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Field
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survival surgeries using intracerebral injections of AAVs and intracardiac perfusions. • Dissect and prepare brain samples for imaging and biochemical analyses. • Conduct standardized techniques (e.g
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spectroscopic imaging technologies for clinical applications in otolaryngology, with projects spanning shortwave infrared (SWIR) imaging, Raman spectroscopy, and novel fluorescence probes. The postdoc will play a
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staining, Golgi staining, and use of fluorescent probes to interrogate cellular and subcellular mechanisms. Apply advanced subcellular fractionation workflows to isolate mitochondria, ER, MAM, plasma
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in new mouse models with lymphatic endothelial cell (LEC)-selective deletion of target genes using tissue clearing and confocal and light sheet microscopy with help from technical staff at the imaging
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protected and open field cultivation systems Use lab and field equipment (ICP, HPLC, gas exchange analyzer, soil/root/plant sensors, chlorophyll fluorescence, etc.), data loggers and image processing tools
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clinical research on pharmacology, toxicology, and exposure science. Dr. Bernstein’s research team has access to outstanding facilities of Genomics, Genetics, Proteomics, Confocal and high-content imaging
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biodistribution of oligonucleotide-based modalities in mouse models. Preferred but not required: Experience with toxicity studies and in vivo imaging (e.g., IVIS, bioluminescence, fluorescence). Molecular and
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fluorescence microscopy and X-ray crystallography. The experimental and theoretical methods used often have their origins in physics. Significant work is devoted to protein self-assembly and co-assembly and
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including (but not limited to): Develops proficiency in mouse behavior experimentation, stereotaxic surgery and fluorescent in vivo imaging. Collects and processes neuroimaging data with Matlab/Python
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based on particle image velocimetry (PIV), laser-induced fluorescence (LIF), high-speed imaging, and schlieren/shadowgraphy techniques. The resulting dataset will support the development of sea-state