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harnessing innovative synthetic biology, microbial engineering, and drug delivery approaches for improving human health in a sustainable manner. Currently, three directions are being explored: (1) engineering
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methods such as genetics, molecular biology, RNA-sequencing, FACS, biochemistry, confocal imaging as well as behavioral and -omic data analyses. These require accurately and effectively applying
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to understand the fundamental mechanisms underlying cancer cells’ rheological properties. Past experiences with cell culture, flow cytometry, fluorescence microscopy, and live imaging are required. Experiences in
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of human thoracic aortic disease. Our laboratory within the Division of Cardiac Surgery in the School of Medicine and in direct collaboration with bioengineers within the A. James Clark School of Engineering
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. The projects may also include to tackle benchmarking problems such as SAT, image processing, graph theories, boson/fermion sampling by applying classical machine/deep learning, neural network techniques and