Bergh, B. van den, Schramke, H., Michiels, J. E., Kimkes, T. E. P., Radzikowski, J. L., Schimpf, J., Vedelaar, S. R., Burschel, S., Dewachter, L., Lončar, N., Schmidt, A., Meijer, T., Fauvart, M., Friedrich, T., Michiels, J., & Heinemann, M. [ca. 2022]. Mutations in respiratory complex I promote antibiotic persistence through alterations in intracellular acidity and protein synthesis [Cd]. Freiburg: Universität. https://doi.org/10.1038/s41467-022-28141-x
ISO-690 (author-date, English)BERGH, Bram van den, SCHRAMKE, Hannah, MICHIELS, Joran Elie, KIMKES, Tom E. P., RADZIKOWSKI, Jakub Leszek, SCHIMPF, Johannes, VEDELAAR, Silke R., BURSCHEL, Sabrina, DEWACHTER, Liselot, LONČAR, Nikola, SCHMIDT, Alexander, MEIJER, Tim, FAUVART, Maarten, FRIEDRICH, Thorsten, MICHIELS, Jan und HEINEMANN, Matthias, 2022. Mutations in respiratory complex I promote antibiotic persistence through alterations in intracellular acidity and protein synthesis. Freiburg: Universität.
Modern Language Association 9th editionBergh, B. van den, H. Schramke, J. E. Michiels, T. E. P. Kimkes, J. L. Radzikowski, J. Schimpf, S. R. Vedelaar, S. Burschel, L. Dewachter, N. Lončar, A. Schmidt, T. Meijer, M. Fauvart, T. Friedrich, J. Michiels, und M. Heinemann. Mutations in respiratory complex I promote antibiotic persistence through alterations in intracellular acidity and protein synthesis. cd, Universität, 2022, https://doi.org/10.1038/s41467-022-28141-x.
Mohr Siebeck - Recht (Deutsch - Österreich)Bergh, Bram van den/Schramke, Hannah/Michiels, Joran Elie/Kimkes, Tom E. P./Radzikowski, Jakub Leszek/Schimpf, Johannes u. a.: Mutations in respiratory complex I promote antibiotic persistence through alterations in intracellular acidity and protein synthesis, Freiburg 2022.
Emerald - HarvardBergh, B. van den, Schramke, H., Michiels, J.E., Kimkes, T.E.P., Radzikowski, J.L., Schimpf, J., Vedelaar, S.R., Burschel, S., Dewachter, L., Lončar, N., Schmidt, A., Meijer, T., Fauvart, M., Friedrich, T., Michiels, J. und Heinemann, M. (2022), Mutations in respiratory complex I promote antibiotic persistence through alterations in intracellular acidity and protein synthesis, Bd. , Universität, Freiburg, verfügbar unter:https://doi.org/10.1038/s41467-022-28141-x.