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). This project is centered on the study of ceramide-directed therapeutics for AML treatment. The position provides extensive training in preclinical cancer research, with a strong focus on mouse models
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of radiation biology, tumor immunology, and clinical radiation oncology. The postdoctoral fellow will lead and contribute to preclinical and translational studies using in vitro systems and in vivo models
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. The overall goal is to: (1) develop and apply statistical genomic methods to analyze multi-omics datasets for understanding complex disease etiology and (2) develop and apply novel statistical models to analyze
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as well as RNA processing mechanisms in bone regeneration, and to define molecular mechanisms that underpin impaired bone repair in different disease models including obesity/type 2 diabetes. Research
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molecular mechanisms that underpin impaired bone repair in different disease models including obesity/type 2 diabetes. Investigating innovative roles of immune cells in the homeostasis of musculoskeletal
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cigarettes. The experimental approaches will range from in vitro chemistry to animal models and human research. Successful applicants should have a doctoral degree in chemistry, biology, or a related field and
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with the following skills and background: Proficient in basic and complex statistical modeling (e.g., multilevel models) Proficient in the analysis of qualitative data Strong first-author publication
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, proficiency in standard molecular biology and biochemical techniques, experience with 3D image processing and modeling software for structural analysis (such as IMOD and UCSF Chimera). A strong background in
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replication and pathogenesis mechanisms of hepatitis B virus, using a variety of technologies including biochemistry, molecular and cell biology, and animal models. The scholar will be responsible for training
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approaches. Education Requirements: The successful candidate will possess a doctoral degree with expertise in molecular biology, experience with in-vivo and in-vitro models of inflammation testing, and