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(iPSCs), and organoids derived from patient-specific iPSCs. The research laboratory employs molecular biology, cellular biology, advanced stem cell techniques, translation tools, and animal models for its
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, self-motivated, and creative individual with expertise in both the theoretical and practical aspects of rodent models, molecular biology, biochemistry, and cell biology. Interested applicants
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microscopy, and molecular cloning). We utilize rodents as research models for human disease. The candidate is expected to conduct surgical preparations on animals for experimental purposes, encompassing pre
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laboratory focused on the molecular pathways underlying vascular development and disease using a zebrafish model at the USF Health Heart Institute. SPECIAL REQUIREMENTS: Have the ability to design, organize
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. Research experience in rodent stroke & AD models, vascular biology, neurobiology, RNA steganalysis, primary cell culture, confocal imaging, and molecular biology are strongly preferred. Information
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and Molecular biology, with excellent organization skills and communication skills. Experience with animal models, and/or tick biology is not required but preferred. Applicants will be expected
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/index.html POSITION SUMMARY: The successful candidate will investigate cellular and molecular mechanisms of nerve repair and nociception using transgenic mouse models and primary rodent cultures
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culture and animal models. DUTIES: Executes and adapts laboratory research protocols involving biological materials, employing techniques such as mammalian tissue cultures and histology. Proficient in
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and neuroprotection using neural injury and neurodegenerative disease models. Prior experience with mouse colony breeding and management, rodent surgery, molecular biology experiments, cell culture
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including, PTSD and Alzheimer’s disease. We are looking for an ambitious post-doctoral candidate. Skill sets that we are particularly interested in are: 1) molecular chaperone biology, 2) mouse models, and 3