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of mouse ES cells, study of human brain cancer xenografts, and use of human iPS cells. Conducts studies of gene function during normal mammalian brain development, and how abnormalities in normal brain
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in Biomedical Engineering, Bioengineering, Microbiology, Urogynecology, Obstetrics and Gynecology or related fields. Desired expertise in human cell cultures, organoids, Organ Chips, or other in vitro
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Dr. Ryan Dhindsa’s lab is seeking a Postdoctoral Associate to work on an NIH-funded project. The Dhindsa Lab integrates human genomics, single-cell multi-omics, and stem cell models to advance
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The Human Genome Sequencing Center (HGSC) at Baylor College of Medicine Is seeking a postdoctoral associate to play a pivotal role in our genomic medicine efforts, focusing on projects
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biochemical, cellular, and molecular biology approaches in human and several mouse models. Project will provide opportunities to study platelet phosphatase mediated alterations in the immune response to lung
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. The candidate will use human and mouse HSPCs, murine models of genetic disorders and iPSC-derived cells. The project also includes the investigation of the mechanisms involved in the rescue of nervous tissues by
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through the growth factor/estrogen/immune axis, utilizing various genetically modified animal models and human endometrial organoids derived from patients with endometriosis. Subsequently, our goal is to
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in the healthy human brain, with further applications in neurodegenerative disorders such as Huntington’s Disease, Parkinson’s and Alzheimer’s disease. The goal is to develop new imaging methodologies
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have a strong background in molecular biology, histological analysis and culturing human iPS-derived cardiomyocytes is desired. Individuals with experience in cardiac physiology are also strongly
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. Our team combines experimentation and computational analyses to advance precision medicine. We attack important and challenging problems by integrating data from human specimens, cell lines, organoids