97 algorithm-development-"Multiple"-"Simons-Foundation"-"Prof"-"UNIS"-"St" Fellowship positions at Nature Careers
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technologies to study disease mechanisms and develop innovative therapeutic approaches for dementia and motor neuron diseases. Why join the Zhu Lab? Leadership level role in independent and collaborative
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cardiometabolic and mitochondrial biology. The Endogenous Peptides Laboratory, led by Dr. Lena Ho, is a leader in microprotein discovery, functional characterization and therapeutic development. The goal
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Limited. The Knowledge Transfer Partnership project will focus on developing technically and commercially viable gas diffusion layers for high-volume applications using recycled carbon fibre, creating a
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travel funds Freedom to explore high-risk concepts: three-year fully funded position Open, collaborative, interdisciplinary research environment Enabling framework in which to develop interdisciplinary
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development? and ii) Why does this morphogenesis go awry in vascular diseases? We apply developmental biology, genetic, biochemical, and omics approaches to uncover key insights into the morphogenesis and
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well as a comprehensive portfolio of training and career development opportunities. Each fellow will be embedded in a co-supervision framework designed to support high-quality mentorship, promote mutual
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populations. We conduct groundbreaking research that advances treatment, we educate tomorrow's physician/researchers, and we work with amazing partners, including other Harvard Medical School-affiliated
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., somatic) somatic mutations in the human brain. The lab is interested in studying somatic variation as it pertains to typical brain development as well as in neurological diseases like epilepsy. To that end
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, we educate tomorrow's physician/researchers, and we work with amazing partners, including other Harvard Medical School-affiliated hospitals. Located in Boston and the surrounding communities, Dana
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of the following projects: The molecular regulation of insulin secretion. In particular, the characterization of new (unpublished) transgenic models to study SENP1 (e.g. PMID: 38184650) The development of novel