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. And it still does. Realizing these potentials by way of research and development is one of the most important challenges in state-of-the-art biomedical engineering. Our research is focused
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the astounding progress of medicine in the past fifty years. And it still does. Realizing these potentials by way of research and development is one of the most important challenges in state-of-the-art biomedical
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in the fields of history, art history, musicology, philosophy, German literature, architectural history, English, media studies, and Egyptology. Application Due Date: March 27, 2024 The eikones
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neuroscience and combines state-of-the-art mass spectrometry-based proteomics technologies with fluorescence activated sorting and in vivo labelling of defined synaptic populations within neuronal circuits. We
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PhD student position: elucidating chaperone protein function using single-molecule fluorescence/FRET
(speaking & writing) We offer you An exciting and fully funded PhD project in Basel, Switzerland Embedding in a productive, interdisciplinary group with an open and interactive lab culture State-of-the-art
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) An exciting and fully funded PhD project in Basel, Switzerland Embedding in a productive, interdisciplinary group with an open and interactive lab culture State-of-the-art research infrastructure and facilities
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PhD student position: elucidating chaperone protein function using single-molecule fluorescence/FRET
& writing) An exciting and fully funded PhD project in Basel, Switzerland Embedding in a productive, interdisciplinary group with an open and interactive lab culture State-of-the-art research infrastructure
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We offer you You will have access to state-of-the-art research equipment in metabolomics, cell biology, time-lapse microscopy and single cell analysis. You will work in a dynamic and highly
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unconventional therapeutic strategies, ranging from antibacterial to anticancer drugs. To this end, we develop new ways to combine state-of-the-art technologies in metabolomics with mathematical modeling
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. The project integrates molecular neurobiology with systems neuroscience and combines state-of-the-art mass spectrometry-based proteomics technologies with fluorescence activated sorting and in vivo labelling