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to join our multi-disciplinary lab. For more information about Dr. Ogembo’s lab, please visit here. As a successful candidate, you will: Access state-of-the-art facilities and resources
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to join our multi-disciplinary lab. For more information about Dr. Ogembo’s lab, please visit here. As a successful candidate, you will: Access state-of-the-art facilities and resources
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to study epigenetic changes in diabetes complications. The department uses state-of-the-art computational and systems biology data-analysis methods, genomic and epigenomic profiling approaches, novel
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the first to study epigenetic changes in diabetes complications. The department uses state-of-the-art computational and systems biology data-analysis methods, genomic and epigenomic profiling approaches
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to join our multi-disciplinary lab. For more information about Dr. Ogembo's lab, please visit here. As a successful candidate, you will: Access state-of-the-art facilities and resources
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study epigenetic changes in diabetes complications. The department uses state-of-the-art computational and systems biology data-analysis methods, genomic and epigenomic profiling approaches, novel
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them to translational cancer research. You will have access to state-of-the-art mass spectrometry instrumentation in Pirrotte Lab including Bruker timsTOF Ultra, timsTOF HT, Orbitrap Eclipse, Orbitrap
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to translational cancer research. You will have access to state-of-the-art mass spectrometry instrumentation in Pirrotte Lab including Bruker timsTOF Ultra, timsTOF HT, Orbitrap Eclipse, Orbitrap Fusion Lumos and
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to join our multi-disciplinary lab. For more information about Dr. Ogembo’s lab, please visit here. As a successful candidate, you will: Access state-of-the-art facilities and resources
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-of-the-art genomic approaches to study the development and evolution of glial brain tumors (gliomas). The lab has a particular interest in the fundamental role of telomere dysfunction in glioma development