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Compute, you will work in the Embedded Systems Engineering section and do research in the Io(U)T field. You will work with colleagues in the section and in our network of strong academic and industrial
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plasticity metrics derived from functional MRI data. Investigate developmental differences in infant brain functional networks Support generation and testing of improvements for code bases for the analysis
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., gene knockdown, qPCR, antigen presentation assays) to dissect pathways of cell death sensing • Conduct transcriptomic and pathway analyses (e.g., RNA-seq) to uncover regulatory networks • Generate
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-foundation-launches-collaboration-on-ecological-neuroscience/ ). Collaborative Network You will engage with a global team of scientists, including but not limited to: • Jan Zimmermann (University of Minnesota
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experiments pertaining to the role of transcription factor mediated networks to direct the fate of stem and iPS cells to a mesodermal fate (i.e. cardiac, endothelial, skeletal muscle); and conducting research
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—an essential characteristic for replicating neural network behavior. The position offers a unique opportunity to engage in cutting-edge research at the intersection of quantum materials and advanced electron
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situated within U of T’s School of Cities, allowing the recipient to benefit from the broad network associated with the school and its affiliates. Eligibility is limited to applicants who will have completed