Generation of recombinant MVA-norovirus: A comparison study of bacterial artificial chromosome- and marker-based systems

Franziska Kugler, Ingo Drexler, Ulrike Protzer, Dieter Hoffmann, Hassan Moeini

Research output: Contribution to journalArticlepeer-review

6 Scopus citations

Abstract

Background: Recombinant Modified Vaccinia Virus Ankara has been employed as a safe and potent viral vector vaccine against infectious diseases and cancer. We generated recMVAs encoding norovirus GII.4 genotype capsid protein by using a marker-based approach and a BAC-based system. In the marker-based approach, the capsid gene together with a reporter gene was introduced into the MVA genome in DF-1 cells. Several rounds of plaque purification were carried out to get rid of the WT-MVA. In the BAC-based approach, recMVA-BAC was produced by en passant recombineering in E. coli. Subsequently, the recMVAs were rescued in DF-1 cells using a helper rabbit fibroma virus. The BAC backbone and the helper virus were eliminated by passaging in DF-1 cells. Biochemical characteristics of the recMVAs were studied. Results: We found the purification of the rare spontaneous recombinants time-consuming in the marker-based system. In contrast, the BAC-based system rapidly inserted the gene of interest in E. coli by en passant recombineering before virion production in DF-1 cells. The elimination of the reporter gene was found to be faster and more efficient in the BAC-based approach. With Western blotting and electron microscopy, we could prove successful capsid protein expression and proper virus-assembly, respectively. The MVA-BAC produced higher recombinant virus titers and infected DF-1 cells more efficiently. Conclusions: Comparing both methods, we conclude that, in contrast to the tedious and time-consuming traditional method, the MVA-BAC system allows us to quickly generate high titer recMVAs.

Original languageEnglish
Article number100
JournalVirology Journal
Volume16
Issue number1
DOIs
StatePublished - 9 Aug 2019

Keywords

  • Bacterial artificial chromosome
  • Norovirus
  • Recombinant MVA
  • Self-excising

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