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on developing a microfluidic technology for loading molecules and nanoparticles into red blood cells ex vivo, with the goal of leveraging red blood cells as a biocompatible drug depot for extended release. The
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on developing a microfluidic technology for loading molecules and nanoparticles into red blood cells ex vivo, with the goal of leveraging red blood cells as a biocompatible drug depot for extended release. The
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microfluidic technology In vivo expertise recommended Experience with cell culture techniques including primary endothelial cells Experience in expression and purification of proteins Experience with molecular
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changes in microgravity conditions. d. Ability to perform cell culture and tissue models such as 3D tissue models and microfluidic systems to simulate microgravity. e. Understanding and experience with
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cells and microfluidics to generate mature and functional vascular tissues. This work will be completed as part of our multidisciplinary team studying the interactions between cells and their
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of chromatin or obstacles on the DNA. To do so, you will design and employ novel biophysical instrumentation (e.g. optical tweezers, single-molecule fluorescence, microfluidics, cryo-electron microscopy) and
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for the parallelized monitoring of metabolites and environmental parameters to assess organoid- and assembloid formation Developing microfluidic chips that enable the multi parameter measurements of key molecular and
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focused cryo-Cage development on a molecular level, including protein design, expression, purification and validation of formed cages using microfluidics diffusional sizing, DLS, mass photometry and cryo
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areas:Miniaturized optically pumped atomic magnetometers (OPMs) for ultra-low-field nuclear magnetic resonance (ZULF NMR) and magnetic resonance imaging (MRI); NMR MRI with a focus on MRI of microfluidic
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University of British Columbia | Northern British Columbia Fort Nelson, British Columbia | Canada | 2 months ago
migration through non-isotropic environments as well as through microfluidic devices. The goal is to develop artificial synthetic cells for biomedical and experimental research. As a by-product, we seek