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experience in molecular and cellular neurobiology to study neuronal regeneration and preservation in retinal mouse models of injury and disease. This project will examine how cellular metabolism impacts
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genetic mutations. We aim to advance our understanding of these diseases and to develop and translate therapeutic strategies for future clinical practice. The applicant is expected to work on mouse models
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biochemistry, genomics, molecular genetics, cell biology, and model organism systems to uncover the mechanisms by which histone mutations disrupt human development and lead to disease. Our ultimate goal is to
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. Computational and bioinformatic skills. Experience in microscopy. Generation and analysis of mouse models. Handling of human samples. Molecular biology skills including CRISPR, cloning and qPCR. In vitro cell
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their degree in the near future) in Cancer Biology or a related field. Proficiency in experimental techniques such as cell/organoid culture, library construction, imaging and handling animal models. Experience
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, cell sorting, next-generation sequencing, CRISPR/Cas9 screens, and mouse and iPSC stem cell models. We welcome applicants from multidisciplinary scientific backgrounds, including neuroimmunology, tumor
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elsewhere in the job posting. Skills: Atomic Force Microscopy (AFM), Ex Vivo, Image Analysis, In Vivo Experiment, Mouse Handling, Nuclear Testing, Primary Cells, Zebrafish Models Questions For frequently
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equipment using a machine shop Expertise in reduced-order modeling of plasmas, including plasma chemistry. Instructions For full consideration, applicants should submit via Interfolio, the following by
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Training) at University of Washington School of Medicine, an R1 institution that is renowned for its innovations in telepsychiatry, integrated care models, digital mental health, implementation science, and