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validation of these models using human induced pluripotent stem cells (hiPSCs). In collaboration with members of the OMBION consortium, you will further expand our systems to include relevant pain-associated
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23.10.2025, Wissenschaftliches Personal Living systems develop complex structures and functions through principles of self-organization. Stem-cell derived organoids represent a unique platform to
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epigenetics or/and experience in working on embryonic/adult stem cells and cancer cell lines are a plus. The Somyajit lab, based at Department of Biochemistry and Molecular Biology , SDU, has a deep interest in
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cells or stem cell-based biomaterials? And eager to explore cutting-edge technologies like genome editing and in vivo imaging? Or are you perhaps fascinated by eye research and do you have an affinity
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embryonic stem cells, C. elegans , D. melanogaster , zebrafish and mouse, and have strong links with other preclinical and clinical departments, as well as the Washington University Center for Regenerative
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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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capabilities for cell therapy (CAR-T cells, stem cells, etc.), monoclonal antibodies, and small molecule generation, in line with our vested interest in commercializing our discoveries so that they can reach
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pluripotent stem cell (iPSC)-derived cultures and organoids. A key focus will be on understanding age-related cellular pathways and evaluating delivery nanoplatforms for RNA-based therapies across brain
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, microscopy, flow cytometry and cell culture. Relevant publications: Chhatbar et al., bioRxiv (2025): https://doi.org/10.1101/2025.11.14.688441 Watson*, Pantier* et al., Life Sci Alliance (2023) https://doi.org
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features. Using our recently developed chromosome engineering approach, we have created isogenic stem cell lines that allow us to precisely isolate the effects of the chromosomal abnormality from other