NACDDB - The Web Server for DNA,RNA,and Hybrids Circular Dichroism Structure

Characterization and in vitro assembly of tick-borne encephalitis virus C protein

Overview of Kaufman F et al.

AuthorsKaufman F  Dostálková A  Pekárek L  Thanh TD  Kapisheva M  Hadravová R  Bednárová L  Novotný R  Křížová I  Černý J  Grubhoffer L  Ruml T  Hrabal R  Rumlová M  
AffiliationDepartment of Biotechnology   University of Chemistry and Technology   Prague   Prague   Czech Republic.  
JournalFEBS Lett
Year 2020

Abstract


Tick-borne encephalitis virus (TBEV), a member of flaviviruses, represents a serious health threat by causing human encephalitis mainly in central and eastern Europe, Russia, and northeastern Asia. As no specific therapy is available, there is an urgent need to understand all steps of the TBEV replication cycle at the molecular level. One of the critical events is the packaging of flaviviral genomic RNA by TBEV C protein to form a nucleocapsid. We purified recombinant TBEV C protein and used a combination of physical-chemical approaches, such as size-exclusion chromatography, circular dichroism, NMR spectroscopies, and transmission electron microscopy, to analyze its structural stability and its ability to dimerize/oligomerize. We compared the ability of TBEV C protein to assemble in vitro into a nucleocapsid-like structure with that of dengue C protein.