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Results: 55
Number of items: 55
  • Open Access
    Liu, S., Huang, Y., Jensen, S., Laman, P., Kramer, G., Zaat, S. A. J., & Brul, S. (2024). Molecular physiological characterization of the dynamics of persister formation in Staphylococcus aureus. Antimicrobial Agents and Chemotherapy, 68(1), Article e0085023. https://doi.org/10.1128/aac.00850-23
  • Open Access
    Liu, S., Laman, P., Jensen, S., van der Wel, N. N., Kramer, G., Zaat, S. A. J., & Brul, S. (2024). Isolation and characterization of persisters of the pathogenic microorganism Staphylococcus aureus. iScience, 27(6), Article 110002. https://doi.org/10.1016/j.isci.2024.110002
  • Open Access
    Khanal, S., Kim, T. D., Begyn, K., Duverger, W., Kramer, G., Brul, S., Rajkovic, A., Devlieghere, F., Heyndrickx, M., Schymkowitz, J., Rousseau, F., Broussolle, V., Michiels, C., & Aertsen, A. (2024). Mechanistic insights into the adaptive evolvability of spore heat resistance in Bacillus cereus sensu lato. International Journal of Food Microbiology, 418, Article 110709. https://doi.org/10.1016/j.ijfoodmicro.2024.110709
  • Open Access
    Naalden, D., Dermauw, W., Ilias, A., Baggerman, G., Mastop, M., Silven, J. J. M., van Kleeff, P. J. M., Dangol, S., Gaertner, N. F., Roseboom, W., Kwaaitaal, M., Kramer, G., van der Burg, H., Vontas, J., Van Leeuwen, T., Kant, M. R., & Schuurink, R. C. (2024). Interaction of whitefly effector G4 with tomato proteins impacts whitefly performance. Molecular Plant-Microbe Interactions, 37(2), 98-111. https://doi.org/10.1094/MPMI-04-23-0045-R
  • Open Access
    Šimkovicová, M., Kramer, G., Rep, M., & Takken, F. L. W. (2024). Tomato R-gene-mediated resistance against Fusarium wilt originates in roots and extends to shoots via xylem to limit pathogen colonization. Frontiers in Plant Science, 15, Article 1384431. https://doi.org/10.3389/fpls.2024.1384431
  • Open Access
    van Kleeff, P. J. M., Mastop, M., Sun, P., Dangol, S., van Doore, E., Dekker, H. L., Kramer, G., Lee, S., Ryu, C.-M., de Vos, M., & Schuurink, R. (2024). Discovery of three Bemisia tabaci effectors and their effect on gene expression in planta. Molecular Plant-Microbe Interactions, 37(4), 380-395. https://doi.org/10.1094/MPMI-04-23-0044-R
  • Kramer, G. (2023). MassIVE MSV000092140 - Integrative metabolomics and proteomics allow the global intracellular characterization of Bacillus subtilis cells and spores [Data set]. MassIVE. https://doi.org/10.25345/c5ww77923
  • Open Access
    Yu, B., Kanaan, J., Shames, H., Wicander, J., Aryal, M., Li, Y., Korza, G., Brul, S., Kramer, G., Li, Y., Nichols, F. C., Hao, B., & Setlow, P. (2023). Identification and characterization of new proteins crucial for bacterial spore resistance and germination. Frontiers in Microbiology, 14, Article 1161604. https://doi.org/10.3389/fmicb.2023.1161604
  • Open Access
    Seekles, S. J., van den Brule, T., Punt, M., Dijksterhuis, J., Arentshorst, M., Ijadpanahsaravi, M., Roseboom, W., Meuken, G., Ongenae, V., Zwerus, J., Ohm, R. A., Kramer, G., Wösten, H. A. B., de Winde, J. H., & Ram, A. F. J. (2023). Compatible solutes determine the heat resistance of conidia. Fungal biology and biotechnology, 10, Article 21. https://doi.org/10.1186/s40694-023-00168-9
  • Open Access
    Huang, Y. (2023). Multi-omics of Bacillus subtilis spores and cells sheds new light on bacterial survival. [Thesis, fully internal, Universiteit van Amsterdam].
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