04.10-11.24-HST-Xiao-Wang

Conference Video|Duration: 34:38
April 10, 2024
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  • Video details
    Spatially charting molecular cell types at single-cell resolution across the entire three-dimensional (3D) volume of the brain is critical to illustrating the molecular basis of the tissue anatomy and functions. Recent development of spatial transcriptomic methods has enabled scalable profiling of transcriptome-defined spatial cell atlas. Yet, there is still a big gap between spatial cell atlas and tissue function. In this presentation, I will introduce a few experimental and computational advances in the mapping of RNA life cycle in our lab that further enable multi-modality deep profiling of cell types and states in situ, bridging single-cell molecular profiles with single-cell functional status in intact biological tissues and accelerating gene-to-function discoveries in development and diseases.
  • Video details
    Spatially charting molecular cell types at single-cell resolution across the entire three-dimensional (3D) volume of the brain is critical to illustrating the molecular basis of the tissue anatomy and functions. Recent development of spatial transcriptomic methods has enabled scalable profiling of transcriptome-defined spatial cell atlas. Yet, there is still a big gap between spatial cell atlas and tissue function. In this presentation, I will introduce a few experimental and computational advances in the mapping of RNA life cycle in our lab that further enable multi-modality deep profiling of cell types and states in situ, bridging single-cell molecular profiles with single-cell functional status in intact biological tissues and accelerating gene-to-function discoveries in development and diseases.

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