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will enjoy a high degree of freedom to define their research agenda within the project’s context. In this project, you will explore advanced runtime mechanisms for the timing analysis and reconfiguration
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Time model. The postdoc will investigate how mechanisms of thermal acclimation and repair of thermal injury, can be integrated with thermal tolerance measures under fluctuating temperatures across
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candidate will work on regulatory mechanisms of cell signalling downstream of proteases and receptor tyrosine kinases in mammalian cells and 3D organotypic skin cultures and will develop targeted and shotgun
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mechanisms that dynamically alter the detrapping and recombination probabilities. The aim of this project is to overcome these limitations by developing a Monte Carlo simulation model that treats each charge
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conveyors of OGT, and dissecting the relative molecular mechanisms of the OGT-CDG disease in fruit flies. You will be working closely with other postdoctoral researchers, guiding technician, maintaining
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conveyors of OGT, and dissecting the relative molecular mechanisms of the OGT-CDG disease in fruit flies. You will be working closely with other postdoctoral researchers, guiding technician, maintaining
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disease mechanisms of protein complexes associated with primary cilia and centrosomes. Cilia are antenna-like organelles that project from centrioles at the cell surface. They play key roles in cell
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exposure as described by the Thermal Death Time model. The postdoc will investigate how mechanisms of thermal acclimation and repair of thermal injury, can be integrated with thermal tolerance measures under
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for Molecular Medicine - performs basic and translational research in neuroscience and brain disorders. We aim at unravelling the mechanisms that explain cellular communication and computation networks in brain
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mechanism regulating their secretion. You will employ advanced techniques including spectral flow cytometry, nano flow cytometry, mass spectrometry, and RNA sequencing. The ideal candidate will have a