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work of the laboratory. The ideal candidate should have a strong background in biology, bioengineering, and/or molecular biology. Experience with in vitro and in vivo gene editing and/or gene therapy is
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topically will be evaluated, including their effects on phenotype, gene expression, and protein expression. Furthermore, you will investigate novel mechanisms of action of these therapies and identify new
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Post-doctoral Fellow in the Department of Orthopaedics and Traumatology, School of Clinical Medicine
mutations, our research aims to bridge the gap between clinical observation and molecular therapy. The successful candidate will leverage the unique clinical resources of the Greater Bay Area and the advanced
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, immunohistochemistry, protein analysis, and advanced sequencing and transcriptomic approaches. Experimental therapies administered topically will be evaluated, including their effects on phenotype, gene expression, and
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amyotrophic lateral sclerosis (ALS), Alzheimer’s disease and Parkinson’s disease, and at developing mechanism-based approaches for treatment and prophylaxis that integrate immunotherapy, gene therapy, effector
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gene therapies. The role is part of a broader three-year initiative to advance RNA-based therapeutic design. Research Focus This interdisciplinary project will investigate the intracellular dynamics and
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Posting Details Position Information Position Title Research Associate Professor, Chemistry Department Chemistry Posting Number F260004 Posting Link https://www.ubjobs.buffalo.edu/postings/60615
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upload any additional attachments as these will not be considered by the selection panel. You’ll have a PhD (or equivalent) in molecular biology, AAV gene therapy, drug screening, IPSC work, or a relevant
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Carl von Ossietzky Universität Oldenburg | Oldenburg Oldenburg, Niedersachsen | Germany | 6 days ago
to gain a better understanding of human hearing and to enable new therapies for human hearing loss. Your tasks: Establishing novel transgenic Drosophila models for studying the bases of human hearing and
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key driver of tumor progression and therapy resistance. Despite their clinical significance, the molecular mechanisms governing nerve-tumor interactions remain poorly understood. Our project aims