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EV in vivo tracking studies, spatial transcriptomics, imaging mass-cytometry, micro-CT imaging and experimental fetal lung models to address key questions in lung development and repair. This position
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, multi-color flow cytometry, mouse disease models, human patient samples, 3D bone marrow organoid models, single-cell RNA-Sequencing, and general molecular and cellular biology techniques. Working
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milieu of host cells (T cell subsets, etc.) responsible for responding to this organism, both in acute and adaptive models of infection. Additionally, we are dissecting mechanisms of infection, including
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metrics since 2000. 2. Assess the Effects of 3-D Urban Structure on Extreme Humid Heat: Analyze variations in humid heat using Landsat thermal bands, MODIS, and humidity data, modeling how urbanization
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Position Summary Research is aimed at understanding the pathogenesis of blood cancers, with a focus on myeloproliferative neoplasms. Experimental approaches involve mouse modeling, in vitro work in
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. For more information, please visit the University of Washington Labor Relations website. Qualifications Minimum Qualifications * PhD awarded by the start date in a relevant field, such as library and
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consequences of DNA damage in cancers. Several projects are available based on the relevant expertise and interest of the candidate. These include: • Elucidating the impact of defective checkpoint signaling
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funded ARPA-H project, we have multiple positions available immediately, focusing on developing Silicon-based photonic integrated circuit (PIC) devices for optical coherence tomography (OCT), ophthalmic
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biology, animal modeling, genomics and bioinformatics. Any subset of these skills are ideal as there are multiple different projects that can fit the candidates prior research experience and interest
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. Individuals who join this lab will gain skills in advanced microscopy, cutting-edge genomics techniques, genome editing, patient-derived cancer models, and transgenic mouse development in a highly collaborative