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the biological mechanisms underlying immune tolerance in HSCT. The laboratory has the additional goal of using a bench-to-bedside approach to develop novel cellular therapies for GVHD prevention and for targeting
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researcher to work on Cellular Regulation and Mechanisms of Protein Arginylation Modification. Our research is aiming to elucidate the biological functions of arginylation, discover the protein substrates
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. Eisenberg about also applying for the Biological Mechanisms of Healthy Aging Training Program (https://live-uwhalo.pantheonsite.io/uwhalo/bmha/post-doctoral-openings/ ). The position is 100% FTE for 12 months
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lab is dedicated to understanding the mechanical operating principles of the actin cytoskeleton in cellular membrane bending and trafficking. We utilize a blend of biophysical modeling, genome-editing
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, including micropublishing, iterative preprint releases, and evidence-based knowledge graphs. Lab Environment: The Akamatsu lab is dedicated to understanding the mechanical operating principles of the actin
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. The overarching mission of I-LABS is to understand the mechanisms of human learning, especially in early development. More information about I-LABS can be found at: (http://ilabs.washington.edu ). This I-LABS
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of the children. The overarching mission of I-LABS is to understand the mechanisms of human learning, especially in early development. More information about I-LABS can be found at: (http://ilabs.washington.edu