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The growth yield of Aminobacter niigataensis MSH1 on the micropollutant 2,6-Dichlorobenzamide decreases substantially at trace substrate concentrations
Raes, B., Wang, J., Horemans, B., Dirckx, L., Waldherr, S., Kohler, H. P. E., & Springael, D. (2023). The growth yield of Aminobacter niigataensis MSH1 on the micropollutant 2,6-Dichlorobenzamide decreases substantially at trace substrate concentrations. Environmental Science and Technology, 58, 2859-2869. https://doi.org/10.1021/acs.est.3c06883
Catalytic properties of 2-hydroxybiphenyl 3-monooxygenase
Suske, W. A., & Kohler, H. P. E. (1999). Catalytic properties of 2-hydroxybiphenyl 3-monooxygenase. In S. Ghisla, P. Kroneck, P. Macheroux, & H. Sund (Eds.), Flavins and flavoproteins 1999. Proceedings of the thirteenth international symposium. Konstanz, Germany, August 29 - September 4, 1999 (pp. 371-374). Rudolf Weber.
Umweltdynamik chiraler Schadstoffe - die Notwendigkeit einer Stereoisomeren-spezifischen Betrachtung
Kohler, H. P. E., Zipper-Duss, C., & Nickel, K. (1997). Umweltdynamik chiraler Schadstoffe - die Notwendigkeit einer Stereoisomeren-spezifischen Betrachtung. In E. Bayer, K. Ballschmiter, H. Behret, F. H. Frimmel, W. Merz, & U. Obst (Eds.), GDCh-Monographie: Vol. 8. Umwelt und Chemie (pp. 263-272).
Auftreten von humanmedizinischen Antibiotika und Antibiotikaresistenz in der aquatischen Umwelt. Usage d'antibiotiques en médecine humaine et émergence de la résistance en milieu aquatique. Human-use antibiotics and resistance in aquatic environments
Giger, W., Alder, A., & Kohler, H. P. (2003). Auftreten von humanmedizinischen Antibiotika und Antibiotikaresistenz in der aquatischen Umwelt. Usage d'antibiotiques en médecine humaine et émergence de la résistance en milieu aquatique. Human-use antibiotics and resistance in aquatic environments. (Report No.: 4049-03273). SNF.
Microbial transformation of the chiral pollutants mecoprop and dichlorprop. The necessity of considering stereochemistry
Kohler, H. P. E., Nickel, K., Bunk, M., & Zipper, C. (1999). Microbial transformation of the chiral pollutants mecoprop and dichlorprop. The necessity of considering stereochemistry. In R. Fass, Y. Flashner, & S. Reuveny (Eds.), Novel approaches for bioremediation of organic pollution (pp. 13-20). https://doi.org/10.1007/978-1-4615-4749-5_2
Entsorgung von Treibladungspulver, welches zur Hauptsache aus Nitrocellulose besteht - verfahrenstechnische Möglichkeiten
Belevi, H., Hesselmann, R., Kohler, H. P. E., & Tschui, M. (1994). Entsorgung von Treibladungspulver, welches zur Hauptsache aus Nitrocellulose besteht - verfahrenstechnische Möglichkeiten. (Report No.: 20-4891). Eawag.
Biodegradation of poly(butylene succinate) in soil laboratory incubations assessed by stable carbon isotope labelling
Nelson, T. F., Baumgartner, R., Jaggi, M., Bernasconi, S. M., Battagliarin, G., Sinkel, C., … Sander, M. (2022). Biodegradation of poly(butylene succinate) in soil laboratory incubations assessed by stable carbon isotope labelling. Nature Communications, 13(1), 5691 (16 pp.). https://doi.org/10.1038/s41467-022-33064-8
Crystallization and preliminary X-ray analysis of native and selenomethionine 2-hydroxybiphenyl 3-monooxygenase
Meyer, A., Tanner, D., Schmid, A., Sargent, D. F., Kohler, H. P. E., & Witholt, B. (2003). Crystallization and preliminary X-ray analysis of native and selenomethionine 2-hydroxybiphenyl 3-monooxygenase. Acta Crystallographica Section D: Structural Biology, 59(4), 741-743. https://doi.org/10.1107/S0907444903002634
Enantioselective transformation of α-hexachlorocyclohexane by the dehydrochlorinases LinA1 and LinA2 from the soil bacterium <em>Sphingomonas paucimobilis</em> B90A
Suar, M., Hauser, A., Poiger, T., Buser, H. R., Müller, M. D., Dogra, C., … Kohler, H. P. E. (2005). Enantioselective transformation of α-hexachlorocyclohexane by the dehydrochlorinases LinA1 and LinA2 from the soil bacterium Sphingomonas paucimobilis B90A. Applied and Environmental Microbiology, 71(12), 8514-8518. https://doi.org/10.1128/AEM.71.12.8514-8518.2005
Synthesis of 3-<em>tert</em>-butylcatechol by an engineered monooxygenase
Meyer, A., Held, M., Schmid, A., Kohler, H. P. E., & Witholt, B. (2003). Synthesis of 3-tert-butylcatechol by an engineered monooxygenase. Biotechnology and Bioengineering, 81(5), 518-524. https://doi.org/10.1002/bit.10487
