Researcher Portfolio

 
   

null Damljanović, Vladimir

Department Solid State Spectroscopy (Bernhard Keimer), Max Planck Institute for Solid State Research, Max Planck Society  

 

Researcher Profile

 
Position: Department Solid State Spectroscopy (Bernhard Keimer), Max Planck Institute for Solid State Research, Max Planck Society
Researcher ID: https://pure.mpg.de/cone/persons/resource/persons279871

External references

 
WorldCat Search for Damljanović, Vladimir
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Publications

 
  (1 - 25 of 85)
 : Ullrich, T., Pollmann, C., Ritter, M., Haaf, J., Aghaallaei, A., Tesakov, I., Hatskovska, V., El-Riz, M., Maksymenko, K., Kandabarau, S., Klimiankou, M., Lengerke, C., Welte, K., Hernandez-Alvarez, B., Müller, P., Lupas, A., Piehler, J., Skokowa, J., & ElGamacy, M. (2025). Tuning of G-CSFR signaling by de novo designed agonists. Molecular Therapy, 33(11), 5741-5759. doi:10.1016/j.ymthe.2025.08.031. [PubMan] : Ullrich, T., Pollmann, C., Ritter, M., Haaf, J., Aghaallaei, A., Tesakov, I., Hatskovska, V., El-Riz, M., Maksymenko, K., Kandabarau, S., Klimiankou, M., Lengerke, C., Welte, K., Hernandez-Alvarez, B., Müller, P., Lupas, A., Piehler, J., Skokowa, J., & ElGamacy, M. (2025). Tuning of G-CSFR signaling by de novo designed agonists. Molecular Therapy, 33(11), 5741-5759. doi:10.1016/j.ymthe.2025.08.031. [PubMan] : Samareh, B., Klimenkova, O., Aghaallaei, N., Cheng, L., Zikic, A., Loghmani, H., Müller, P., Suttorp, M., Welte, K., Skokowa, J., & Morishima, T. (2025). NAMPT-mediated deacetylation of HCLS1 protein promotes clonogenic growth of pediatric CML cells. Experimental Hematology, 148: 104801. doi:10.1016/j.exphem.2025.104801. [PubMan] : Toulany, N., Morales-Navarrete, H., Capek, D., Grathwohl, J., Ünalan, M., & Müller, P. (2024). TwinNet: Quantitative analysis of developmental dynamics with artificial intelligence. Poster presented at 83rd Annual Meeting of the Society for Developmental Biology (SDB 2024), Atlanta, GA, USA. [PubMan] : Ullrich, T., Pollmann, C., Ritter, M., Haaf, J., Aghaallae, N., Tesakov, I., El-Riz, M., Maksymenko, K., Hatskovska, V., Kandabarau, S., Klimiankou, M., Lengerke, C., Welte, K., Hernandez-Alvarez, B., Müller, P., Lupas, A., Piehler, J., Skokowa, J., & ElGamacy, M. (submitted). Tuning of granulopoietic signaling by de novo designed agonists. [PubMan] : Ullrich, T., Pollmann, C., Ritter, M., Haaf, J., Aghaallae, N., Tesakov, I., El-Riz, M., Maksymenko, K., Hatskovska, V., Kandabarau, S., Klimiankou, M., Lengerke, C., Welte, K., Hernandez-Alvarez, B., Müller, P., Lupas, A., Piehler, J., Skokowa, J., & ElGamacy, M. (submitted). Tuning of granulopoietic signaling by de novo designed agonists. [PubMan] : Pomreinke, A., & Müller, P. (2024). Zebrafish nampt-a mutants are viable despite perturbed primitive hematopoiesis. Hereditas, 161(1): 14. doi:10.1186/s41065-024-00318-y. [PubMan] : Knabl, P., Schauer, A., Pomreinke, A., Zimmermann, B., Rogers, K., Čapek, D., Müller, P., & Genikhovich, G. (2024). Analysis of SMAD1/5 target genes in a sea anemone reveals ZSWIM4-6 as a novel BMP signaling modulator. eLife, 13: e80803. doi:10.7554/eLife.80803. [PubMan] : Toulany, N., Morales-Navarrete, H., Čapek, D., Grathwohl, J., Ünalan, M., & Müller, P. (2023). Uncovering developmental time and tempo using deep learning. Nature Methods, 20(12), 2000-2010. doi:10.1038/s41592-023-02083-8. [PubMan] : Maksymenko, K., Maurer, A., Aghaallaei, N., Barry, C., Borbarán-Bravo, N., Ullrich, T., Dijkstra, T., Hernandez-Alvarez, B., Müller, P., Lupas, A., Skokowa, J., & ElGamacy, M. (2023). The design of functional proteins using tensorized energy calculations. Cell Reports Methods, 3(8): 100560. doi:10.1016/j.crmeth.2023.100560. [PubMan] : Maksymenko, K., Maurer, A., Aghaallaei, N., Barry, C., Borbarán-Bravo, N., Ullrich, T., Dijkstra, T., Hernandez-Alvarez, B., Müller, P., Lupas, A., Skokowa, J., & ElGamacy, M. (2023). The