Novel Mechanism in Self-Renewal/Differentiation of Human Embryonic Stem Cells

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• Post published:April 8, 2025
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The most prominent feature of the stem cell is its pluripotent capacity to differentiate into various types of cells. The importance of the orchestrated interplay between molecular regulators has been…

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The function of YAP in human embryonic stem cells

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• Post published:April 8, 2025
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Embryonic stem cells have the potential to generate all tissue types that could be used for regenerative medicine, such as replacement of damaged neurons, replenish of insulin secreting beta cells,…

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Maturation of Human Oocytes for SCNT and Embryonic Stem Cell Derivation

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A major issue for tissue and cell therapy in regenerative medicine is the immune rejection of grafts originated from a non-compatible individual. Mature eggs contain factors essential for the re-programming…

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MGE Enhancers to Select for Interneuron Precursors Produced from Human ES Cells

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There are now viable experimental approaches to elucidate the genetic and molecular mechanisms that underlie severe brain disorders through the generation of stem cells, called iPS cells, from the skin…

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Endothelial cells and ion channel maturation of human stem cell-derived cardiomyocytes

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Cardiovascular diseases remain the major cause of death in the western world. Stem and progenitor cell-derived cardiomyocytes (SPC-CMs) hold great promise for myocardial repairs. However, most SPC-CMs displayed heterogeneous and…

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Role of the microenvironment in human iPS and NSC fate and tumorigenesis

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Multipotent Neural Stem Cells (NSC) can be derived from adult central nervous system (CNS) tissue, embryonic stem cells (ESC), or iPSC and provide a partially committed cell population that has…

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Self-renewal and senescence in iPS cells derived from patients with a stem cell disease

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The discovery of induced pluripotent stem (iPS) cell technology promises to revolutionize our understanding of human disease and to allow the development of new cellular therapies for regenerative medicine applications.…

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Molecular Characterization and Functional Exploration of Nuclear Receptors in hiPSCs

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Our lab is known for its discovery of the family of nuclear hormone receptors (NHRs) that use vitamins/hormones to control genes and thereby regulate embryonic development, cell growth, physiology and…

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RNA Binding Protein-mediated Post-transcriptional Networks Regulating HPSC Pluripotency

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Human embryonic stem cells (hESC) have the remarkable capacity to replicate indefinitely and differentiate into virtually any cell type in the human body. Maintaining this pluripotent cell state requires the…

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WNT signaling and the control of cell fate decisions in human pluripotent stem cells.

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With their ability to develop into virtually all mature cell types, human pluripotent stem cells (hPSC) represent a unique and powerful research tool to study the fundamental mechanisms regulating human…

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