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to function, and this process is tightly regulated by a network of chaperone proteins. At the heart of this network is Hsp90, a molecular chaperone essential for the folding and maturation of at least 20% of
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inflammation and implant loosening. Understanding the mechanisms and patterns of wear at the microscopic and molecular levels is therefore critical for improving implant longevity and patient outcomes. In
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to study cancer metastasis. Prior experience in molecular biology is welcome, but not required. A state-of-the-art project on cancer metastasis Broad suite of cutting-edge biomedical methods and protocols A
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were involved in (e.g. your MSc project) stating its rationale, major outcome and your contribution (max. half a page); a CV; a copy of your MSc degree, and the contact details of 3 references including
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and motivation for applying for the position (max. 1 page), a CV, a copy of your MSc degree, the names and contact details of 3 references, and a description of a research project that you conducted
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for the position (max. 1 page), a CV, a copy of your MSc degree, the names and contact details of 3 references, and a description of a research project that you conducted or contributed to stating the rationale