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. The exclusion decision will be communicated to the candidate(s) by e-mail for the purpose of a prior hearing of the interested parties. False statements made by candidates shall be punished in accordance with
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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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and molecular biology will be valued, namely: different cell culture models, particularly in tumorigenic models, , cellular transfection, cell viability assays, luminescence and/or fluorescence assays
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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 of this project is to identify novel proteins that bind mtDNA
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-wide initiative to build foundation models that simulate the evolution of tumor ecosystems. You will be the lead engineer contributing to large-scale generative modelling on single-cell, spatial-omics
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. Atomistic Simulation of electronically excited processes in molecules and materials is essential for our understanding of the working principles of emerging energy conversion technologies, e.g. solar cells
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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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transplant rejection through cutting-edge spatial multi-omics and computational metabolic modeling. The role involves developing and implementing computational methods to integrate single-cell and spatial
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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
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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