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research project utilizing innovative techniques including cell culture and organoid systems, single-cell analyses, and disease models. Responsibilities will include: leading independent research projects
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biology, cancer biology, molecular biology, immunology, and bioinformatics are all welcome to apply. Lab techniques include mammalian cell culture, mouse models, standard molecular biology and biochemistry
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pacemakers that respond to neural and kinematic markers of movement impairment. We are now working towards expanding this approach to address the currently unsolved problem of cognitive impairment in
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scalable model to determine if biochar can economically reduce wildfire risk, strengthen forest resilience, and deliver durable carbon sequestration with community and environmental co-benefits. The Fellow
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combination of precision medicine-oriented techniques including single-cell RNA-seq, TCR-seq, and CyTOF as well as classical molecular biology, cell modeling and animal modeling. We also collaborate with a
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illness; and (3) population-conscious research and improved models of care delivery for all older adults. Post-doctoral experience: Postdoctoral fellows will pursue a two-year program of mentored research
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immunology, cell biology, or molecular biology. Preferred qualifications: Research experience in immunology, murine models, primary mammalian cell culture, multi-color flow cytometry, cell sorting, gene
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and practice. We launched ROAR envisioning a new model: an open-source, open-access assessment platform, grounded in ongoing academic research, and co-developed in collaboration with school-district
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in patients. The lab analyzes multi-parametric datasets of single cell proteomics (flow cytometry/CyTEK/CyTOF), single cell transcriptomics (single-cell RNA-sequencing), cytokine, and patient response
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modeling of biological systems. One major effort in the lab is the µDicer platform (https://www.nature.com/articles/s41378-024-00756-8 (link is external) ; https://www.biorxiv.org/content/10.64898