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Degradation of difluorobenzenes by the wild strain Labrys portucalensisMOREIRA, Irina S; AMORIM, Catarina L; CARVALHO, Maria F et al.Biodegradation (Dordrecht). 2012, Vol 23, Num 5, pp 653-662, issn 0923-9820, 10 p.Article

Cometabolic bioregeneration of activated carbons loaded with 2-chlorophenolAKTAS, Özgür; CECEN, Ferhan.Bioresource technology. 2009, Vol 100, Num 20, pp 4604-4610, issn 0960-8524, 7 p.Article

Enhanced kinetics of genetically engineered Burkholderia cepacia: Role of vgb in the hypoxic cometabolism of 2-CBAURGUN-DEMIRTAS, Meltem; PAGILLA, Krishna R; STARK, Benjamin et al.Biotechnology and bioengineering. 2004, Vol 87, Num 1, pp 110-118, issn 0006-3592, 9 p.Article

Aerobic secondary utilization of a non-growth and inhibitory substrate 2,4,6-trichlorophenol by Sphingopyxis chilensis S37 and Sphingopyxis-like strain S32ARANDA, Carlos; GODOY, Félix; BECERRA, José et al.Biodegradation (Dordrecht). 2003, Vol 14, Num 4, pp 265-274, issn 0923-9820, 10 p.Article

Cometabolic degradation of chlorinated aromatic compoundsJECHOREK, M; WENDLANDT, K.-D; BECK, M et al.Journal of biotechnology. 2003, Vol 102, Num 1, pp 93-98, issn 0168-1656, 6 p.Article

Trichloroethylene aerobic cometabolism by suspended and immobilized butane-growing microbial consortia: A kinetic studyFRASCARI, Dario; ZANAROLI, Giulio; BUCCHI, Giacomo et al.Bioresource technology. 2013, Vol 144, pp 529-538, issn 0960-8524, 10 p.Article

Biological removal of the xenobiotic trichloroethylene (TCE) through cometabolism in nitrifying systemsKOCAMEMI, B. Alpaslan; CECEN, F.Bioresource technology. 2010, Vol 101, Num 1, pp 430-433, issn 0960-8524, 4 p.Article

Nitrification and degradation of halogenated hydrocarbons—a tenuous balance for ammonia-oxidizing bacteriaSAYAVEDRA-SOTO, Luis A; GVAKHARIA, Barbara; BOTTOMLEY, Peter J et al.Applied microbiology and biotechnology. 2010, Vol 86, Num 2, pp 435-444, issn 0175-7598, 10 p.Article

Degradation of dibenzofuran via multiple dioxygenation by a newly isolated Agrobacterium sp. PH-08LE, T. T; MURUGESAN, K; NAM, I.-H et al.Journal of applied microbiology (Print). 2014, Vol 116, Num 3, pp 542-553, issn 1364-5072, 12 p.Article

Aerobic cometabolism of chloroform by butane-grown microorganisms: long-term monitoring of depletion rates and isolation of a high-performing strainFRASCARI, Dario; ZANNONI, Arianna; FEDI, Stefano et al.Biodegradation (Dordrecht). 2005, Vol 16, Num 2, pp 147-158, issn 0923-9820, 12 p.Conference Paper

Cometabolic transformation of 2-chlorophenol and 4-chlorophenol in the presence of phenol by Pseudomonas putidaLOH, Kai-Chee; TINGTING WU.Canadian journal of chemical engineering. 2006, Vol 84, Num 3, pp 356-367, issn 0008-4034, 12 p.Article

Induction of aromatic ring: cleavage dioxygenases in Stenotrophomonas maltophilia strain KB2 in cometabolic systemsWOJCIESZYNSKA, Danuta; GUZIK, Urszula; GREN, Izabela et al.World journal of microbiology & biotechnology. 2011, Vol 27, Num 4, pp 805-811, issn 0959-3993, 7 p.Article

Environmentally relevant parameters affecting PCB degradation: carbon source- and growth phase-mitigated effects of the expression of the biphenyl pathway and associated genes in Burkholderia xenovorans LB400JACOB PARNELL, J; DENEF, Vincent J; PARK, Joonhong et al.Biodegradation (Dordrecht). 2010, Vol 21, Num 1, pp 147-156, issn 0923-9820, 10 p.Article

