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, understand its role in therapy resistance, and identify novel regulators using innovative CRISPR screening approaches combined with advanced imaging, single-cell transcriptomics, and phospho-proteomics.
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molecular and biochemical techniques to study metabolic enzyme function in the nucleus. Utilize genomics, proteomics, and metabolomics approaches to analyze chromatin regulation and transcriptional •responses
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biotechnology, structural biology, proteomics, metabolomics, and more Our benefits: Excellent working conditions in an international environment Flexible and family-friendly working hours and possibility of home
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facilities (on-site) in genomics, proteomics, imaging, and computational biology. Close supervision and mentorship to support scientific and career development. Financial support for conference participation
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the identified molecular links as potential Achilles heel to target cancer cells with loss of specific tumor suppressor genes. The project will be performed in close interaction with the Genomics and proteomics
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effects. Via this so-called “ubiquitin code”, the ubiquitin system protects us from diseases such as cancer, premature ageing, inflammation and neurodegeneration. In our lab, we have developed a proteomics