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and the Danish Confederation of Professional Associations. Further information on qualification requirements and job content may be found in the Memorandum on Job Structure for Academic Staff at Danish
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is available immediately. This role will address two key aspects of programme development; the design and construction of new bioluminescent and other reporter strains of human fungal pathogens
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participate in further training structured and goal-oriented thinking team orientation and strong communication skills in English. The working language at PIK is English. We offer an inspiring, international
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laboratories, and experience in structural biology would therefore be helpful. Candidates should be highly motivated, be able to work independently and show excellent critical thinking, scholarly ability and
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injection, ion transfer, and structural dynamics in realistic and model systems for battery materials. The position will span experimental efforts at large scale X-ray facilities, handling and reduction
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with animal models of disease are major requirements. Ability to work in a structured and independent manner. Good communication skills and high proficiency in English. Good collaborative and social
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on decoding the structure and function of matter, from the smallest particles of the universe to the building blocks of life. In this way, DESY contributes to solving the major questions and urgent challenges
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Good written and spoken English skills Experience in the presentation and publication of research results Good communication and information behaviour, goal-oriented and structured way of working
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A postdoc position in the Torben Heick Jensen lab, Aarhus University, Denmark: Mammalian Nuclear ...
to molecular biology and bioinformatics approaches. Collaboration with structural biologists is possible. Your profile Applicants should hold a PhD in Molecular Biology, Biochemistry, Cell Biology, Genomics
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deformation transients framing local moderate (and large) earthquakes in amphibious environments using fiber optics, and (iii) imaging potential fault structures crossed by the fibers. The project will benefit