Cometabolic biodegradation of 4-chlorophenol by sequencing batch reactors at different temperaturesMONSALVO, V. M; MOHEDANO, A. F; CASAS, J. A et al.Bioresource technology. 2009, Vol 100, Num 20, pp 4572-4578, issn 0960-8524, 7 p.Article

Cometabolic degradation of chlorophenols by a strain of Burkholderia in fed-batch cultureDE LOS COBOS-VASCONCELOS, D; SANTOYO-TEPOLE, F; JUAREZ-RAMIREZ, C et al.Enzyme and microbial technology. 2006, Vol 40, Num 1, pp 57-60, issn 0141-0229, 4 p.Article

Trichloroethylene (TCE) removal in a single pulse suspension bioreactorVOLCIK, Viktor; HOFFMANN, Jaromir; RUZICKA, Jan et al.Journal of environmental management. 2005, Vol 74, Num 4, pp 293-304, issn 0301-4797, 12 p.Article

1,1,2,2-Tetrachloroethane aerobic cometabolic biodegradation in slurry and soil-free bioreactors: A kinetic studyFRASCARI, Dario; CAPPELLETTI, Martina; FEDI, Stefano et al.Biochemical engineering journal. 2010, Vol 52, Num 1, pp 55-64, issn 1369-703X, 10 p.Article

Kinetic analysis of the inhibitory effect of trichloroethylene (TCE) on nitrification in cometabolic degradationKOCAMEMI, Bilge Alpaslan; CECEN, Ferhan.Biodegradation (Dordrecht). 2007, Vol 18, Num 1, pp 71-81, issn 0923-9820, 11 p.Article

Mechanisms and strategies of microbial cometabolism in the degradation of organic compounds ― chlorinated ethylenes as the modelWEI LUO; XIANGCHENG ZHU; WENTING CHEN et al.Water science and technology. 2014, Vol 69, Num 10, pp 1971-1983, issn 0273-1223, 13 p.Article

Microbial hydroxylation of indole to 7-hydroxyindole by Acinetobacter calcoaceticus strain 4-1-5SUGIMORI, Daisuke; SEKIGUCHI, Takanori; HASUMI, Fumihiko et al.Bioscience, biotechnology, and biochemistry. 2004, Vol 68, Num 5, pp 1167-1169, issn 0916-8451, 3 p.Article

Bacterial and fungal cometabolism of 1,1,1-trichloro-2,2-bis(4-chlorophenyl)ethane (DDT) and its breakdown productsSUBBA-RAO, R. V; ALEXANDER, M.Applied and environmental microbiology (Print). 1985, Vol 49, Num 3, pp 509-516, issn 0099-2240Article

COMETABOLISM: A CRITIQUE.HULBERT MH; KRAWIEC S.1977; J. THEOR. BIOL.; U.S.A.; DA. 1977; VOL. 69; NO 2; PP. 287-291; BIBL. 23 REF.Article

Metabolism and Cometabolism of Cyclic Ethers by a Filamentous Fungus, a Graphium spSKINNER, Kristin; CUIFFETTI, Lynda; HYMAN, Michael et al.Applied and environmental microbiology (Print). 2009, Vol 75, Num 17, pp 5514-5522, issn 0099-2240, 9 p.Article

A general model for multiple substrate biodegradation. Application to co-metabolism of structurally non-analogous compoundsBRANDT, Bernd W; VAN LEEUWEN, Ingeborg M. M; KOOIJMAN, Sebastiaan A. L. M et al.Water research (Oxford). 2003, Vol 37, Num 20, pp 4843-4854, issn 0043-1354, 12 p.Article

Transformation of chlorobenzoic acids by a Pseudomonas spec.: comparison of batch and chemostat cultures = Transformation des acides chlorobenzoïques par une espèce de P.: étude comparative de cultures continues et discontinuesVEERKAMP, W; PEL, R; HUTZINGER, O et al.Chemosphere (Oxford). 1983, Vol 12, Num 9-10, pp 1337-1343, issn 0045-6535Article

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