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laboratory focuses on developing physics-based computational methods to study protein structure, dynamics, and drug design. For more information about Dr. Vaidehi’s lab, please visit here. As a successful
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of Hope. This role offers an exciting opportunity to investigate immune checkpoint signaling within the tumor microenvironment and contribute to the development of novel anticancer therapies
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successful candidate, you will: Develop MR pulse sequences and perform image reconstruction. Conduct medical imaging post-processing using conventional and deep-learning based approaches. Coordinate MR imaging
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are working on this may be the perfect opportunity: 1. Development of cell-free DNA (mutation and methylation), RNA, and exosomal-based liquid assays for early cancer detection, prognosis, and predictive
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primarily focuses on structural and biophysical methods to identify sources of energy additivity and multivalency in macromolecular complexes and use these properties to develop new tools and novel
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Biology, Chromatin Regulation, Cancer Epigenetics, Epigenetics Regulation, Cancer Metabolism, Immunology, Drug Discovery, Development, and Structural Biology, with an emphasis on RNA epigenetics
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of adipose tissue and its link to age-related metabolic disorders and cancer. Ultimately, we aim to mitigate the pathogenesis and develop treatments for chronic metabolic diseases. We have established unique
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. Develop new techniques/protocols and help other lab projects.
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engineered mouse models and molecular pharmacology tools to identify novel signaling pathways in metabolism to develop new targets for drug discovery. Our research interests include: 1) Liver-gut and
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labs involved in cutting edge technology, research, and clinical immunotherapeutic programs. Dr. Lior Goldberg’s lab currently has an opening for a Postdoctoral Fellow who will develop chimeric antigen