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CO-METABOLISM AS A FACTOR IN MICROBIAL DEGRADATION OF CYCLOPARAFFINIC HYDROCARBONSBEAM HW; PERRY JJ.1973; ARCH. MIKROBIOL.; DTSCH.; DA. 1973; VOL. 91; NO 1; PP. 87-90; BIBL. 14REF.Serial Issue

UTILISATION D'ALCOOLS EN C1, C2, C3, C4 PAR DIFFERENTS PSEUDOMONADACEAEAURIOL JC; DULONG DE ROSNAY C; DU PASQUIER P et al.1972; C.R. ACAD. SCI., D; FR.; DA. 1972; VOL. 275; NO 22; PP. 2567-2570; BIBL. 8REF.Serial Issue

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

ENHANCEMENT OF CO-METABOLISM OF CHLOROBENZOATES BY THE CO-SUBSTRATE ENRICHMENT TECHNIQUEHORVATH RS.1973; APPL. MICROBIOL.; U.S.A.; DA. 1973; VOL. 25; NO 6; PP. 961-963; BIBL. 18REF.Serial Issue

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

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

Biodegradation of 2,4-D and related xenobiotic compoundsSINTON, G. L; FAN, L. T; ERICKSON, L. E et al.Enzyme and microbial technology. 1986, Vol 8, Num 7, pp 395-403, issn 0141-0229Article

Biodegradation of fenitorthion and fenitrooxon by the fungus Trichoderma virideBAARSCHERS, W. H; HEITLAND, H. S.Journal of agricultural and food chemistry (Print). 1986, Vol 34, Num 4, pp 707-709, issn 0021-8561Article

ETUDE DU METABOLISME DE LA BENZAMIDE ET DE SES DERIVES MONO ET DICHLORES PAR DES SOUCHES D'ASPERGILLUS SP.FOURNIER JC; CATROUX G.1972; C.R. ACAD. SCI., D; FR.; DA. 1972; VOL. 275; NO 15; PP. 1723-1726; BIBL. 17 REF.Serial Issue

CO-METABOLISMDALTON H; STIRLING DI.1982; PHILOS. TRANS. R. SOC. LOND., SER. B; ISSN 0080-4622; GBR; DA. 1982; VOL. 297; NO 1088; PP. 481-496; BIBL. 3 P.Conference Paper

CO-METABOLISM OF DIBENZOTHIOPHENE BY PSEUDOMONAS JIIANII.KODAMA K.1977; AGRIC. BIOL. CHEM.; JAP.; DA. 1977; VOL. 41; NO 7; PP. 1305-1306; BIBL. 7 REF.Article

MICROBIAL COOXIDATIONS INVOLVING HYDROCARBONSPERRY JJ.1979; MICROBIOL. REV.; USA; DA. 1979; VOL. 43; NO 1; PP. 59-72; BIBL. 80 REF.Article

Cometabolism of trihalomethanes by Nitrosomonas europaeaWAHMAN, David G; KATZ, Lynn E; SPEITEL, Gerald E et al.Applied and environmental microbiology (Print). 2005, Vol 71, Num 12, pp 7980-7986, issn 0099-2240, 7 p.Article

INDUCTION OF DIBENZOTHIOPHENE OXIDATION BY PSEUDOMONAS JIANII.KODAMA K.1977; AGRIC. BIOL. CHEM.; JAP.; DA. 1977; VOL. 41; NO 7; PP. 1193-1196; BIBL. 11 REF.Article

Ability of O-anisate degrading microorganisms to cometabolize dicamba and other related herbicidesFERRER, M. R; DEL MORAL, A; RUIZ-BERRAQUERO, F et al.Chemosphere (Oxford). 1985, Vol 14, Num 10, pp 1645-1648, issn 0045-6535Article

Incorporation of 18O2 during cometabolic degradation of 3-chloroaniline by Rhodococcus sp. An 117JANKE, D; BASKUNOV, B. P; NEFEDOVA, M. YU et al.Zeitschrift für allgemeine Mikrobiologie. 1984, Vol 24, Num 4, pp 253-259, issn 0044-2208Article

Cometabolic degradation of 2- and 3-chloroaniline because of glucose metabolism by Rhodococcus sp. an 117SCHUKAT, B; JANKE, D; KREBS, D et al.Current microbiology (Print). 1983, Vol 9, Num 2, pp 81-86, issn 0343-8651Article

CO-METABOLISM OF FLUOROBENZOATES BY NATURAL MICROBIAL POPULATIONS.HORWATH RS; FLATHMAN P.1976; APPL. ENVIRONMENT. MICROBIOL.; U.S.A.; DA. 1976; VOL. 31; NO 6; PP. 889-891; BIBL. 9 REF.Article

Cometabolic Degradation of Trichloroethene by Rhodococcus sp. Strain L4 Immobilized on Plant Materials Rich in Essential OilsSUTTINUN, Oramas; MÜLLER, Rudolf; LUEPROMCHAI, Ekawan et al.Applied and environmental microbiology (Print). 2010, Vol 76, Num 14, pp 4684-4690, issn 0099-2240, 7 p.Article

Co-metabolic degradation of dimethoate by Raoultella sp. X1YILI LIANG; FUHUA ZENG; GUANZHOU QIU et al.Biodegradation (Dordrecht). 2009, Vol 20, Num 3, pp 363-373, issn 0923-9820, 11 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

Cometabolic degradation of dibenzofuran and dibenzothiophene by a newly isolated carbazole-degrading Sphingomonas sp. strainZHONGHUI GAI; BO YU; LI LI et al.Applied and environmental microbiology (Print). 2007, Vol 73, Num 9, pp 2832-2838, issn 0099-2240, 7 p.Article

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