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Field
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challenges in stem cell research, aging and disease modeling. The group employs methodologies from different areas of mathematics, engineering, and physics, and integrates multiple sources of biological
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challenges in stem cell research, aging and disease modeling. The group employs methodologies from different areas of mathematics, engineering, and physics, and integrates multiple sources of biological
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mouse embryonic stem cells to allow for rapid protein depletion, mapping transcriptional effects (RNA-seq, TT-seq, PRO-seq), proximity labeling approaches, ChIP, and the bioinformatic analysis
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regulating molecular responses to cancer therapies in human induced pluripotent stem cells) data for elucidating molecular mechanisms for health outcomes; and 3) evaluating health disparities through
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capable of conducting electrical currents over centimeter distances. Electric currents are channelled via highly conductive protein fibers embedded in the cell envelope. These fibers form a unique
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their training. The Barefield lab uses mouse models and human induced pluripotent stem cell derived cardiomyocyte models of genetic cardiovascular disease to study contractile biophysics, cellular and whole-heart
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applying must have a PhD degree in biomedicine, molecular medicine, molecular biology, gene technology, immunology, stem cell biology or a related discipline. Expertise in experimental haematology
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the candidate's doctoral degree was conferred: PhD in Tissue Engineering, Regenerative Medicine and Stem Cells, Biomaterials, Biomedical Engineering or related fields; b) Candidate's Curriculum Vitae, regarding
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instability in human stem cells, disease, and cancer, using human pluripotent stem cells and targeted differentiation approaches as a primary working model. Our goal is to determine how DNA and RNA instability
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Design and synthesize nanoparticles targeted to patient-derived GBM models by functionalization. Work in vitro using patient source glioblastoma stem cells, cell culture experiments including cytotoxicity