75 structures-"https:"-"https:"-"https:"-"https:"-"https:"-"https:"-"https:"-"Uppsala-University" positions at University of Oxford
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at the Department of Biochemistry, who study the structural basis for host-parasite interactions mediated by human infective parasites that cause diseases such as malaria and sleeping sickness
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Programme Award on Molecular Mechanisms of Morphogen Signalling in the Tumour Microenvironment. This is an exceptional opportunity to work at the interface of structural biology and cell biology, exploring
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We are seeking to appoint a Postdoctoral Research Assistant with a strong interest in addressing fundamental mechanistic questions in cell biology, biochemistry and/or structural biology. You will
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cavitation detection, imaging, and monitoring. You will be responsible for engaging in reactor design, construction, development, and characterisation. You will also be expected to integrate a cavitation
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for 2 years You will lead and manage your own research within the project, developing and applying advanced electronic structure and molecular simulation methods. The work will involve transition-metal
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gravitational waves. This is a joint position between the University of Oxford and Kavli Institute for the Physics and Mathematics of the Universe, University of Tokyo, structured such that the first 18 months
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Facility (PX-SRF), this role provides an exceptional opportunity to work at the forefront of fragment-based lead discovery for Klebsiella targets. You will play a key role in structural and biochemical
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addressing fundamental mechanistic questions in cell biology, biochemistry and/or structural biology. You will join a dynamic and supportive research group led by Prof. Pedro Carvalho and will play an active
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procedures, including recording changes to the databases and datasets in a well-structured manner. To be considered, you must hold a Masters in a scientific or numerate subject, or have equivalent relevant
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band structure and exciton binding energies, as well as their vibrational and transport properties. This role will utilize several state-of-the-art computational modelling techniques, in particular