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: • Design, conduct, and analyze experiments focused on molecular, biochemical, and cellular mechanisms of retinal degeneration associated with Usher Syndrome Type 2A. • Utilize knock-in mouse models
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Postdoctoral Research Associate in Sum-Frequency Generation Microscopy of Biomolecular Self-Assembly
state-of-the-art sum-frequency generation (SFG) microscope to study biomolecular self-assembly. This would primarily involve furthering the recent efforts to elucidate the heterogeneity in molecular
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. This includes establishing and optimizing in vitro and in vivo models, conducting biomarker and mechanistic studies, and applying molecular and cellular techniques such as qPCR, Western blotting, and
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mentoring at different levels. Previous experience in advanced tissue modeling and molecular and functional characterization is prerequisite, while experience working with bacterial cultures is a plus but not
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from correcting disease-causing mutations, the potential of introducing protective mutations will be explored. These strategies will be evaluated on cellular and mouse disease models, in order to
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the feasibility of applying a wide variety of scientific principles and theories. Maintains substantial knowledge of state-of-the-art principles and theories. Develops advanced analytical models and systems and
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University of Chicago, Pritzker School of Molecular Engineering Position ID: UofC -PME -POSTDOC [#30355] Position Title: Position Type: Postdoctoral Position Location: Chicago, Illinois 60637
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application. This statement should include three short sections: (a) list of simulation codes used (b) your top three publications (c) previous experience in battery or energy materials modelling. Please do not
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View Vacancy -- Research Assistant – Molecular and Cellular Biology - MLC 2690 Open Date 12/08/2025, 10:00 Close Date 31/08/2025, 23:55 Research Institute MRC Mary Lyon Centre Research Institute
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genetically engineered mouse models (GEMMs), orthotopic/xenograft systems, and advanced molecular and cellular techniques to explore tumor progression, immune modulation, and treatment resistance