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  • (-) Eawag Departments = Environmental Microbiology UMIK
  • (-) Publication Year = 2006 - 2018
  • (-) Eawag Departments = Eawag
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<I>ipso</I>-substitution - a novel pathway for microbial metabolism of endocrine-disrupting 4-nonylphenols, 4-alkoxyphenols, and bisphenol A
Kohler, H. P. E., Gabriel, F. L. P., & Giger, W. (2008). ipso-substitution - a novel pathway for microbial metabolism of endocrine-disrupting 4-nonylphenols, 4-alkoxyphenols, and bisphenol A. Chimia, 62(5), 358-363. https://doi.org/10.2533/chimia.2008.358
<I>ipso</I>-substitution: a general biochemical and biodegradation mechanism to cleave <I>α</I>-quaternary alkylphenols and bisphenol A
Gabriel, F. L. P., Cyris, M., Giger, W., & Kohler, H. P. E. (2007). ipso-substitution: a general biochemical and biodegradation mechanism to cleave α-quaternary alkylphenols and bisphenol A. Chemistry and Biodiversity, 4(9), 2123-2137. https://doi.org/10.1002/cbdv.200790170
Anaerobic degradation of brominated flame retardants in sewage sludge
Gerecke, A. C., Giger, W., Hartmann, P. C., Heeb, N. V., Kohler, H. P. E., Schmid, P., … Kohler, M. (2006). Anaerobic degradation of brominated flame retardants in sewage sludge. Chemosphere, 64(2), 311-317. https://doi.org/10.1016/j.chemosphere.2005.12.016
Assessing biological stability of drinking water without disinfectant residuals in a full-scale water supply system
Hammes, F., Berger, C., Köster, O., & Egli, T. (2010). Assessing biological stability of drinking water without disinfectant residuals in a full-scale water supply system. Journal of Water Supply: Research and Technology. Aqua, 59(1), 31-40. https://doi.org/10.2166/aqua.2010.052
Benzotriazole and tolyltriazole as aquatic contaminants. 1. input and occurrence in rivers and lakes
Giger, W., Schaffner, C., & Kohler, H. P. E. (2006). Benzotriazole and tolyltriazole as aquatic contaminants. 1. input and occurrence in rivers and lakes. Environmental Science and Technology, 40(23), 7186-7192. https://doi.org/10.1021/es061565j
Biofilm formation by<em> Escherichia coli</em> is stimulated by synergistic interactions and co-adhesion mechanisms with adherence-proficient bacteria
Castonguay, M. H., van der Schaaf, S., Koester, W., Krooneman, J., van der Meer, W., Harmsen, H., & Landini, P. (2006). Biofilm formation by Escherichia coli is stimulated by synergistic interactions and co-adhesion mechanisms with adherence-proficient bacteria. Research in Microbiology, 157(5), 471-478. https://doi.org/10.1016/j.resmic.2005.10.003
Biological stability in drinking water distribution systems
Prest, E. I. E. D. (2015). Biological stability in drinking water distribution systems [Doctoral dissertation]. University of Delft.
Comparative genomic hybridization and physiological characterization of environmental isolates indicate that significant (eco-)physiological properties are highly conserved in the species <em>Escherichia coli</em>
Ihssen, J., Grasselli, E., Bassin, C., François, P., Piffaretti, J. C., Köster, W., … Egli, T. (2007). Comparative genomic hybridization and physiological characterization of environmental isolates indicate that significant (eco-)physiological properties are highly conserved in the species Escherichia coli. Microbiology, 153(7), 2052-2066. https://doi.org/10.1099/mic.0.2006/002006-0
Correlations between total cell concentration, total adenosine tri-phosphate concentration and heterotrophic plate counts during microbial monitoring of drinking water
Siebel, E., Wang, Y., Egli, T., & Hammes, F. (2008). Correlations between total cell concentration, total adenosine tri-phosphate concentration and heterotrophic plate counts during microbial monitoring of drinking water. Drinking Water Engineering and Science, 1(1), 1-6. https://doi.org/10.5194/dwes-1-1-2008
Development and laboratory-scale testing of a fully automated online flow cytometer for drinking water analysis
Hammes, F., Broger, T., Weilenmann, H. U., Vital, M., Helbing, J., Bosshart, U., … Sonnleitner, B. (2012). Development and laboratory-scale testing of a fully automated online flow cytometer for drinking water analysis. Cytometry Part A, 81A(6), 508-516. https://doi.org/10.1002/cyto.a.22048
Efficiency and limitations of systems based on the ultra-low pressure ultrafiltration technology
Pronk, W., Peter-Varbanets, M., Margot, J., Li, W., Müller, S., Grau, M., … Hammes, F. (2010). Efficiency and limitations of systems based on the ultra-low pressure ultrafiltration technology. TECHNEAU.
