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fundamental laboratory science with clinical research as part of the Mental Health, Dementia and Neurodegeneration Research Theme https://www.ncl.ac.uk/medical-sciences/research/research-themes/mental-health
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sequencing analysis Clone DNA and propagate in bacteria Culture and transfect mammalian cells Perform Northern and Western blot analyses Perform fluorescence microscopy and luciferase assays, including data
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National Aeronautics and Space Administration (NASA) | Greenbelt, Maryland | United States | 2 months ago
include (but are not limited to): Develop algorithms to characterize aerosol speciation from LIDAR fluorescence signals Develop machine learning emulators to represent forward operators for polarimeter-only
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University of California, San Francisco | San Francisco, California | United States | about 1 month ago
is $28.04 - $45.09 (Hourly Rate). To learn more about the benefits of working at UCSF, including total compensation, please visit: https://ucnet.universityofcalifornia.edu/compensation-and-benefits
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-molecule TIRF microscopy, biochemical reconstitution, and fluorescent labeling, we will watch individual RNA molecules and degradosome complexes at work, capturing millisecond-scale dynamics that shape gene
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Essential: Proficiency in fluorescence microscopy techniques (confocal, wide-field, live-cell); experience with microfluidic systems or single-cell analysis; strong background in image analysis; demonstrated
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experiments group (You+Supervisor+support by lab). These collaborations enable practically relevant and breakthrough results. This team goal requires initially videomicroscopy of X-Y fluorescently labeled sperm
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for mitochondrial mRNA levels and degradation using a fluorescent microscopy-based approach. The proteins identified in this screening will be further characterized through various molecular, biochemical, and
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spatial structures, physical laws, high-dimensional imaging, and clinical covariates. Apply these methods to spatial transcriptomics and fluorescence imaging data to gain a more precise understanding of
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. - Structural and biochemical characterization of DNA origami using TEM, AFM, Cryo-EM, gel electrophoresis, and fluorescence-based assays. - Engineering of dynamic and stimuli-responsive DNA origami nano-machines