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Languages (ACP ), the section on Topology, Algebra, Analysis and Geometry (TAAG ) and the Centre for Quantum Mathematics (QM ). The proposed starting time is Winter 2026, with some room for flexibility
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understanding cellular diversity and communication determining differential interindividual phenotypic outcomes of obesity. Research environment The project will benefit from the highly interdisciplinary
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experienced colleagues and collaborators in molecular biology, bioengineering, and ophthalmology. Your primary tasks will be to: Generate and characterize patient-specific iPSC lines. Differentiate iPSCs
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production systems for precision and ultraprecision manufacturing of complex geometries for polymer and natural materials replication processes. Core aspects of the position will be the focus on the trade-off
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on the development of regulatory tools to improve CRISPR-Cas editing for neurological diseases. You will work with a wide range of methods, including molecular biology, culture and differentiation of human iPSCs
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this challenge by developing privacy-preserving data sharing and analytics tools, with a focus on “differential privacy”. A core theme will be to balance privacy and utility: ensuring that shared data remains
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of advanced in vitro tissue models and/or implantable tissues Stem cell maintenance, differentiation and maturation Tissue culture and characterization using molecular biology and histochemistry You must have a
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, which are time-consuming (at least a few days) and lack the ability to differentiate between bacterial strains. Your overall focus will be to develop and evaluate a purification-free work stream that