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integrates basic and applied research, addressing the role, ecophysiology and evolution of microorganisms in natural, technical and clinical systems and in biotechnology (https://bio.au.dk/en/about-biology
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designing DNA, RNA and proteins to create nanoscale devices for applications in biotechnology and medicine. The lab invented the RNA origami method [1] and have developed basic algorithms and software for RNA
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origami robots that can sense, compute and actuate [2]. In the recently funded RIBOTICS (RNA Origami Technology in Cell Systems) project, the lab aims to develop RNA origami robots for cell factories (yeast
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and actuate [2], which opens new possibilities for controlling cellular function. In the recently funded RIBOTICS (RNA Origami Technology in Cell Systems) project, the lab aims to develop RNA origami
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and actuate [2], which opens new possibilities for controlling cellular function. In the recently funded RIBOTICS (RNA Origami Technology in Cell Systems) project, the lab aims to develop RNA origami
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recognized for its research in cell and lactation physiology. To support the development of the research area, the candidate is expected to contribute to attracting external funding within this research area
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Rasmus Bak Stephansen, e-mail: rasmus.stephansen@qgg.au.dk, mobile: +45 61764959. Application procedure Shortlisting is used. This means that after the deadline for applications – and with the assistance
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investigates how educational aspirations and mobility are experienced, challenged and realised among minority ethnic students in higher education, with a focus on the collective resources developed among