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, SCALE develops innovative tools to explore, map, and simulate the inner architecture of cells. This interdisciplinary work expands our understanding of central biological processes and diseases – from
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geroscience research program focused on the mechanisms underlying aging, epigenetics, mitochondria, metabolism, inflammaging, cell death and senescence, chronic pain, healthspan, and functional capacity (both
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actively influence cancer development by signaling to tumor cells and promoting tumor growth. A central mechanism involves neuron-to-glioma synapses, which transmit neuronal activity to glioblastoma cells
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disease states involving mtDNA defects, we are working to elucidate how our cells normally ensure the stable maintenance of mtDNA and how mtDNA defects are communicated to the rest of the cell. The aim
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ribosome-mediated quality control and signaling pathways that govern cell fate decisions. The dysregulation of these surveillance mechanisms is linked to ribosome dysfunction, loss of proteostasis, and human
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cells) - Synchrotron measurements (e.g., diffraction, tomography, inelastic x-ray scattering, and/or absorption spectroscopy) - Measurements at X-ray Free Electron Laser (XFEL) facilities - Pulse-echo
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statistics, policies, and procedures related to campus safety. Go here to review: https://safety.temple.edu/reports-logs/annual-security-report You may request a copy of the report by calling Temple
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cell–derived organoids; patient–derived organoids; organ-on-chip platforms; microphysiological systems (MPS); 3D bioprinting of tissues and organs; advanced biofabrication techniques; integrated multi
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minutes, and published on https://apply.uc.pt/ . VII.IX -Jury Composition: President: Ana Sofia Bregieiro Eulálio, Principal Investigator, Center for Neuroscience and Cell Biology Effective Members: Miguel
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description In recent years, research has shown that neurons actively influence cancer development by signaling to tumor cells and promoting tumor growth. A central mechanism involves neuron-to-glioma synapses