102 Humanities positions at Baylor College of Medicine in united-states in United States
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in vitro (biochemical and cell-based assays) and in vivo; validation of targets using mouse genetics; and/or generation of DNA vectors. Uses genetically engineered mouse models, primary human tissues
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this research question. We are searching for a Research Technician III to join our team to help us characterize the molecular and cellular changes that mediate pain in the knee joint. The Research Technician III
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Summary Under minimal supervision, provides skilled care and handling of transgenic laboratory animals. Primarily working in areas to include: standard housing, biohazard, non-human primate and
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(human or mouse or non-human primates). Experience with genome editing technologies. Experience with mouse experiments. Experience in the design and testing of CAR T cells or CAR NK cells or CAR
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, cell-host interactions and pathogenesis. A new project is to identify the human norovirus receptor, mechanisms of entry, and new targets for drug development. This Research Technician will be heavily
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studies of pediatric brain tumors, both in vitro and in vivo, using and generating mouse models, manipulation of mouse ES cells, study of human brain cancer xenografts, and use of human iPS cells. Studies
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standards and implements improvement plans in coordination with the Laboratory Director and Human Resources. Assist staff with conflict resolution and problem solving. Assume active role in the development
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for career development. Job Duties Generates tissue specific gene knockout mice and perform simple surgical procedures. Analyzes human and animal tissue samples (e.g. histological analysis, immunostaining
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these innovations to a variety of basic biology questions revolving around the regulation and dysregulation of the human genome. We use these approaches to address multiple diseases, including leukemia, aging, and
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to prevent and treat infections due to nasal bacterial pathobionts and respiratory viruses. To achieve this, we are elucidating the molecular mechanisms of interspecies interactions in the human nasal