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, Chalmers and Copenhagen University. The project is focused on biomolecular condensates in complex systems, including cells, with an aim to develop methods and methodologies to investigate liquid-liquid phase
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torsion or local–global comparisons in intersection theory; Interactions between non-Archimedean, complex analytic, and geometric methods. The project is deliberately flexible and can be shaped by
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Systems (CIS) — evolutionarily conserved protein complexes that function as nano-syringes to inject molecular effectors into target cells. CIS hold exceptional promise as modular and programmable tools
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focused on biomolecular condensates in complex systems, including cells, with an aim to develop methods and methodologies to investigate liquid-liquid phase separation in complex environments. A key
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widespread and getting increasingly established, a more fundamental understanding in terms of soft matter and complex liquid concepts is still largely missing. Importantly, the related liquid-liquid phase
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our activities. We work actively to be a parent-friendly organization. At the Division of Algebra and Geometry we conduct research in areas such as algebraic geometry, complex geometry, number theory
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infrastructures organized in infrastructure platforms, of which the Vibrational Spectroscopy Core Facility (ViSp) is a central infrastructure for this project (https://www.umu.se/en/research/infrastructure/visp
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crystallography. Therefore we have turned to neutron crystallography to locate the hydrogens (Kelpsas et al. 2021, https://doi.org/10.1107/S2052252521004619) in inhibitor complexes. While knowledge
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redesign of bacterial Contractile Injection Systems (CIS) — evolutionarily conserved protein complexes that function as nano-syringes to inject molecular effectors into target cells. CIS hold exceptional
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Facility (ViSp) is a central infrastructure for this project (https://www.umu.se/en/research/infrastructure/visp/ ). The scholarship (30 000 sek/month) is funded by the Carl Trygger Foundation and the