12 electrochemical-biosensors Postdoctoral positions at Indiana University in United States
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cancer. We will model brain cancer predisposition syndromes such as Gorlin syndrome, neurofibromatosis, MMRD with iPS and neural stem cells. Candidate must be comfortable with stem cell culture techniques
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management and priority setting skills Experience in animal husbandry and related studies (e.g. mouse IP/IV drug administration and tissue dissection) Preferred Neurological cell culture; both primary and
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Indianapolis Position Summary A postdoctoral position is now available in the Department of Ophthalmology in the School of Medicine at Indiana University. Our research focus is retinal cell biology with the goal
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private foundation that focuses on Usher Syndrome. Our research focus is retinal cell biology with the goal of discovering small molecule therapy for photoreceptor degenerative disorders. To elucidate
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of cells and tissues, and apply molecular biology techniques for the study of factors involved in cell differentiation and development. The ideal candidate will be expected to apply strong organizational and
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of Health. The current lab research is focused on the pathogenesis and molecular mechanism of diabetes and obesity, fatty liver disease, and cancer using both cell systems and animal models. As the nation’s
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our mission to advance racial equity to transform health and wellbeing for all throughout the state of Indiana. Basic Qualifications Ph.D. or equivalent terminal degree in biochemistry, cell and
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cancer. We will model brain cancer predisposition syndromes such as Gorlin syndrome, neurofibromatosis, MMRD with iPS and neural stem cells. Candidate must be comfortable with stem cell culture techniques
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prediction, pleiotropy analysis, and Mendelian randomization. Previous experience working with large-scale biomedical datasets (e.g., RNA-seq, ChIP-seq, single cell-seq, ATAC-seq, genotype data, biomarkers
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. The laboratory focuses on the immunology of chronic viral infections, with a particular interest in the molecular and cellular dysfunction of T cell responses. Potential projects involve the study of CD4 T cell