85 animal-activity-recognition Postdoctoral research jobs at The Ohio State University
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, immunology, molecular biology, proteomics, animal modeling and mouse genetics, translational medicine, and/or the use of human tumor models of solid tumors (e.g. breast cancer, colon cancer, neuroblastoma
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wildlife data from the Chicago area. Use various analytical techniques to answer questions related to wildlife disease dynamics, genetics, social behavior, and general urban ecology of mammalian predators
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animal procedures; and will perform additional duties as assigned. Required Qualifications: A doctoral degree in engineering or sciences - related disciplines such as biomedical engineering, biophysics
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received a Ph.D. in biomedical science/engineering. The ideal candidates should have a strong research background in animal studies with interests in cardiovascular medicine or gene therapy. Previous
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immunologically “cold” tumors into “hot” tumors, thereby promoting immune recognition and response. We are particularly interested in investigating both genetic and chemical approaches to enhance MHC class I
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to conduct research in virology. The postdoctoral fellow will focus on the transmission and pathogenesis of African swine fever virus (ASFV). This project involves animal studies, cell culture, molecular
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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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partners working in hearing, language, aging, and health equity. Key Research Areas: Longitudinal studies tracking speech recognition, cognitive functioning, and quality of life over time in adults receiving
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and also, to a lesser extent, for non-clinical pharmacology studies conducted in animals. A majority of this activity will be in support of National Cancer Institute sponsored clinical trials through
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/Cas9-based genetic screens, epigenetic and transcriptomic analyses Utilize animal models to investigate lung cancer progression and resistance mechanisms Analyze next-generation sequencing and epigenomic