| Effect of cryopreservation and lyophilization on viability and growth of strict anaerobic human gut microbes
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| Detecting the genomic signal of polygenic adaptation and the role of epistasis in evolution
Csilléry, K., Rodríguez-Verdugo, A., Rellstab, C., & Guillaume, F. (2018). Detecting the genomic signal of polygenic adaptation and the role of epistasis in evolution. Molecular Ecology, 27(3), 606-612. https://doi.org/10.1111/mec.14499 |
| Ecology and evolution of metabolic cross-feeding interactions in bacteria
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| Division of labor in bacteria
Dal Co, A., Brannon, C., & Ackermann, M. (2018). Division of labor in bacteria. eLife, 7, e38578 (3 pp.). https://doi.org/10.7554/eLife.38578 |
| Spatiotemporal scales of river-groundwater interaction – The role of local interaction processes and regional groundwater regimes
Epting, J., Huggenberger, P., Radny, D., Hammes, F., Hollender, J., Page, R. M., … Auckenthaler, A. (2018). Spatiotemporal scales of river-groundwater interaction – The role of local interaction processes and regional groundwater regimes. Science of the Total Environment, 618, 1224-1243. https://doi.org/10.1016/j.scitotenv.2017.09.219 |
| A uniform bacterial growth potential assay for different water types
Farhat, N., Hammes, F., Prest, E., & Vrouwenvelder, J. (2018). A uniform bacterial growth potential assay for different water types. Water Research, 142, 227-235. https://doi.org/10.1016/j.watres.2018.06.010 |
| Metabolite toxicity slows local diversity loss during expansion of a microbial cross-feeding community
Goldschmidt, F., Regoes, R. R., & Johnson, D. R. (2018). Metabolite toxicity slows local diversity loss during expansion of a microbial cross-feeding community. ISME Journal, 12(1), 136-144. https://doi.org/10.1038/ismej.2017.147 |
| The empirical fluctuation pattern of <em>E. coli</em> division control
Grilli, J., Cadart, C., Micali, G., Osella, M., & Cosentino Lagomarsino, M. (2018). The empirical fluctuation pattern of E. coli division control. Frontiers in Microbiology, 9, 1541 (10 pp.). https://doi.org/10.3389/fmicb.2018.01541 |
| The role of copper for methane-oxidizing bacteria in lakes
Guggenheim, C. S. (2018). The role of copper for methane-oxidizing bacteria in lakes [Doctoral dissertation, ETH Zurich]. https://doi.org/10.3929/ethz-b-000337932 |
| Ion trapping of amines in protozoa: a novel removal mechanism for micropollutants in activated sludge
Gulde, R., Anliker, S., Kohler, H. P. E., & Fenner, K. (2018). Ion trapping of amines in protozoa: a novel removal mechanism for micropollutants in activated sludge. Environmental Science and Technology, 52(1), 52-60. https://doi.org/10.1021/acs.est.7b03556 |
| Editorial: Microbial safety in water resources
Hong, P. Y., Julian, T. R., & Jumat, M. R. (2018). Editorial: Microbial safety in water resources. Frontiers in Microbiology, 9, 3064 (3 pp.). https://doi.org/10.3389/fmicb.2018.03064 |
| Reusing treated wastewater: consideration of the safety aspects associated with antibiotic-resistant bacteria and antibiotic resistance genes
Hong, P. Y., Julian, T. R., Pype, M. L., Jiang, S. C., Nelson, K. L., Graham, D., … Manaia, C. M. (2018). Reusing treated wastewater: consideration of the safety aspects associated with antibiotic-resistant bacteria and antibiotic resistance genes. Water, 10(3), 244 (22 pp.). https://doi.org/10.3390/w10030244 |
| Escherichia coli in Harare - Wie gelangt das Bakterium in die Haushalte und woher stammt es?
Julian, T. R. (2018). Escherichia coli in Harare - Wie gelangt das Bakterium in die Haushalte und woher stammt es? Aqua & Gas, 98(5), 60-64. |
| High time-resolution simulation of <i>E. coli</i> on hands reveals large variation in microbial exposures amongst Vietnamese farmers using human excreta for agriculture
Julian, T. R., Vithanage, H. S. K., Chua, M. L., Kuroda, M., Pitol, A. K., Nguyen, P. H. L., … Harada, H. (2018). High time-resolution simulation of E. coli on hands reveals large variation in microbial exposures amongst Vietnamese farmers using human excreta for agriculture. Science of the Total Environment, 635, 120-131. https://doi.org/10.1016/j.scitotenv.2018.04.100 |
| Quantifying human-environment interactions using videography in the context of infectious disease transmission
Julian, T. R., Bustos, C., Kwong, L. H., Badilla, A. D., Lee, J., Bischel, H. N., & Canales, R. A. (2018). Quantifying human-environment interactions using videography in the context of infectious disease transmission. Geospatial Health, 13(1), 195-197. https://doi.org/10.4081/gh.2018.631 |
| Labeling and protecting <i>N</i>-terminal protein positions by <i>β</i>-peptidyl aminopeptidase-catalyzed attachment of <i>β</i>-amino-acid residues – insulin as a first example
Kolesinska, B., Wasko, J., Kaminski, Z., Geueke, B., Kohler, H. P. E., & Seebach, D. (2018). Labeling and protecting N-terminal protein positions by β-peptidyl aminopeptidase-catalyzed attachment of β-amino-acid residues – insulin as a first example. Helvetica Chimica Acta, 101(1), e1700259 (10 pp.). https://doi.org/10.1002/hlca.201700259 |
| Function and functional redundancy in microbial systems
Louca, S., Polz, M. F., Mazel, F., Albright, M. B. N., Huber, J. A., O'Connor, M. I., … Wegener Parfrey, L. (2018). Function and functional redundancy in microbial systems. Nature Ecology & Evolution, 2, 936-943. https://doi.org/10.1038/s41559-018-0519-1 |
| Effects of antibiotics on individual bacterial cells
Manjarrez Casas, A. M. (2018). Effects of antibiotics on individual bacterial cells [Doctoral dissertation, ETH Zurich]. https://doi.org/10.3929/ethz-b-000309075 |
| Metabolic specialization of denitrifiers in permeable sediments controls N<sub>2</sub>O emissions
Marchant, H. K., Tegetmeyer, H. E., Ahmerkamp, S., Holtappels, M., Lavik, G., Graf, J., … Kuypers, M. M. M. (2018). Metabolic specialization of denitrifiers in permeable sediments controls N2O emissions. Environmental Microbiology, 20(12), 4486-4502. https://doi.org/10.1111/1462-2920.14385 |
| Concurrent processes set <i>E. coli</i> cell division
Micali, G., Grilli, J., Osella, M., & Cosentino Lagomarsino, M. (2018). Concurrent processes set E. coli cell division. Science Advances, 4(11), eaau3324 (7 pp.). https://doi.org/10.1126/sciadv.aau3324 |