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Xenobiotica
the fate of foreign compounds in biological systems
Volume 20, 1990 - Issue 6
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Original Article

Dissimilation of 2,4-dichlorophenoxyacetic acid by Azotobacter chroococcum

S. Balajee Centre for Advanced Study in Botany, University of Madras, Guindy Campus, Madras, 600 025, India
&
A. Mahadevan Centre for Advanced Study in Botany, University of Madras, Guindy Campus, Madras, 600 025, India
Pages 607-617 | Received 05 Aug 1989, Accepted 14 Feb 1990, Published online: 27 Aug 2009

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Lizhen Han, Sen Chen & Jing Zhou. (2020) Expression and cloning of catA encoding a catechol 1,2-dioxygenase from the 2,4-D-degrading strain Cupriavidus campinensis BJ71. Preparative Biochemistry & Biotechnology 50:5, pages 486-493.
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Ajit Kumar, Nicole Trefault & Ademola Olufolahan Olaniran. (2016) Microbial degradation of 2,4-dichlorophenoxyacetic acid: Insight into the enzymes and catabolic genes involved, their regulation and biotechnological implications. Critical Reviews in Microbiology 42:2, pages 194-208.
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S. Balajee & A. Mahadevan. (1993) Biodegradation of 2, 4‐dichlorophenoxyacetic acid in soil by Azotobacter chroococcum . Toxicological & Environmental Chemistry 39:3-4, pages 169-172.
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Articles from other publishers (20)

Saheli Ghosh, Hemant. J. Purohit & Asifa Qureshi. (2022) Managing gene expression in Pseudomonas simiae EGD-AQ6 for chloroaromatic compound degradation. Archives of Microbiology 204:2.
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Balaram Mohapatra, Tushar Dhamale, Braja Kishor Saha & Prashant S. Phale. 2022. Microbial Biodegradation and Bioremediation. Microbial Biodegradation and Bioremediation 365 394 .
N. V. Zharikova, T. R. Iasakov, E. I. Zhurenko, V. V. Korobov & T. V. Markusheva. (2021) Plasmids of the Chlorophenoxyacetic-Acid Degradation of Bacteria of the Genus Raoultella. Applied Biochemistry and Microbiology 57:3, pages 335-343.
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Mohammad Saleem Wani, Younas Rasheed Tantray, Nazir Ahmad Malik, Mohammad Irfan Dar & Tawseef Ahmad. 2021. Microbiota and Biofertilizers, Vol 2. Microbiota and Biofertilizers, Vol 2 21 60 .
Maria Pilar Serbent, Andrey Martinez Rebelo, Adilson Pinheiro, Adriana Giongo & Lorena Benathar Ballod Tavares. (2019) Biological agents for 2,4-dichlorophenoxyacetic acid herbicide degradation. Applied Microbiology and Biotechnology 103:13, pages 5065-5078.
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V. V. Korobov, E. Yu. Zhurenko, E. G. Galkin, N. V. Zharikova, T. R. Iasakov, S. N. Starikov, A. I. Sagitova & T. V. Markusheva. (2018) Cellulosimicrobium sp. strain NPZ-121, a degrader of 2,4,5-trichlorophenoxyacetic acid. Microbiology 87:1, pages 147-150.
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Xing Huang, Jian He, Xin Yan, Qing Hong, Kai Chen, Qin He, Long Zhang, Xiaowei Liu, Shaochuang Chuang, Shunpeng Li & Jiandong Jiang. (2017) Microbial catabolism of chemical herbicides: Microbial resources, metabolic pathways and catabolic genes. Pesticide Biochemistry and Physiology 143, pages 272-297.
Crossref
A. O. Olaniran, L. Singh, A. Kumar, P. Mokoena & B. Pillay. (2017) Aerobic degradation of 2,4-dichlorophenoxyacetic acid and other chlorophenols by Pseudomonas strains indigenous to contaminated soil in South Africa: Growth kinetics and degradation pathway. Applied Biochemistry and Microbiology 53:2, pages 209-216.
Crossref
Supriya V. Bhat, Sean C. Booth, Seamus G. K. McGrath & Tanya E. S. Dahms. (2015) Rhizobium leguminosarum bv. viciae 3841 Adapts to 2,4-Dichlorophenoxyacetic Acid with “Auxin-Like” Morphological Changes, Cell Envelope Remodeling and Upregulation of Central Metabolic Pathways. PLOS ONE 10:4, pages e0123813.
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Michael C. FlickingerOwen P. Ward. 2009. Encyclopedia of Industrial Biotechnology. Encyclopedia of Industrial Biotechnology 1 21 .
B Goodwin. 2004. Handbook of Biotransformations of Aromatic Compounds. Handbook of Biotransformations of Aromatic Compounds 213 566 .
Ann-Sofie Allard & Alasdair H. Neilson. 2003. Organic Bromine and Iodine Compounds. Organic Bromine and Iodine Compounds 1 74 .
Andreas Schenzle, Hiltrud Lenke, Jim C. Spain & Hans-Joachim Knackmuss. (1999) Chemoselective Nitro Group Reduction and Reductive Dechlorination Initiate Degradation of 2-Chloro-5-Nitrophenol by Ralstonia eutropha JMP134 . Applied and Environmental Microbiology 65:6, pages 2317-2323.
Crossref
Keisuke Miyauchi, Seug-Kyo Suh, Yuji Nagata & Masamichi Takagi. (1998) Cloning and Sequencing of a 2,5-Dichlorohydroquinone Reductive Dehalogenase Gene Whose Product Is Involved in Degradation of γ-Hexachlorocyclohexane by Sphingomonas paucimobilis . Journal of Bacteriology 180:6, pages 1354-1359.
Crossref
Kye-Heon Oh & Min-Seok Cha. (1996) Degradation of dimethylamine salt of 2,4-dichlorophenoxyacetate by a mixed bacterial culture in stirred tank reactors. Biotechnology Letters 18:9, pages 1035-1040.
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S. Suneja, N. Narula, R. C. Anand & K. Lakshminarayana. (1996) Relationship ofAzotobacter chrooccum siderophores with nitrogen fixation. Folia Microbiologica 41:2, pages 154-158.
Crossref
H Lenke & H Knackmuss. (1996) Initial hydrogenation and extensive reduction of substituted 2,4-dinitrophenols. Applied and Environmental Microbiology 62:3, pages 784-790.
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S NiJ K FredricksonL Xun. (1995) Purification and characterization of a novel 3-chlorobenzoate-reductive dehalogenase from the cytoplasmic membrane of Desulfomonile tiedjei DCB-1. Journal of Bacteriology 177:17, pages 5135-5139.
Crossref
Kye‐Heon Oh & Olli H. Tuovinen. (2004) Microbiological treatment of fertilizer solid waste material containing phenoxyalkanoic herbicides 2,4‐D and MCPP. Journal of Chemical Technology & Biotechnology 61:4, pages 299-305.
Crossref
D Y LiJ EberspächerB WagnerJ KuntzerF Lingens. (1991) Degradation of 2,4,6-trichlorophenol by Azotobacter sp. strain GP1. Applied and Environmental Microbiology 57:7, pages 1920-1928.
Crossref

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