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supported by multiple NIH award (R01, U54) and several other prestigious private awards. As a successful candidate, you will: Directly work on the following projects: 1) RNA modifications and RNA-binding
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Cancer (2024), Blood (2022, 2019, 2019), Blood Cancer Journal (2022), Cell Stem Cell (2018). The Li research program is supported by multiple NIH (R01s), American Cancer Society, The Alex’s Lemonade Stand
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metabolic syndrome · Utilize multiple cutting-edge technologies, including spatial transcriptomics and single nuclei multiomics, to dissect the molecular mechanisms of cardiomyopathy under diabetes
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-impact publications. Your qualifications should include: PhD or M.D. Experiences in iPSCs and/or mouse models/handing (mouse genetics experience preferred) Experience in cardiovascular disease and/or
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, FOLFOX-3B—all of which completed with numerous biomarker-driven projects pending). Participate in paper writing of multiple research projects. Data sets will be electronic. No biological samples will be
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therapeutics or nucleic-acid chemistry o Nanoparticle / liposome formulation and characterization o HTS assay development and robotic screening o Recombinant protein expression in multiple hosts o
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scientific rigor and excellence as documented by peer-reviewed publications. Ability to work in a fast-paced research environment and manage multiple projects and collaborations. Strong team player with
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bone marrow transplantation. We are looking for a highly motivated candidate with a PhD degree interested in using microbiological methods with the aim of developing novel strategies to improve bone
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on multi-modal data analysis and interpretation. Contribute to high-impact manuscript preparation and grant submissions. Your qualifications should include: PhD in Neuroscience, Neuropsychology, Pharmacology
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presentation, ability to work efficiently in a team and with collaborators · Experience in Single Cell Multi-omics techniques and multiple component analysis programs is an advantage · Previous