Elucidation of the <em>ipso</em>-substitution mechanism for side-chain cleavage of α-quaternary 4-nonylphenols and 4-<em>t</em>-butoxyphenol in <em>sphingobium xenophagum</em> bayram
Gabriel, F. L. P., Cyris, M., Jonkers, N., Giger, W., Guenther, K., & Kohler, H. P. E. (2007). Elucidation of the ipso-substitution mechanism for side-chain cleavage of α-quaternary 4-nonylphenols and 4-t-butoxyphenol in sphingobium xenophagum bayram. Applied and Environmental Microbiology, 73(10), 3320-3326. https://doi.org/10.1128/AEM.02994-06
Emergence of biofilm-forming subpopulations upon exposure of <em>Escherichia coli</em> to environmental bactriophages
Lacqua, A., Wanner, O., Colangelo, T., Martinotti, M. G., & Landini, P. (2006). Emergence of biofilm-forming subpopulations upon exposure of Escherichia coli to environmental bactriophages. Applied and Environmental Microbiology, 72(1), 956-959. https://doi.org/10.1128/AEM.72.1.956-959.2006
Environmental fate of phenolic endocrine disruptors: Field and laboratory studies
Giger, W., Gabriel, Frédéric L. P., Jonkers, N., Wettstein, F. E., & Kohler, H. P. E. (2009). Environmental fate of phenolic endocrine disruptors: Field and laboratory studies. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 367(1904), 3941-3963. https://doi.org/10.1098/rsta.2009.0148
Global gene expression in <em>Escherichia coli</em> K-12 during short-term and long-term adaptation to glucose-limited continuous culture conditions
Franchini, A. G., & Egli, T. (2006). Global gene expression in Escherichia coli K-12 during short-term and long-term adaptation to glucose-limited continuous culture conditions. Microbiology, 152(7), 2111-2127. https://doi.org/10.1099/mic.0.28939-0
Inactivation of antibiotic resistant bacteria and resistance genes by ozone: from laboratory experiments to full-scale wastewater treatment
Czekalski, N., Imminger, S., Salhi, E., Veljkovic, M., Kleffel, K., Drissner, D., … Von Gunten, U. (2016). Inactivation of antibiotic resistant bacteria and resistance genes by ozone: from laboratory experiments to full-scale wastewater treatment. Environmental Science and Technology, 50(21), 11862-11871. https://doi.org/10.1021/acs.est.6b02640
Induction of the <I>yjbEFGH</I> operon is regulated by growth rate and oxygen concentration
Ionescu, M., Franchini, A., Egli, T., & Belkin, S. (2008). Induction of the yjbEFGH operon is regulated by growth rate and oxygen concentration. Archives of Microbiology, 189(3), 219-226. https://doi.org/10.1007/s00203-007-0311-0
Isomer-specific degradation and endocrine disrupting activity of nonylphenols
Gabriel, F. L. P., Routledge, E. J., Heidlberger, A., Rentsch, D., Guenther, K., Giger, W., … Kohler, H. P. E. (2008). Isomer-specific degradation and endocrine disrupting activity of nonylphenols. Environmental Science and Technology, 42(17), 6399-6408. https://doi.org/10.1021/es800577a
Isomer-specific determination of 4-nonylphenols using comprehensive two-dimensional gas chromatography/time-of-flight mass spectrometry
Eganhouse, R. P., Pontolillo, J., Gaines, R. B., Frysinger, G. S., Gabriel, F. L. P., Kohler, H. P. E., … Barber, L. B. (2009). Isomer-specific determination of 4-nonylphenols using comprehensive two-dimensional gas chromatography/time-of-flight mass spectrometry. Environmental Science and Technology, 43(24), 9306-9313. https://doi.org/10.1021/es902622r
Kinetics of membrane damage to high (HNA) and low (LNA) nucleic acid bacterial clusters in drinking water by ozone, chlorine, chlorine dioxide, monochloramine, ferrate(VI), and permanganate
Ramseier, M. K., von Gunten, U., Freihofer, P., & Hammes, F. (2011). Kinetics of membrane damage to high (HNA) and low (LNA) nucleic acid bacterial clusters in drinking water by ozone, chlorine, chlorine dioxide, monochloramine, ferrate(VI), and permanganate. Water Research, 45(3), 1490-1500. https://doi.org/10.1016/j.watres.2010.11.016