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Department School of Dental Medicine Posting Number R260038 Posting Link https://www.ubjobs.buffalo.edu/postings/61385 Employer Research Foundation Position Type RF Professional Job Type Full-Time Appointment
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cell culture and basic molecular biology techniques including cloning, qPCR, RT-qPCR, cloning, fluorescence microscopy, flow cytometry, and Southern and Western blotting Computer proficiency in Microsoft
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discipline, or equivalent. A2 Specialist theoretical and practical knowledge in the following: -Drosophilamelanogaster -Fluorescence-based confocal microscopy -Cell death A3 A comprehensive and up-to-date
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. The research activity requires the acquisition of several instrumental signals. In particular, the developed models will be based on data from spectroscopic (UVVIS, Fluorescence, RAMAN) and volatilomic (GC-IMS
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Project Scientist (Time-resolved Fluorescence Spectroscopy) - Butte Lab - Department of Neurosurgery
https://main.hercjobs.org/jobs/22002456/project-scientist-time-resolved-fluorescence-spectroscopy-butte-lab-department-of-neurosurgery Return to Search Results
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measurement rigs and conventional rolling-sliding tribometers as well as in-contact fluorescence to explore the in-contact composition of lubricant films and local viscosity and rheological description
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sheet fluorescence microscopy, alongside flow cytometric and mass spectrometric analyses, to examine the recruitment and polarization mechanisms within distinct inflammatory niches. You will be
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rays/sun exposure, and noise Subject to environments with crying children and bright (fluorescent) lighting Tools and Equipment This position may require the use of: Computers, iPads, iPods, and other
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, paint/patching of walls and ceilings, understanding of fire alarms/panels, gas fire places, electric/gas appliances, and electrical work such as ballasts, fluorescent and LED lighting. Ability to perform
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-molecule TIRF microscopy, biochemical reconstitution, and fluorescent labeling, we will observe individual RNA molecules and degradosome complexes in action, capturing millisecond-scale dynamics that shape