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capable of assisting younger students in their research projects. Desirable qualifications: Experience with biomolecular prediction, design, and simulation software. Experience with object-oriented
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communication skills. Have good command of the English language, both spoken and written. Be independent and capable of assisting younger students in their research projects. Desirable qualifications: Experience
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communication skills. Have good command of the English language, both spoken and written. Be independent and capable of assisting younger students in their research projects. Desirable qualifications: Experience
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communication skills. Have good command of the English language, both spoken and written. Be independent and capable of assisting younger students in their research projects. Desirable qualifications: Experience
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Department of Management, please visit: http://mgmt.au.dk/ . Further information For further information about the position and the department, please contact Assistant Professor Gabriele Torma, email
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communication skills. Have good command of the English language, both spoken and written. Be independent and capable of assisting younger students in their research projects. Desirable qualifications: Experience
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communication skills. Have good command of the English language, both spoken and written. Be independent and capable of assisting younger students in their research projects. Desirable qualifications: Experience
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for five years from August 2025 until July 2030 and is carried out by a team of three postdocs, two research assistants, and Associate Professor Kristina Bakkær Simonsen as the project leader. The two
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. The two relevant research projects for these positions in the Spormann lab are Microbial conversion of CO2 to carbon materials. This project pursues approaches probing the plasticity of cellular electron
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function and cellular behaviour. The project combines state-of-the-art mass spectrometry-based proteomics, quantitative PTM analysis, and mechanistic cell biology to uncover how regulatory proteome states