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Summary: Our lab aims to understand the mechanisms underlying metabolic remodeling and cardiac fibrosis in hypertrophic cardiomyopathy (HCM), using mouse models and human induced pluripotent stem cells
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University of Texas Health Science Center San Antonio | San Antonio, Texas | United States | about 6 hours ago
) with stem cell transplant and cellular therapy capabilities. UT Health San Antonio offers competitive salaries with excellent benefits. The San Antonio area provides an outstanding quality of life, along
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leukemia in children. We have several projects related to these general topics. Each focuses on gene regulation â“ and changes that occur in gene regulation â“ during stem cell development and
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induced pluripotent stem cells (iPSCs), including reprogramming, maintenance, and differentiation into cardiomyocytes and non-myocyte cells; utilizes CRISPR-Cas9 genome editing to model genetic
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of AccelBio’s platform “Advanced in vitro systems” by carrying experimental activities such as culture of human pluripotent stem cells, including cell maintenance and differentiation; RNA extraction and real-time
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Heidelberg). The work of our research group (http://lab.mueller-tidow.de ) focuses on stem cells and therapy resistance. We aim to understand how epigenetic dysregulation participates in the pathogenesis and
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position is available immediately in the Laboratory for Stem Cells and Tissue Engineering directed by Dr. Gordana Vunjak-Novakovic. We are looking for a highly motivated Research Scientist to join our team
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, including single-cell genomics (Wright, Lloyd), sexual selection and reproduction (Wright, Pomiankowski, Hemmings, Wigby), gene editing (Dasmahapatra), experimental approaches (Wigby), and stalk-eyed fly
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STEM CELL TRANSPLANT AND CELLULAR THERAPY Requisition # 75800 Position Basics Type of PositionOTHER Advertising Ends on:Extended Until Position is Filled Advertising Started on:Tuesday, November
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related to these general topics. Each focuses on gene regulation – and changes that occur in gene regulation – during stem cell development and differentiation. We use mice to model pediatric malignancies