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develop and improve protein-glycan binding prediction models and use AI, data science, and bioinformatics to identify and design glycan-binding proteins with desired binding specificities. Qualifications
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interdisciplinary, combining advanced molecular tools (e.g., CRISPR-based genome engineering), computational algorithms, and DNA/RNA sequencing and synthesis to design useful cell behaviors. The scope of this project
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working environment Work in Stockholm, in close proximity to nature Guidance on relocating and settling in KTH and in Sweden, Help to https://www.kth.se/en/om/work-at-kth/relocation Read more about what
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the fundamental mechanisms shaping chromatin structure. The project offers a unique opportunity to develop innovative assays aimed at resolving longstanding mysteries in transcriptional regulation and cell division
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health technologies, at the Department of Biomedical Engineering and Health Systems. Read more about our research here . Throughout the project, you will work closely with stakeholders in clinics and
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extensive interests in population genetics and human evolution, providing numerous opportunities for collaboration with postdocs and PhD students working on related projects. The program is also part of
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opportunities to independently develop your own ideas. The position is not linked to any of the department's ongoing projects but provides excellent opportunities to interact with other postdoctoral researchers
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different mixing and reactive properties compared to conventional fuels. In this project, turbulent mixing and combustion of hydrogen in air will be studied through optical experiments and numerical modelling
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seeks engaged postdoc to study in-vessel corium melt retention (IVMR) in small modular reactor (SMR) of PWR type, and (ii) ex-vessel melt-coolant interactions and melt spreading. The project is supported
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, entrepreneurial success, and sustainable growth. Project overview The position is not tied to any specific project or theme. Instead, we are offering a strong and ambitious candidate great flexibility in shaping