Readily Accessible Multiplane Microscopy: 3D Tracking the HIV‐1 Genome in Living Cells |
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Authors: | Michelle S. Itano Marina Bleck Daniel S. Johnson Sanford M. Simon |
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Affiliation: | Laboratory of Cellular Biophysics, The Rockefeller University, New York, NY, USA |
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Abstract: | Human immunodeficiency virus (HIV)‐1 infection and the associated disease AIDS are a major cause of human death worldwide with no vaccine or cure available. The trafficking of HIV‐1 RNAs from sites of synthesis in the nucleus, through the cytoplasm, to sites of assembly at the plasma membrane are critical steps in HIV‐1 viral replication, but are not well characterized. Here we present a broadly accessible microscopy method that captures multiple focal planes simultaneously, which allows us to image the trafficking of HIV‐1 genomic RNAs with high precision. This method utilizes a customization of a commercial multichannel emission splitter that enables high‐resolution 3D imaging with single‐macromolecule sensitivity. We show with high temporal and spatial resolution that HIV‐1 genomic RNAs are most mobile in the cytosol, and undergo confined mobility at sites along the nuclear envelope and in the nucleus and nucleolus. These provide important insights regarding the mechanism by which the HIV‐1 RNA genome is transported to the sites of assembly of nascent virions. |
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Keywords: | cytoplasm diffractive optics diffusion fluorescence microscopy HIV‐1 multiple imaging RNA three‐dimensional microscopy transport |
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