Researcher Portfolio

Dr. Diepold, Andreas

Biozentrum der Universität Basel, Eberhard Karls Universität Tübingen, Research Group Bacterial Secretion Systems, Alumni, Max Planck Institute for Terrestrial Microbiology, Max Planck Society, Research Group Bacterial Secretion Systems, Department of Ecophysiology, Max Planck Institute for Terrestrial Microbiology, Max Planck Society, University of Oxford

Researcher Profile

Position: Head of Research Group Bacterial Secretion Systems (Research Group Bacterial Secretion Systems, Department of Ecophysiology, Max Planck Institute for Terrestrial Microbiology, Max Planck Society)

Position: Diploma Student (Eberhard Karls Universität Tübingen)

Position: Doctoral Researcher (Biozentrum der Universität Basel)

Position: Postdoc (University of Oxford)

Position: Research Group Bacterial Secretion Systems, Alumni, Max Planck Institute for Terrestrial Microbiology, Max Planck Society

Researcher Homepage(s): Homepage Bacterial Secretion Systems

Additional IDs: ORCID: https://orcid.org/0000-0002-4475-3923

Researcher ID: https://pure.mpg.de/cone/persons/resource/persons254219

Research Fields: Bacterial Secretion Systems

External references

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Publications

(1 - 25 of 48)

