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the construction of the new 3D-ICE system, the fabrication of the cell niche, as well as conducting and supporting related experiments. This will include focusing on in vivo studies (design and execution) and
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samples, laboratory cell lines and animal models. Ongoing and future projects include (i) genomic and functional characterization of molecular drivers of women’s cancers, (ii) biology and therapy
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computing platform like Slicer3D; possess hands-on experience with Unity 3D development, including rendering, animation, UI systems, optimization, and cross-platform builds; experience in developing and
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for a Post-Doctoral Fellow to study stem cell biology in colitis and lymphoblastic leukemia using state-of-the-art techniques such as 3D platform and respective animal models; and dissecting the molecular
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for pediatric diseases. Project Description: Our research focuses on how genetic variants contribute to diseases during early development and on developing mechanism-driven therapeutics. While animal models have
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Supplemental Qualifications Background in neuroscience, developmental neuroscience/biology is preferred. Experience in 3D organoid development would be a positive. Candidate should be strong in molecular biology
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infection and explore strategies to enhance mucosal immunity. Using a combination of in vivo animal models and ex vivo 3D cellular systems, we study airway-specific immune mechanisms that influence
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gene editing technologies, and/or with synthetic biology and optogenetics will be positively evaluated. Affinity with perfusion bioreactors, soft tissue engineering, hydrogel-based 3D culture
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-scale multi-area in vivo neural recording, wireless electrophysiology in freely moving animals, custom-engineered sensory-motor behaviors, neural perturbation, viral labeling, and computation. Our work is
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are looking for a postdoctoral researcher with strong mouse or rat expertise who will lead heart and vascular studies using our new 3D super-resolution ultrasound platform. You will also have the chance to