Watching viruses form, one virus at a time
ORAL · Invited
Abstract
Simple viruses consist of RNA and proteins that form an icosahedral shell (called a capsid) that protects the RNA. Many simple viruses are self-assembled: mixing the RNA and the capsid proteins in a test tube leads to spontaneous formation of infectious viruses in high yield. This result suggests that we can understand RNA virus self-assembly from the perspective of statistical physics. The central question is how a random process like self-assembly can lead to a high yield of well-formed viruses. I will discuss some potential answers to that question based on experiments that measure the kinetics of assembly of individual viruses.
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Publication: Garmann, Rees F., Aaron M. Goldfain, and Vinothan N. Manoharan. "Measurements of the Self-Assembly Kinetics of Individual Viral Capsids around Their RNA Genome." Proceedings of the National Academy of Sciences 116, no. 45 (September 30, 2019): 22485–90. https://doi.org/10.1073/pnas.1909223116.<br><br>Goldfain, Aaron M., Rees F. Garmann, Cheylene R. Tanimoto, Christian E. Beren, Charles M. Knobler, William M. Gelbart, and Vinothan N. Manoharan. "Single-Particle Studies of the Effects of Ionic Strength and Protein Concentration on the Self-Assembly of RNA Virus Particles," preprint
Presenters
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Vinothan N Manoharan
Harvard University
Authors
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Vinothan N Manoharan
Harvard University