Choi's Research Lab


















Our research focuses on the structure and mechanism of viral replication and infection machinery using X-ray crystallography and cryo-electron microscopy. High-resolution X-ray crystal structures of individual component proteins can be fitted into lower resolution cryo-EM density maps to generate pseudo-atomic structure of large macromolecular complexes.


Viral Genome Replication

Viral genome replication

Replication of the viral genome is the primary goal of any viral infection, and thus obtaining structural information on the flavivirus replicase complex is an important step in understanding the virus replication mechanism and in developing antiviral therapeutics. Many RNA viruses have the RNA capping machinery functionally and physically linked to the replication machinery as multi-domain and larger multi-protein complexes. We are currently investigating such replicase interactions in Flaviviridae.



Virus-host interaction

Virus-host interaction

Mammalian cells respond to viral infection by inducing an innate immune response involving interferon α/β that mediates cellular antiviral defenses. Viruses, in turn, have evolved mechanisms to counter the host's innate immune response by inhibiting the interferon response. We are studying how pestivirus Npro suppresses the transcriptional activation of the interferon-α/β genes.

Virus structure and assembly

Virus structure and assembly

Despite the significant impact of flavivirus infection such as Japanese encephalitis, dengue, yellow fever, and West Nile, virus_struct1_adj no antiviral therapies are available for treatment and existing flavivirus vaccines are of limited utility. We use cryo-electron microscopy to study the structures of viruses and viral vaccine candidates to help develop vaccines and antiviral agents.