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a detailed understanding of the underlying regulatory structure. Constructing a mechanistic model of human glycolysis will pave the way for further development of targeted medicines and strain
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to make a precise kinetic model capturing a detailed understanding of the underlying regulatory structure. Constructing a mechanistic model of human glycolysis will pave the way for further development
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based on strong competences on electrochemistry, atomic scale and multi-physics modelling, autonomous materials discovery, materials processing, and structural analyses. We also focus on educating
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structural complexity of archaeal, microalgal and viral N-glycosylation and 2) Harness this knowledge for new solutions in biomedicine and biotechnology. https://euraxess.ec.europa.eu/jobs/201030 The PhD
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. The Biomaterial Microsystems group is a highly ambitious group, pursuing research on microfabrication of 3D polymer and carbon structures and devices and their application in drug delivery, bioelectrochemistry and
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quality within building design and processes, building construction and safety, building energy and services, solid mechanics, fluid mechanics, materials technology, manufacturing engineering, engineering