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spatial biology, single-cell RNAseq Multiplex, etc and animal (mice) models such as humanized mice, PDX models and other models simulating patients. Responsibilities Designs and conducts research on cancer
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laboratory conditions. Must be able to work at a computer for extended periods for data analysis, molecular modeling, and manuscript preparation. May require occasional work with biological samples, including
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experiments using murine cancer models and a strong background in immunology, experience in molecular and cell biology techniques including primary cell culture, RNA assays, and protein assays, confocal assay
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social, affective and cognitive behavior in rodent models; in pursuant to research goals, designs and leads experiments, including rodent husbandry, surgery and behavior testing, transcriptomic
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mutation detection; participates in analyzing data for reports for the purpose of grants submissions; designs and conducts pre-clinical studies using a variety of disease models in mice; trains staff
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experience with animal experiments using murine cancer models and a strong background in immunology, experience in molecular and cell biology techniques — including primary cell culture, RNA assays, and
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highly desired but not required. Applicants should have proven experience in one of the fields related to immunology, cell signaling, molecular biology, ophthalmology/vision research. Experience in Western
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under the guidance of his/her scientific mentor to investigate the epigenetic, transcriptional, molecular mechanisms of axon regeneration/degeneration. Key responsibilities: Conduct in-depth research with
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Excellent communication skills and a collaborative mindset Preferred Experience: Proficiency in molecular techniques relevant to cardiovascular biology and metabolism Gained hands-on experience with mouse
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and mechanisms of selective autophagy and lipid metabolisms in neural stem cells, microglia, and astrocytes. The lab developed novel genetically engineered mouse models to study roles of autophagy genes