61 molecular-modeling-or-molecular-dynamic-simulation Postdoctoral positions at University of Minnesota
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%- Animal work - mouse colony maintenance that involves breeding, husbandry, and maintaining appropriate records and tracking animals. 40%- Conduct research using techniques which include molecular biology
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Code 9546 Employee Class Acad Prof and Admin Add to My Favorite Jobs Email this Job About the Job About the Job: 30% Lead research projects pertaining to development of large animal models of disease
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of Minnesota is seeking a highly motivated Postdoctoral Researcher to join a dynamic team focused on developing intelligent neurotechnologies for translational medicine. The lab specializes in computational
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regularly with supervisor and collaborative team (2%) 5) participating in professional development activities (5%) The successful candidate will be part of our dynamic research group at UMN while also working
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the atmosphere and understand transport pathways by combining observations of PFAS in precipitation from the National Atmospheric Deposition Program with atmospheric modeling techniques. This position primarily
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Responsibilities: Conduct basic, translational, and clinical research involving animal models and/or human subjects. Design and implement experiments related to auditory perception and neural coding Develop and
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machine learning analyses will be performed to determine correlations across stimulation settings and body systems as well as to develop predictive models and biomarkers for physiological and clinical
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Qualifications: Strong background in modeling and analytical skills using OpenSees and Abaqus. Experience in large-scale testing. Previous design experience in North America is considered an asset. Proficiency in
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Dr. Shen Cheng and his internal/external collaborators. The research will primarily focus on implementing and developing innovative pharmacometric modeling approaches for pharmacokinetic
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neuroplasticity using rodent models. Concurrent research lines exploring the intersection of sex hormone signaling and respiratory neuroplasticity in aging, spinal cord injury, and stress models offer multiple