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A pipeline for developing and testing staining protocols for flow cytometry, demonstrated with SYBR Green I and propidium iodide viability staining
Nescerecka, A., Hammes, F., & Juhna, T. (2016). A pipeline for developing and testing staining protocols for flow cytometry, demonstrated with SYBR Green I and propidium iodide viability staining. Journal of Microbiological Methods, 131, 172-180. https://doi.org/10.1016/j.mimet.2016.10.022
Routine bacterial analysis with automated flow cytometry
Van Nevel, S., Koetzsch, S., Weilenmann, H. U., Boon, N., & Hammes, F. (2013). Routine bacterial analysis with automated flow cytometry. Journal of Microbiological Methods, 94(2), 73-76. https://doi.org/10.1016/j.mimet.2013.05.007
Alternative primer sets for PCR detection of genotypes involved in bacterial aerobic BTEX degradation: distribution of the genes in BTEX degrading isolates and in subsurface soils of a BTEX contaminated industrial site
Hendrickx, B., Junca, H., Vosahlova, J., Lindner, A., Rüegg, I., Bucheli-Witschel, M., … Springael, D. (2006). Alternative primer sets for PCR detection of genotypes involved in bacterial aerobic BTEX degradation: distribution of the genes in BTEX degrading isolates and in subsurface soils of a BTEX contaminated industrial site. Journal of Microbiological Methods, 64(2), 250-265. https://doi.org/10.1016/j.mimet.2005.04.018
Determination of polyhydroxyalkanoates in activated sludge by ion chromatographic and enzymatic methods
Hesselmann, R. P. X., Fleischmann, T., Hany, R., & Zehnder, A. J. B. (1999). Determination of polyhydroxyalkanoates in activated sludge by ion chromatographic and enzymatic methods. Journal of Microbiological Methods, 35(2), 111-119. https://doi.org/10.1016/S0167-7012(98)00107-9
Molecular-based methods can contribute to assessments of toxicological risks and bioremediation strategies
Power, M., van der Meer, J. R., Tchelet, R., Egli, T., & Eggen, R. (1998). Molecular-based methods can contribute to assessments of toxicological risks and bioremediation strategies. Journal of Microbiological Methods, 32(2), 107-119. https://doi.org/10.1016/S0167-7012(98)00018-9
Specific growth rates of natural microbial communities measured by adenine nucleotide pool turnover
Karl, D. M., Jones, D. R., Novitsky, J. A., Winn, C. D., & Bossard, P. (1987). Specific growth rates of natural microbial communities measured by adenine nucleotide pool turnover. Journal of Microbiological Methods, 6(4), 221-235. https://doi.org/10.1016/0167-7012(87)90051-0
Measurement and significance of ATP and adenine nucleotide pool turnover in microbial cells and environmental samples
Karl, D. M., & Bossard, P. (1985). Measurement and significance of ATP and adenine nucleotide pool turnover in microbial cells and environmental samples. Journal of Microbiological Methods, 3(3-4), 125-139. https://doi.org/10.1016/0167-7012(85)90040-5