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- Advancement of clinical proteomics for systems medicine
- Bridging from the single cell to the cell population – Epo-induced cellular responses and erythroleukemia
- Deciphering tumor microenvironment interactions determining lung cancer development
- Mechanisms controlling the compensation of liver injury and towards model-based biomarkers for early detection of liver cancer
- Application of dynamic pathway modelling for personalized medicine
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Research Group Mammalian Cell Cycle Control Mechanisms
Prof. Dr. Ingrid Hoffmann
Multipolar mitotic spindle
© dkfz.de
Initiation and propagation of cancer is not possible without cell division (mitosis) which depends on small cellular organelles known as centrosomes. Similar to DNA replication, the centrosome is duplicated only once within a normal cell cycle. Having the correct number of centrosomes is crucial for proper chromosome segregation during cell division and for the prevention of genomic instability, a hallmark of many cancer cells. Failure to properly duplicate centrosomes results in supernumerary centrosomes, which are frequently found in tumors. The research group Cell Cycle Control and Carcinogenesis is studying the molecular mechanisms underlying centrosome duplication. The aim is to identify and characterize proteins that regulate this process. Our focus is placed on the key regulator of centriole duplication, the polo-like kinase Plk4.
Other projects in the lab are aimed at (1) understanding how misorientation of the mitotic spindle contributes to cancer development (2) unraveling the mechanisms of drug resistance that imposes a major problem in cancer therapy.
