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team with access to state‑of‑the‑art infrastructure for materials synthesis and characterization alongside advanced biological testing. The successful candidate will lead the design and execution of in
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effort to identify and visualize the translation dynamics and function of proteins that drive epithelial cell migration and rapid, scarless wound healing in axolotl wound healing and fly dorsal closure
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neurodevelopment and neurodegeneration of the visual system. Our team applies interdisciplinary approaches, combining multi-omics, genetics, molecular biology, evolutionary biology, viral tools, advanced
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processes. A demonstrated interest in data visualization and large-scale data analysis is highly desirable. The ideal candidate will have a keen interest in understanding complex biological systems
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reconstitution systems to study T cell signaling dynamics Cutting-edge CRISPR-Cas9 genome editing tools for targeted manipulation Advanced imaging platforms to visualize protein-protein interactions Primary human
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-driven futures (e.g. hydrogen penetration, DH decarbonization). Assisting in the extraction and visualization of KPIs such as emissions, system adequacy, infrastructure costs and operational risk
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to visualize molecular processes inside organisms, tissues and cells. With the help of imaging, we perform cutting-edge research in vascular, inflammatory, infectious, neurodegenerative diseases, and cancer
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Python, for processing and interpreting complex proteomics data Familiarity with proteomics software for data analysis, visualization, and management Experience with biological samples (e.g., FFPE, plasma