Temperature-dependent, Intermediate Particles from the Entry of Picornaviruses in
Belnap, David Michael   
Brigham Young University, Provo, UT, United States

Non-enveloped viruses breach the formidable cell membrane and deposit their infectious nucleic acid in the appropriate cellular compartment, a process known as """"""""cell entry."""""""" Mechanisms of entry for non-enveloped viruses are not well understood, though animal viruses are known to first interact with a cellular receptor. For poliovirus, the type member of the picornavirus family, the virus-receptor interaction induces temperature-dependent changes that allow entry. The picornaviruses are a group of significant human pathogens and are a model system for understanding entry of viruses into cells. We propose to investigate temperature-dependent transitions that occur during the cell entry of poliovirus. We propose to determine the three-dimensional structures of intermediate particles via cryogenic electron microscopy. After 3D structures are determined, we will model the transitions by fitting atomic-resolution coordinates into the cryo-EM structures. Our work should give insights into the mechanisms of cell entry for picornaviruses and other non-enveloped viruses. The project will include two concurrent undergraduate students as primary researchers throughout the duration of the project.

Public Health Relevance

Viruses must enter cells to affect living things. Picornaviruses (e.g. common-cold viruses, poliovirus, and hepatitis A virus) are important human pathogens. Understanding the entry process of picornaviruses will give a fuller mechanistic picture of how these and other viruses cause disease and may give insights into anti-viral therapies.