluthrin as a growth substrate and degrades high concentrations. ► The...
Brevibacterium aureum DG-12, a new bacterial strain isolated from active sludge, was able to degrade and utilize cyfluthrin as a growth substrate in the...
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SubjectTerms acids
Bacteria
biochemical pathways
Biodegradation
Biodegradation, Environmental
Biological and medical sciences
bioremediation
Biotechnology
Brevibacterium
Brevibacterium - metabolism
Brevibacterium aureum
Cyfluthrin
Degradation
Degradation pathway
Environmental Pollutants
Environmental Pollutants - metabolism
Fundamental and applied biological sciences. Psychology
Insecticides
Insecticides - metabolism
Kinetics
metabolism
Metabolites
microbiology
Nitriles
Nitriles - metabolism
Pathways
Phenol
Pyrethrins
Pyrethrins - metabolism
response surface methodology
Sewage
Sewage - microbiology
sludge
Strain
Title Characterization of a novel cyfluthrin-degrading bacterial strain Brevibacterium aureum and its biochemical degradation pathway
URI https://dx.doi.org/10.1016/j.biortech.2013.01.002
https://www.ncbi.nlm.nih.gov/pubmed/23395753
https://www.proquest.com/docview/1315630299
https://www.proquest.com/docview/1365047401
https://www.proquest.com/docview/1500794173
https://www.proquest.com/docview/1678007211
Volume 132
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