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developed. The successful candidate will explore their ability to modulate extracellular vesicle (EV) uptake and assess their potential for advancing EV-based therapeutic strategies.This project offers
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to equal opportunity, we recognize the consequences of historical inequalities. We do not accept any form of discrimination based on, but not limited to, gender identity and expression, sexual orientation
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research and educational environment. In our commitment to equal opportunity, we recognize the consequences of historical inequalities. We do not accept any form of discrimination based on, but not limited
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project dedicated to decoding early human embryo development through cutting-edge stem cell-based embryo models, single-cell omics, with a focus on X-chromosome inactivation and cell fate. The project
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, your tasks will include: •Designing, executing, and analyzing model-based workflows to study the molecular response of cartilage under mechanical load. •Integrating advanced imaging techniques, including
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within the framework of circuit quantum electrodynamics (circuit QED). Within this project, you will coordinate joint experimental efforts involving state-of-the-art silicon-based qubit devices developed