Using SHAPE-MaP To Model RNA Secondary Structure and Identify 3′UTR Variation in Chikungunya Virus
Emily A. Madden, Kenneth S. Plante, Clayton R. Morrison, Katrina M. Kutchko, Wes Sanders, Kristin M. Long, Sharon Taft-Benz, Marta C Cruz Cisneros, Ashlyn Morgan White, Sanjay Sarkar, Grace L. Reynolds, Heather A. Vincent, Alain Laederach, Nathanial J. Moorman, Mark T. Heise
Abstract
Chikungunya virus (CHIKV) is a mosquito-borne RNA virus that causes febrile illness and debilitating arthralgia in humans. CHIKV causes explosive outbreaks but there are no approved therapies to treat or prevent CHIKV infection. The CHIKV genome contains functional RNA secondary structures that are essential for proper virus replication. Since RNA secondary structures have only been defined for a small portion of the CHIKV genome, we used a chemical probing method to define the RNA secondary structures of CHIKV genomic RNA. We identified 23 highly specific structured regions of the genome, and confirmed the functional importance of one structure using mutagenesis. Furthermore, we defined the RNA secondary structure of three CHIKV 3'UTR variants that differ in their ability to replicate in mosquito cells. Our study highlights the complexity of the CHIKV genome and describes new systems for designing compensatory mutations to test the functional relevance of viral RNA secondary structures.