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approach. Fundamental research focuses on induced pluripotent stem cell (iPSC)-derived neuronal models to elucidate the molecular and cellular alterations contributing to neurodegeneration in familial and
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: Hematopoietic Stem Cell/Bone Marrow Transplantation, Solid Organ Transplantation and Histocompatibility Testing and obtain/maintain their California Clinical Histocompatibility Scientist or Director's license
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Position Summary The Millman biomedical research laboratory uses stem cells for the study and treatment of diabetes. We have a wide diversity of projects involving stem cells differentiation
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are working on a platform focused on the development of induced pluripotent stem cells (iPSC) for FD modeling in neural cells. The following are required qualifications: experience with cell culture, molecular
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will have strong expertise in stem cell biology, cell/tissue transplantation biology, advanced imaging, and animal (mouse) work. This position offers a rare opportunity to define a new research direction
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for utilizing human induced pluripotent stem cell-derived models and animal models to study molecular mechanisms of arrhythmias, the effects of current treatments and identify new therapeutic targets. This person
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at the University of Michigan in the Department of Cell & Developmental Biology (CDB). We use a combination of developmental biology models including Xenopus (frog), mouse, and pluripotent stem cells, gene editing
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LSRP that has an interest in the basic science of stem cells, cardiovascular diseases and drug discovery. The project builds on recent initiatives at the Stanford University Cardiovascular Institute
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requires basic knowledge in biomedicine, including the molecular biology of the eukaryotic (stem) cell, pathomechanisms, and immunobiology. The curriculum also provides knowledge in cellular, genetic and
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23.10.2025, Academic staff Living systems develop complex structures and functions through principles of self-organization. Stem-cell derived organoids represent a unique platform to dissect