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and cell models to address different aspects of the targeted hypothesis. Focus areas include mechanisms leading to impaired microcirculation, and possible roles of vascular cells, tissue hypoxia and
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. The candidate will work with state-of-the-art analytical instrumentation, generate extensive experimental data sets and analyze them using advanced bioinformatics methods. The work tasks include to: Design cell
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them using advanced bioinformatics methods. The work tasks include to: Design cell culture experiments suitable for investigating mechanistic principles of how small molecules, such as NAD, CoA or FAD
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within these areas: Hydro-optimization for green energy production Energy load forecasting Charging of electrical vehicles The period of employment is 18 months. You will report to the section leader
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candidate will be tested within these areas: Hydro-optimization for green energy production Energy load forecasting Charging of electrical vehicles The period of employment is 18 months. You will report to
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products, their potential controlling reactions and the resulting energy landscape will be investigated using a combination of geochemical, thermodynamic and microbiological analyses of experimentally
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bespoke photosensitive agents which would conventionally be used in the field of Photodynamic therapy. The successful candidate must be able to work with cells, cell survival, cell biochemical assays, and
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immunologists as well as clinicians. The Greiff Lab focuses on the quantitative understanding of adaptive immune receptor (antibody and T-cell receptor) specificity using high-throughput experimental and
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, library, array, structural and bioinformatics approaches. The Greiff Lab focuses on the quantitative understanding of adaptive immune receptor (antibody and T-cell receptor) specificity using high
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well as clinicians. The Greiff Lab focuses on the quantitative understanding of adaptive immune receptor (antibody and T-cell receptor) specificity using high-throughput experimental and computational immunology