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of laminar/neuropixel probes and electrical microstimulation to study attention and decision making networks in a behaving animal model together with parallel studies in humans. The project is part of a NIMH
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senior researcher to characterize the impact of microbial metabolites on animal immunity. The successful candidate will join a highly collaborative group with strengths in cell biology, mouse genetics
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manipulate immune cell behavior at the single-cell level in live animals. This groundbreaking approach has enabled real-time study of distinct macrophage populations, providing new insights into how
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was established to create innovative research and teaching programs at the interface of modern biology and the more quantitative sciences. We seek applicants for postdoctoral or more senior research positions
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of laminar/neuropixel probes and electrical microstimulation to study attention and decision making networks in a behaving animal model together with parallel studies in humans. The project is part of a NIMH
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manipulate immune cell behavior at the single-cell level in live animals. This groundbreaking approach has enabled real-time study of distinct macrophage populations, providing new insights into how
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microbial metabolites on animal immunity. The successful candidate will join a highly collaborative group with strengths in cell biology, mouse genetics, and molecular biology. The P.I. is dedicated
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attention and decision making networks in a behaving animal model together with parallel studies in humans. The project is part of a NIMH Silvio O. Conte Center on the "Cognitive Thalamus". The successful
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-cell level in live animals. This groundbreaking approach has enabled real-time study of distinct macrophage populations, providing new insights into how these cells drive tissue repair and how aging
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interested in computational materials design and discovery. The successful candidate will develop new, openly accessible datasets and machine learning models for modeling redox-active solid-state materials