design of functional proteins using tensorized energy calculations. Cell Reports Methods, 3(8): 100560. doi:10.1016/j.crmeth.2023.100560. [PubMan] : Müller, P. (2023). AI identifies developmental defects and drug mechanisms in embryos. Nature Methods, 20(6), 793-794. doi:10.1038/s41592-023-01872-5. [PubMan] : Čapek, D., Safroshkin, M., Morales-Navarrete, H., Toulany, N., Arutyunov, G., Kurzbach, A., Bihler, J., Hagauer, J., Kick, S., Jones, F., Jordan, B., & Müller, P. (2023). EmbryoNet: using deep learning to link embryonic phenotypes to signaling pathways. Nature Methods, 20(6), 815-823. doi:10.1038/s41592-023-01873-4. [PubMan] : Kuhn, T., Landge, A., Mörsdorf, D., Coßmann, J., Gerstenäcker, J., Čapek, D., Müller, P., & Gebhardt, J. (2022). Single-molecule tracking of Nodal and Lefty in live zebrafish embryos supports hindered diffusion model. Nature Communications, 13: 6101. doi:10.1038/s41467-022-33704-z. [PubMan] : Preiß, H., Kögler, A., Mörsdorf, D., Čapek, D., Soh, G., Rogers, K., Morales-Navarrete, H., Almuedo-Castillo, M., & Müller, P. (2022). Regulation of Nodal signaling propagation by receptor interactions and positive feedback. eLife, 11: e66397. doi:10.7554/eLife.66397. [PubMan] : Skokowa, J., Hernandez Alvarez, B., Coles, M., Ritter, M., Nasri, M., Haaf, J., Aghaallaei, N., Xu, Y., Mir, P., Krahl, A.-C., Rogers, K., Maksymenko, K., Bajoghli, B., Welte, K., Lupas, A., Müller, P., & ElGamacy, M. (2022). A topological refactoring design strategy yields highly stable granulopoietic proteins. Nature Communications, 13(1): 2948. doi:10.1038/s41467-022-30157-2. [PubMan] : Skokowa, J., Hernandez Alvarez, B., Coles, M., Ritter, M., Nasri, M., Haaf, J., Aghaallaei, N., Xu, Y., Mir, P., Krahl, A.-C., Rogers, K., Maksymenko, K., Bajoghli, B., Welte, K., Lupas, A., Müller, P., & ElGamacy, M. (2022). A topological refactoring design strategy yields highly stable granulopoietic proteins. Nature Communications, 13(1): 2948. doi:10.1038/s41467-022-30157-2. [PubMan] : Maksymenko, K., Hernandez Alvarez, B., Ullrich, T., Müller, P., Skokowa, J., Lupas, A., & ElGamacy, M. (2022). Damietta: A Tensorised Protein Design Engine, and Its Application in Therapeutic Protein Design. In Advances in Protein Folding, Evolution and Design (APFED 2022) (pp. 67). [PubMan] : Maksymenko, K., Hernandez Alvarez, B., Ullrich, T., Müller, P., Skokowa, J., Lupas, A., & ElGamacy, M. (2022). Damietta: A Tensorised Protein Design Engine, and Its Application in Therapeutic Protein Design. In Advances in Protein Folding, Evolution and Design (APFED 2022) (pp. 67). [PubMan] : Maksymenko, K., Müller, P., Skokowa, J., Lupas, A., & ElGamacy, M. (2022). Protein design of growth factor inhibitors. In Advances in Protein Folding, Evolution and Design (APFED 2022) (pp. 29). [PubMan] : Maksymenko, K., Skokowa, J., Lupas, A., Müller, P., & ElGamacy, M. (2021). De novo Protein Design of Vascular Endothelial Growth Factor Inhibitors. Protein Science, 30(Supplement 1): 140, 61. [PubMan] : Maksymenko, K., Skokowa, J., Lupas, A., Müller, P., & ElGamacy, M. (2021). De novo Protein Design of Vascular Endothelial Growth Factor Inhibitors. Protein Science, 30(Supplement 1): 140, 61. [PubMan] : Čapek, D., Ünalan, M., & Müller, P. (2021). Wie Tiere sich selbst konstruieren. Biospektrum, 2021(05), 473-479. doi:10.1007/s12268-021-1622-4. [PubMan] : Balos, V., Müller, P., Jakob, G., Kläui, M., & Sajadi, M. (2021). Imprinting the complex dielectric permittivity of liquids into the spintronic terahertz emission. Applied Physics Letters, 119(9): 091104. doi:10.1063/5.0056909. [PubMan] : Soh, G., Kögler, A., & Müller, P. (2021). A Simple and Effective Transplantation Device for Zebrafish Embryos. Journal of Visualized Experiments, 2021: 174. doi:10.3791/62767. [PubMan]