Publication

Interaction studies of human DEAD-box helicases with viral non-coding RNA

Authors: Corey Rhys Nelson (University of Lethbridge)
Co-authored by industrial partner: No

Type: Thesis

State: Published (Approved)
Published: July 2021

Abstract: Mosquito-borne illnesses are responsible for millions of deaths every year. Some of the most common diseases spread include Japanese Encephalitis, Zika, and Rift Valley Fever Virus. This thesis seeks to describe the interactions between the non-coding regions of the RNA genomes of the viruses above and DEAD-box RNA helicases DDX3X and DDX17. Microscale thermophoresis indicated that DDX3X binds the JEV 5’ RNA with a lower dissociation constant than the ZIKV 5’ but could unwind both RNAs. DDX17 binds both the intergenic non-coding and 5’ terminal RNAs from the S segment of the genome, also unwinding both. Small-angle X-ray scattering generated low-resolution 3D structures of DDX17 and the non-coding RNAs. Finally, using a baculovirus expression system has shown the potential to express full-length DDX3X but requires optimization before it is ready for downstream experimentation

Journal Keywords: virus; helicase; baculovirus; flavivirus; insect cell culture; microscale thermophoresis; analytical ultracentrifugation; small angle X-ray scattering; Flaviviral diseases; Bunyaviruses; Baculoviruses - Genetics; Non-coding RNA; RNA viruses; Virus disease

Diamond Keywords: Viruses

Subject Areas: Biology and Bio-materials


Instruments: B21-High Throughput SAXS

Discipline Tags:

Infectious Diseases Disease in the Developing World Health & Wellbeing Genetics Life Sciences & Biotech

Technical Tags:

Scattering Small Angle X-ray Scattering (SAXS)