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: Lindner, F., Grossmann, S., & Diepold, A. (2025). Light-controlled secretion and injection of proteins into eukaryotic cells by optogenetic control of the bacterial type III secretion system. In A. Baumschlager (Ed.), Optogenetics. Methods in Molecular Biology (pp. 115-131). Humana, New York, NY. doi:10.1007/978-1-0716-4047-0_9. [PubMan] : Lebon, C., Grossmann, S., Mann, G., Lindner, F., Koide, A., Koide, S., Diepold, A., & Hantschel, O. (2024). Cytosolic delivery of monobodies using the bacterial type III secretion system inhibits oncogenic BCR: ABL1 signaling. Cell Communication and Signaling, 22(1): 500. doi:10.1186/s12964-024-01874-6. [PubMan] : Lebon, C., Grossmann, S., Mann, G., Lindner, F., Koide, A., Koide, S., Diepold, A., & Hantschel, O. (2024). Cytosolic delivery of monobodies using the bacterial type III secretion system inhibits oncogenic BCR:ABL1 signaling. Research Square, https://doi.org/10.21203/rs.3.rs-4705983/v1. [PubMan] : Ermoli, F., Spahn, C. K., Glatter, T., & Diepold, A. (2024). Yersinia actively downregulates type III secretion and adhesion at higher cell densities. bioRxiv, 2024.06.27.601021. [PubMan] : Wimmi, S., Fleck, M., Helbig, C., Brianceau, C. F., Langenfeld, K., Szymanski, W. G., Angelidou, G., Glatter, T., & Diepold, A. (2024). Pilotins are mobile T3SS components involved in assembly and substrate specificity of the bacterial type III secretion system. Molecular Microbiology, 121, 304-323. doi:10.1111/mmi.15223. [PubMan] : Diepold, A. (2024). Defining assembly pathways by fluorescence microscopy. In L. Journet, & E. Cascales (Eds.), Bacterial Secretion Systems in Methods in Molecular Biology (pp. 383-394). Humana, New York, NY. doi:10.1007/978-1-0716-3445-5_24. [PubMan] : Lampaki, D., Diepold, A., & Glatter, T. (2024). In-depth quantitative proteomics analysis of the Pseudomonas aeruginosa secretome. In G. Bertoni (Ed.), Pseudomonas aeruginosa. Methods in Molecular Biology (pp. 197-211). doi:10.1007/978-1-0716-3473-8_14. [PubMan] : Wimmi, S., Balinovic, A., Brianceau, C. F., Pintor, K. L., Vielhauer, J., Turkowyd, B., Helbig, C., Fleck, M., Langenfeld, K., Kahnt, J., Glatter, T., Endesfelder, U., & Diepold, A. (2024). Cytosolic sorting platform complexes shuttle type III secretion system effectors to the injectisome in Yersinia enterocolitica. Nature Microbiology, 9, 185-199. doi:10.1038/s41564-023-01545-1. [PubMan] : Jakob, S., Steinchen, W., Hanßmann, J., Rosum, J., Langenfeld, K., Osorio-Valeriano, M., Steube, N., Giammarinaro, P. I., Hochberg, G. K. A., Glatter, T., Bange, G., Diepold, A., & Thanbichler, M. (2024). The virulence regulator VirB from Shigella flexneri uses a CTP-dependent switch mechanism to activate gene expression. Nature Communications, 15(1): 318. doi:10.1038/s41467-023-44509-z. [PubMan] : Lampaki, D., Diepold, A., & Glatter, T. (2023). In-depth quantitative proteomics analysis of the Pseudomonas aeruginosa secretome. In G. Bertoni, & S. Ferrara (Eds.), Pseudomonas aeruginosa: Methods and Protocols in Methods in Molecular Biology (pp. 197-211). Humana New York, NY. [PubMan] : Nikolić, I., Glatter, T., Ranković, T., Berić, T., Stanković, S., & Diepold, A. (2023). Repertoire and abundance of secreted virulence factors shape the pathogenic capacity of Pseudomonas syringae pv. aptata. Frontiers in Microbiology, 14: 1205257. doi:10.3389/fmicb.2023.1205257. [PubMan] : Nikolic, I., Glatter, T., Rankovic, T., Beric, T., Stankovic, S., & Diepold, A. (2023). Repertoire and abundance of secreted virulence factors shape the pathogenic capacity of Pseudomonas syringae pv. aptata. bioRxiv: the preprint server for biology, 2023.03.20.533544. [PubMan] : Schott, S., Scheuer, R., Ermoli, F., Glatter, T., Evguenieva-Hackenberg, E., & Diepold, A. (2023). A ParDE toxin–antitoxin system is responsible for the maintenance of the Yersinia virulence plasmid but not for type III secretion-associated growth inhibition. Frontiers in Cellular and Infection Microbiology, 13: 166077. doi:10.3389/fcimb.2023.1166077. [PubMan] : Carsten, A., Rudolph, M., Weihs, T., Schmidt, R., Jansen, I., Wurm, C. A., Diepold, A., Failla, A. V., Wolters, M., & Aepfelbacher, M. (2023). MINFLUX imaging of a bacterial molecular machine at nanometer resolution. Methods and Applications in Fluorescence, 11: 015004. doi:10.1088/2050-6120/aca880. [PubMan] : Prindle, J. R., Wang, Y., Rocha, J. M., Diepold, A., & Gahlmann, A. (2022). Distinct cytosolic complexes containing the type III secretion system ATPase resolved by three-dimensional single-molecule tracking in live Yersinia enterocolitica. Microbiology Spectrum, 10(6): e0174422. doi:10.1128/spectrum.01744-22. [PubMan] : Unni, R., Pintor, K. L., Diepold, A., & Unterweger, D. (2022). Presence and absence of type VI secretion systems in bacteria. Microbiology, 168(4): 001151. doi:10.1099/mic.0.001151. [PubMan] : Gurung, J. M., Amer, A. A. A., Chen, S., Diepold, A., & Francis, M. S. (2022). Type III secretion by Yersinia pseudotuberculosis is reliant upon an authentic N-terminal YscX secretor domain. Molecular Microbiology, 117, 886-906. doi:10.1111/mmi.14880. [PubMan] : Prindle, J. R., Wang, Y., Rocha, J., Diepold, A., & Gahlmann, A. (2022). Distinct cytosolic complexes containing the type III secretion system ATPase resolved by 3D single-molecule tracking in live Yersinia enterocolitica. bioRxiv: the preprint server for biology, 2022.04.25.488798. [PubMan] : Lindner, F., & Diepold, A. (2022). Optogenetics in bacteria - applications and opportunities. FEMS Microbiology Reviews, 46(2): fuab055. doi:10.1093/femsre/fuab055. [PubMan] : Wimmi, S., Fleck, M., Helbig, C., Brianceau, C. F., Langenfeld, K., Szymanski, W. G., Angelidou, G., Glatter, T., & Diepold, A. (2022). Pilotins are mobile T3SS components involved in assembly and substrate specificity of the bacterial type III secretion system. bioRxiv: the preprint server for biology, 2022.02.14.480308. [PubMan] : Wimmi, S., Balinovic, A., Jeckel, H., Selinger, L., Lampaki, D., Eisemann, E., Meuskens, I., Linke, D., Drescher, K., Endesfelder, U., & Diepold, A. (2021). Dynamic relocalization of cytosolic type III secretion system components prevents premature protein secretion at low external pH. Nature Communications, 12(1): 1625. doi:10.1038/s41467-021-21863-4. [PubMan] : Milne-Davies, B., Wimmi, S., & Diepold, A. (2021). Adaptivity and dynamics in type III secretion systems. Molecular Microbiology, 115(3), 395-411. doi:10.1111/mmi.14658. [PubMan] : Berger, C., Ravelli, R. B. G., Lopez-Iglesias, C., Kudryashev, M., Diepold, A., & Peters, P. J. (2021). Structure of the Yersinia injectisome in intracellular host cell phagosomes revealed by cryo FIB electron tomography. Journal of Structural Biology, 213(1): 107701. doi:10.1016/j.jsb.2021.107701. [PubMan] : Wimmi, S., Balinovic, A., Jeckel, H., Selinger, L., Lampaki, D., Eisemann, E., Meuskens, I., Linke, D., Drescher, K., Endesfelder, U., & Diepold, A. (2021). Author Correction: Dynamic relocalization of cytosolic type III secretion system components prevents premature protein secretion at low external pH. Nature Communications, 12(1), 2685-2685. doi:10.1038/s41467-021-23080-5. [PubMan] : Lindner, F., Milne-Davies, B., Langenfeld, K., Stiewe, T., & Diepold, A. (2020). LITESEC-T3SS-Light-controlled protein delivery into eukaryotic cells with high spatial and temporal resolution. NATURE COMMUNICATIONS, 11(1): 2381. doi:10.1038/s41467-020-16169-w. [PubMan]