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will work as a member of an interdisciplinary team (including experts in machine-learning and microbiology) to establish microfluidics-enabled microscopy assays on single bacterial cells to determine
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interdisciplinary team (including experts in machine-learning and microbiology) to establish microfluidics-enabled microscopy assays on single bacterial cells to determine their antibiotic resistance. Your work will
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* responds to antibiotics. Our lab focusses on biofilm formation and surface-based motility in *P. aeruginosa* and we employ a highly interdisciplinary approach that combines microscopy, microfluidics, cell
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or more of the following areas desirable: single-molecule techniques, protein engineering, bioorganic chemistry, stem cell and tissue culture, microfluidics, device design and fabrication, or computational
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induced pluripotent stem cells as disease models, microfluidic cell culture, assessments of: axon transport, calcium imaging and excitability. The post is primarily be based in NDCN, but there will be
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collaboration between an engineering group with expertise in fluid walls, microfluidics and automation and a biology group (DPAG) with expertise in iPSCs and neuron cells. These groups have worked together