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. Jennifer McManus, examining protein phase transitions associated with biomolecular condensation in-vitro using a range of scattering and fluorescence microscopy techniques. The overall aim is to understand
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nucleic acids chemical biology. Its research centers on the design of fluorescent nucleoside analogues and molecular probes that enable new ways to visualize, interrogate, and modulate nucleic acids in
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injury following myocardial infarction. The study employs various imaging modalities, including confocal laser scanning microscopy and light sheet fluorescence microscopy, alongside flow cytometric and
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of Prof. Jennifer McManus, examining protein phase transitions associated with biomolecular condensation in-vitro using a range of scattering and fluorescence microscopy techniques. The overall aim is to
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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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) microscopy, FLIM, STED, lattice lightsheet microscopy, fluorescence correlation spectroscopy (FCS), image processing and analysis and spectral imaging. More information about the ABIF can be found at: http
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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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. - 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
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experience maintaining a mouse colony, as well as stereotactic surgery, brain dissection, immunofluorescence, fluorescence microscopy, and confocal microscopy. City: Piscataway State: NJ Location: Busch (RU
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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