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opportunity to contribute to cutting-edge research aimed at understanding microbiome-driven mechanisms and developing novel strategies for disease prevention and treatment. You will collaborate with renowned
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on cells of the innate immune system such as macrophages and neutrophils. In particular, we explore mechanisms of malignant transformation, cellular differentiation and the control of immune cell
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on uncovering mechanisms of CNS myelination and neuroinflammation. The lab combines advanced in vivo imaging approaches with complex models of demyelinating disease to investigate glial cell dynamics, immune-glia
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in glia-neuron metabolic interactions, and the underlying regulatory mechanisms are studied. A greater understanding of the metabolic plasticity of the nervous system will lay the basis for better
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! RESPONSIBILITIES: You will elucidate the molecular mechanisms driving the development of distinct malignant lymphoma subtypes and contribute to the identification of predictive biomarkers and novel therapeutic
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to evaluate the immune-modulatory effects of HER2-targeting ADCs Analyze and interpret data related to antitumor immunity, cell death mechanisms, and DNA damage response Present research findings, progress
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to cancer, metabolic disorders, and infections. As part of this position, you will have the opportunity to contribute to cutting-edge research aimed at understanding microbiome-driven mechanisms and
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. These chronic immune disturbances are associated with an increased risk of non-AIDS-related comorbidities, including cardiovascular disease, neurocognitive disorders, and accelerated aging. The exact mechanisms
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damage are responsible for many of the mutations that cause cancer and treatment resistance. But their dynamics, the molecular machinery involved, and their role in disease are still poorly understood