Elucidating the role of O<sub>2</sub> uncoupling in the oxidative biodegradation of organic contaminants by Rieske non-heme iron dioxygenases
Bopp, C. E., Bernet, N. M., Kohler, H. P. E., & Hofstetter, T. B. (2022). Elucidating the role of O2 uncoupling in the oxidative biodegradation of organic contaminants by Rieske non-heme iron dioxygenases. ACS Environmental Au, 2(5), 428-440. https://doi.org/10.1021/acsenvironau.2c00023
Substrate-specific coupling of O<sub>2</sub> activation to hydroxylations of aromatic compounds by rieske non-heme iron dioxygenases
Pati, S. G., Bopp, C. E., Kohler, H. P. E., & Hofstetter, T. B. (2022). Substrate-specific coupling of O2 activation to hydroxylations of aromatic compounds by rieske non-heme iron dioxygenases. ACS Catalysis, 12(11), 6444-6456. https://doi.org/10.1021/acscatal.2c00383
Enzymatic synthesis and formation kinetics of mono- and di-hydroxylated chlorinated paraffins with the bacterial dehalogenase LinB from <em>Sphingobium indicum</em>
Knobloch, M. C., Mathis, F., Fleischmann, T., Kohler, H. P. E., Kern, S., Bleiner, D., & Heeb, N. V. (2022). Enzymatic synthesis and formation kinetics of mono- and di-hydroxylated chlorinated paraffins with the bacterial dehalogenase LinB from Sphingobium indicum. Chemosphere, 291, 132939 (10 pp.). https://doi.org/10.1016/j.chemosphere.2021.132939
Biochemistry of environmental contaminant transformation: nonylphenolic compounds and hexachlorocyclohexanes–two case studies
Kohler, H. P. E. (2011). Biochemistry of environmental contaminant transformation: nonylphenolic compounds and hexachlorocyclohexanes–two case studies. In B. Xing, N. Senesi, & P. M. Huang (Eds.), Biophysico-chemical processes of anthropogenic organic compounds in environmental systems (pp. 465-481). https://doi.org/10.1002/9780470944479.ch18
Transformation of short-chain chlorinated paraffins and olefins with the bacterial dehalogenase LinB from <em>Sphingobium Indicum</em> – Kinetic models for the homologue-specific conversion of reactive and persistent material
Knobloch, M. C., Schinkel, L., Kohler, H. P. E., Mathis, F., Kern, S., Bleiner, D., & Heeb, N. V. (2021). Transformation of short-chain chlorinated paraffins and olefins with the bacterial dehalogenase LinB from Sphingobium Indicum – Kinetic models for the homologue-specific conversion of reactive and persistent material. Chemosphere, 283, 131199 (12 pp.). https://doi.org/10.1016/j.chemosphere.2021.131199
Transformation of ε-HBCD with the &lt;em&gt;Sphingobium Indicum&lt;/em&gt; enzymes LinA1, LinA2 and LinATM, a triple mutant of LinA2
Heeb, N. V., Hubeli, J., Fleischmann, T., Lienemann, P., Nayyar, N., Lal, R., & Kohler, H. P. E. (2021). Transformation of ε-HBCD with the Sphingobium Indicum enzymes LinA1, LinA2 and LinATM, a triple mutant of LinA2. Chemosphere, 267, 129217 (12 pp.). https://doi.org/10.1016/j.chemosphere.2020.129217
Transformation of short-chain chlorinated paraffins by the bacterial haloalkane dehalogenase LinB – Formation of mono- and di-hydroxylated metabolites
Knobloch, M. C., Schinkel, L., Schilling, I., Kohler, H. P. E., Lienemann, P., Bleiner, D., & Heeb, N. V. (2021). Transformation of short-chain chlorinated paraffins by the bacterial haloalkane dehalogenase LinB – Formation of mono- and di-hydroxylated metabolites. Chemosphere, 262, 128288 (13 pp.). https://doi.org/10.1016/j.chemosphere.2020.128288
Enzyme kinetics of organic contaminant oxygenations
Bopp, C. E., Kohler, H. P. E., & Hofstetter, T. B. (2020). Enzyme kinetics of organic contaminant oxygenations. Chimia, 74(3), 108-114. https://doi.org/10.2533/chimia.2020.108
Quantification of synthetic polyesters from biodegradable mulch films in soils
Nelson, T. F., Remke, S. C., Kohler, H. P. E., McNeill, K., & Sander, M. (2019). Quantification of synthetic polyesters from biodegradable mulch films in soils. Environmental Science and Technology, 54(1), 266-275. https://doi.org/10.1021/acs.est.9b05863
Dos and do nots when assessing the biodegradation of plastics
Zumstein, M. T., Narayan, R., Kohler, H. P. E., McNeill, K., & Sander, M. (2019). Dos and do nots when assessing the biodegradation of plastics. Environmental Science and Technology, 53(17), 9967-9969. https://doi.org/10.1021/acs.est.9b04513
 

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