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preferably experimental experience with liquid and solid electrolytes curiosity to enter new areas and leave beaten paths combined with creativity excellent organizational and communication skills, high
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both computational and experimental biology to join our team in reimagining how we discover and deploy drug combinations in the clinic. Our work is highly interdisciplinary, integrating high-throughput
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insight in physiologically relevant behavioral contexts. We combine state-of-the-art experimental and analytical approaches, including in vivo two-photon calcium imaging, optogenetics, electrophysiology and
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, continuous measurements of cell health during exposure to therapeutic drugs and other chemicals. To enable such applications, we combine photolithographic techniques, electrochemical/impedance spectroscopy
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for 2-3 references combined into one PDF file by e-mail to: tomaszc@umich.edu Contact: Tomasz Cierpicki, PhD, Professor Department of Pathology, Department of Biophysics, University of Michigan Ann Arbor
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arboviruses (e.g. dengue, zika), where we investigate how host-virus dynamics affect outcomes in different tissues. By combining computational systems biology with rigorous experimental virology, we transform
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acquire their fate and establish precise connectivity with target brain regions during development, and how these processes are altered by stress and pathology. To address these questions, the team combines
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cells that combines the cytotoxic effects of ionizing radiation (IR) with the spatial and temporal control of gene expression provided by IR-activated release of cargo carried by a novel modular CAR-T
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ideas into advances that improve human health. Within this mission, the Vannini Group combines cryo-electron microscopy, mass spectrometry, single molecule measurements and cxell biology approaches
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& Denise Adams Center for Parkinson’s Disease Research and Scherzer Neurogenomics Lab combine population-scale human data (>30,000 deeply phenotyped participants), single-cell and spatial omics, and next