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    Near-Infrared Upconversion Optogenetics
  • Optogenetics: A Look Forward and a Look Back
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    Optogenetic Dissection of Brain Circuits Causing Levodopa-Induced Dyskinesia
  • Developing Patient-specific Stem Cell Models to Inform Epilepsy Therapies
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    Modeling Oligodendrocyte Death in Human Pelizaeus-Merzbacher Disease
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    Human ES Cell-based Modeling of Pediatric High-grade Glioma
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    Genetically Engineered Cerebral Organoids Model Human Brain Tumor Formation
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    Self-organization of hESC Differentiation Patterns to Model Human Diseases in the Ectodermal Compartment
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    MiSTR Crossing Microfluids and hESC to Generate a Predictable in vitro Model for Studying Early Human Neural Development
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    Using Organoids to Model Brain Development and Evolution
  • Human Pluripotent Stem Cells for the Study of Enteric Nervous System Development and Disease
  • This confocal image shows a fluorescently labeled mouse vomeronasal organ at embryonic day 13.5. The developing vomeronasal organ is composed of two distinct neuronal types that can be distinguished based on the expression of the specific transcription factors AP-2ε(cyan) and Meis2 (magenta).
    The Local Epileptor: Part 1
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