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research consortium focused on exploring and leveraging non-canonical G-protein signaling pathways for the purpose of establishing new therapeutic approaches. You will use cell-based assays (bioluminescence
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“Cellular Plasticity in Myeloid Malignancies: From Mechanisms to Therapies”. In this CRC we will focus on myeloid malignancies as a model to dissect the various molecular mechanisms that enable and regulate
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“Mitochondrial RNA modification- driven metabolic plasticity in leukemic stem cells and drug resistance“ we are looking for a PhD student. The project is is part of the SFB/CRC 1709 “Cellular Plasticity in Myeloid
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assays: Establish cultures of host phytoplankton and their parasitoids to investigate infection dynamics under controlled conditions. Single‑cell genomics: Apply single‑cell sequencing to characterize
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data integration, cancer systems biology, and single-cell analysis, with strong links to clinical and translational oncology. Our work is based in the dynamic research environment of Heidelberg
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Description The MAPK pathway plays crucial roles in cancer cell proliferation, survival, and therapy resistance. This project aims to dissect the compartment-specific regulation of ERK1/2 signaling
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“Cellular Plasticity in Myeloid Malignancies: From Mechanisms to Therapies”. In this CRC we will focus on myeloid malignancies as a model to dissect the various molecular mechanisms that enable and regulate
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the areas of biochemistry, structural biology, biophysics, cell biology, systems biology, and computational biology. We are looking for outstanding graduates from all over the world to join our network
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/ cellular therapy in a clinically highly relevant research area. The focus of the groups “Innate Immune Regulation in Cancer and Stem Cell Transplantation“ (Head: Prof. Dr. med. Hendrik Poeck) and “Immune
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of biochemistry, structural biology, biophysics, cell biology, systems biology, and computational biology. Our community IMPRS-ML brings together two renowned Max Planck Institutes, the Max Planck Institute