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disease. Our research program focuses on identifying mechanisms involved in the progression of chronic kidney disease. Specifically, we investigate the mechanisms that regulate proliferation
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a multidisciplinary research team focused on developing energy-efficient and fault-tolerant AI systems that can operate reliably in the radiation-rich environment of space. The project integrates
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Siemens Prisma Fit (and additional 3 T systems if desired) to collect structural and dynamic MRI data. * Quantitative analysis: develop pipelines for dynamic MRI and physiologic data; integrate multimodal
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sequence implementation: operate a 3 T Siemens Prisma Fit (and additional 3 T systems if desired) to collect structural and dynamic MRI data. ● Quantitative analysis: develop pipelines for dynamic MRI
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sequence implementation: operate a 3 T Siemens Prisma Fit (and additional 3 T systems if desired) to collect structural and dynamic MRI data. ● Quantitative analysis: develop pipelines for dynamic MRI
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signaling during Drosophila development as well as cancer. We use Drosophila developmental genetics, cell biology and biochemistry to address these questions. Substantial training will be provided
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signaling during Drosophila development as well as cancer. We use Drosophila developmental genetics, cell biology and biochemistry to address these questions. Substantial training will be provided
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laboratory experimentation. ● Prepare, lead, edit, contribute to, and submit large collaborative publications. ● Assist in lab management, including the direction and mentorship of personnel and
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that will work to further develop time- and angle-resolved photoemission (tr-ARPES) using advanced extreme ultraviolet light (XUV) sources. The successful applicant will conduct tr-ARPES experiments
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laboratory experimentation. ● Prepare, lead, edit, contribute to, and submit large collaborative publications. ● Assist in lab management, including the direction and mentorship of personnel and