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Scholar for the Li Research Lab. The Li lab studies how FABPs regulate cell metabolism and intracellular signal transduction pathways in leukocytes, and determines the mechanisms by which FABPs link high
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grasslands. What we expect from you • University degree (M.Sc.) and Ph.D. in Agricultural Science, Biology, Ecology, Environmental Science or a related field. • Thorough understanding of the processes
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fellowship or Ph.D. Research Scientist opportunity Stanford University School of Medicine Stanford, CA Genomic Landscape, Signaling Pathways and Targeted Therapies for Pediatric Leukemia Laboratory of Kathleen
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13.03.2023, Wissenschaftliches Personal We are looking for motivated students to work on the development and implementation of a cheap and scalable ceramic processing concept towards a fully sprayed
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 3 days ago
processes. Position Summary Postdoctoral Positions in Mechanisms Underlying Neural Circuit Development and Neurodevelopmental Disorders-Neuroscience Center, UNC, Chapel Hill Anton lab in the Neuroscience
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 3 months ago
institutions. We have outstanding research programs underway in all areas of modern Chemistry. Chemistry also is a focal point for interdisciplinary research efforts on campus in biological and materials
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 3 days ago
for two projects: 1) The role of blood coagulation, coagulation-dependent signaling and platelets in viral infections of the heart and lung. 2) Coagulation-dependent signaling in chemotherapy-induced heart
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for their use as sensors or improving signal acquisition by modern image processing based on artificial intelligence. Magnetic imaging and near-field microscopy. We operate a scanning probe microscope that can
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the first mutations in the NLGN-NRXN-SHANK pathway, which has a key role in synapse formation within the brain. Our results highlight the genetic heterogeneity of autism, but also point at common biological
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molecular/cellular studies for axonal RNA transport & translation and cell signaling; Develop pipeline for high throughput analysis for protein aggregation and axon growth using cell lines and primary neuron