| Date | Topic | Name |
| 14.04. | Orga | all |
| | Bayesian modeling | Niccolò |
| 21.04. | Selection & distribution of theses, collecting questions | all |
| | Christie, David Alan (1998) Genome Rearrangement Problems, University of Glasgow. How to present to not having solved a problem (Chapter 3) and motivate a putatively irrelevant result (Chapter 1.1, second last paragraph). | Leonard |
| 28.04. | Application talks in U10-146 and online |
| | 13:00 Franziska, 13:30 Mads, break, 15:00 Xaver |
| 05.05. | Shannon, Claude Elwood (1940) An algebra for theoretical genetics, MIT | Niccolò |
| 12.05. | Garg, Manik (2022) Prognostic biomarker discovery from omics data using machine learning approaches Cumulative thesis, European Bioinformatics Institute, University of Cambridge | Max |
| 19.05. | Nabatanzi, Margaret (2022). Bioinformatics Tool and Web Server Development Focusing on Structural Bioinformatics Applications. Rhodes University, South Africa | Daniel |
| 26.05. | Kanter, Frederic Georg (2023). Deep Learning for Mass Spectrometry Imaging and Image Registration. University of Lübeck. | Ann-Cathrin |
| 02.06. | | Andreas |
| 09.06. | del Castillo Cerecer, I. D. (2023). A systems biology understanding of protein constraints in the metabolism of budding yeasts. Chalmers Tekniska Hogskola, Sweden. | Emanuel |
| 16.06. | | Addie |
| 23.06. | Rescheneder, P. (2022). Fast, accurate and user-friendly alignment of short and long read data with high mismatch rates, Vienna. How to base a thesis on your nature publications. | Muhammad |
| 30.06. | Königs, C. (2025). PharMeBINet: a general-Purpose approach for the integration of heterogeneous biomedical data Sources and its application to drug-drug interaction prediction, Universität Bielefeld. | Vanessa |
| 07.07. | Czaja, B.E. (2020). Cell resolved blood flow modeling with the Lattice Boltzmann method, Amsterdam. | Benjamin S |
| 14.07. | | Leonie |
| 21.07. | Metagenomic data stratified using artificial intelligence by Jakob Nybo Nissen | Benedikt |