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mucin-hydrolase activity in bacterial secretomes and patient samples. A successful candidate will gain training in chemical biology, enzyme biochemistry, structural biology and probe development, while
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a solvent. The porous structure of the membrane will be guaranteed by using a advanced foaming approach, that will also allow control over the membrane porosity and pore size. There will be a strong
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these dynamics is timely and essential. The project offers the opportunity to explore questions such as: To what extent does joint physical custody structure or constrain parents’ spatial mobility? How does
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analysis and statistical methods Can think out of the box, distinguish main lines from details, and provide structure to their work Excellent working and communication skills in research & clinical
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dynamics and learning in artificial and biological neural networks, with the aim of: Unveiling the link between network structure and neural representations. Understanding the impact of structural and
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extent does joint physical custody structure or constrain parents’ spatial mobility? How does this differ between mothers and fathers? How does repartnering, with or without moving, affect the geographical
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well both independently and in a team. You are curious, pro-active, structured, and well organised. You are willing to work with cadaveric tissues (human, murine, bovine, porcine, canine). You have
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participation in forms of collaborative policy making. Your angle will be to investigate how features of social structure (e.g., social networks, social influence) affect the success or failure of inclusive
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relation to local environmental cues such as light intensity, wind conditions, and visual structure. A key focus will be on how Dipteran insects perceive and use these cues—especially visual landmarks and
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) . Within MDR, an interdisciplinary team of researchers develops new, intelligent materials that stimulate the regeneration of damaged or diseased tissues and organs. Research activities are structured