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—for bacterial control and therapeutic application. Together, we identify functional prophage genes, develop genetic tools, and test engineered phages in infection models. Your tasks Plan and perform in vitro and
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experimental approaches of the laboratory include molecular-, cellular-, and immunological-based techniques along with animal models of pathogenesis and treatment. Studies are carried out in biosafety level (BSL
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that will be affiliated with one of six possible multidisciplinary projects. The ideal postdocs will have expertise in some of the following areas: computational modeling, computational biology, computational
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Project description The postdoctoral fellow will explore synaptic processes and white matter pathways between remote brain areas in vivo in animal models that underlie plasticity in the prefrontal
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promoters. You will train and evaluate predictive models in model/crop species with different levels of genome complexity. You will work very closely together with your dry-lab colleagues for data processing
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that diversity is the key to groundbreaking research and innovative solutions. Our flexible working models and remote options create a supportive environment for balancing work and family life. For us
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to oncogenic enhancers. You will integrate loss- and gain-of-function tools (e.g., CRISPR/Cas and degron systems) with a range of advanced omics approaches in pre-clinical model systems such as cell lines and
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Postdoctoral Research Associate - Basic and Translational Research Training in Pediatric Classical H
classical hematology, with special emphasis on genomics, gene regulation, and cutting-edge experimental model systems and approaches to mechanistic cell and molecular biology. Trainees will greatly benefit
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basis of these tumors, which now requires systematic efforts to translate the wealth of genomic discoveries into new experimental models and therapeutic advances. Postdoctoral fellows participating in
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to respiratory viruses and T cell exhaustion during chronic infections and cancer. Ongoing studies leverage a wide array of model systems and techniques including novel mouse models of infection and cancer