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, viral tools, advanced bioinformatics, and statistical modeling to decode the complex molecular mechanisms that shape human vision. By leveraging high-dimensional data and cutting-edge computational
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of pioneering the next generation of human-induced pluripotent stem cell (iPSC)-derived organoid models. We focus on creating organoids with precise cell types, architecture, and functions that closely mirror
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bioinformatics, and statistical modeling to decode the complex molecular mechanisms that shape human vision. By leveraging high-dimensional data and cutting-edge computational analyses, we aim to uncover
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of pioneering the next generation of human-induced pluripotent stem cell (iPSC)-derived organoid models. We focus on creating organoids with precise cell types, architecture, and functions that closely mirror
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therapies for the treatment of corneal diseases. One research program investigates the microenvironment/niche of human limbal stem cells to elucidate those factors that govern the fate of limbal stem cells
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Scholar appointment offer is contingent upon evidence of a doctoral degree, documentation of employment eligibility in compliance with the Immigration Reform and Control Act of 1986, funding availability