Journal of Microbiology and Biotechnology

The Korean Society for Microbiology and Biotechnology (한국미생물·생명공학회)
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Optimization of Propagation of Anagrapha falcifera Nuclear Polyhedrosis Virus in Spodoptera Frugiperda 21 Cells

  • Lee, Jong-Min (Department of Genetic Engineering and Plant Metabolism Research Center, Kyung Hee University) ;
  • Chang, Kyung-Hwa (Department of Genetic Engineering and Plant Metabolism Research Center, Kyung Hee University) ;
  • Park, Jin-O (Department of Genetic Engineering and Plant Metabolism Research Center, Kyung Hee University) ;
  • Park, Jong-Hwa (Department of Genetic Engineering and Plant Metabolism Research Center, Kyung Hee University) ;
  • Hwang, In-Sook (Department of Genetic Engineering and Plant Metabolism Research Center, Kyung Hee University) ;
  • Lee, Youn-Hyung (Department of Genetic Engineering, Kyung Hee University) ;
  • Yang, Jai-Myung (Department of Life Science, Sogang University) ;
  • Chung, In-Sik (Department of Genetic Engineering and Plant Metabolism Research Center, Kyung Hee University)
  • Published : 2000.10.01
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Abstract

Propagation of Anagrapha falcifera nuclear polyhedrosis virus(AfNPV) was investigated using well-plates and split-flow air-lift bioreactors. In well-plate experiments, the effects of pH, cell density at a point of infection, serum concentration, DEAE-dextran, and lipid on virus propagation were all closely examined. The AfNPV titer in well-plates was optimal at pH 6.8 and $3{\times}10^6$ cells/$cm^2$. The virus titer was not dramatically affected when the fetal bovine serum concentration was reduced from 10% to 5%. The addition of cholesterol at AfNPV infection of Sf21 cells enhanced the virus titer, whereas the addition of DEAE-dextran did not improve the titer. The AfNPV titer ($3.8{\times}10^7$ $TCID_{50}/ml$) at optimized conditions for well-plate experiments was 2.5-fold higher than for the control. In bioreactor experiments, the AfNPV titer showed its maximum level at air flow rates of 20-40 ml/min. In a split-flow air-lift bioreactor, AfNPV titer ($2.3{\times}10^7\;TCID_{50}/ml$) was 1.5-fold higher than the control when the culture was at pH 6.8 and supplemented with 0.34 mM cholesterol.

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References

  1. J. Gen. Virol v.77 Physical map of Anagrapha falcifera multinucleocapsid nuclear polyhedrosis virus Chen, C. J.;D. J. Leisy;S. M. Thiem
  2. Biotechnol. Lett v.15 Effect of Trichoplusian ni BTI-Tn 5BI-4 cell density on human secreted alkaline phosphatase production Chung, I. S.;M. L. Shuler
  3. Biotechnol. Prog v.9 Production of human alkaline phosphatase, a secreted,glycosylated protein, from a baculovirus expression system and the attachment-dependent cell line Trichoplusia ni BTI-Tn 5BI-4 using a split-flow air lift bioreactor Chung, I. S.;R. A. Taticek;M. L. Shuler
  4. Appl. Environ. Microbiol v.41 Physical factors that affect in vitro Autographa califonica nucler polyhedrosis virus infection Dougherty, E. M.;R. M. Weiner;J. L. Vaughn;C. F. Reichelderfer
  5. In-Vitro Cultivation of Animal Cells Characterization of cell lines Gor, D.;E. Lucassen;C. K. Leach(ed.)
  6. Biotechnol. Bioeng v.22 Infectivity and mode of action of baculoviruses Granados, R. R.
  7. J. Microbiol. Biotechnol v.8 Expression and characterigation of recombinant E2 protein of hepatitis C virus by insect cell/baculovirus expression system Han, B. K.;B. Lee;M. K. Min;K.-H. Jung
  8. Environ. Entomol v.20 A new broad host spectrum nuclear polyhedrosis virus isolated from a celery looper, Anagrapha falcifera (Kirby), (Lepidoptera: Noctuidae) Hostetter, D. L.;B. Puttler
  9. J. Virol v.1 Effect of polyions on the infectivity of rabier virus in tissue culture: Construction of a single-cycle growth curve Kaplan, M. M.;J. J. wiktor;R. F. Maes;J. B. Campbell;H. K. Koprowski
  10. J. Gen. Virol v.65 Baculovirus replication: Phosphorylation of polypeptides synthesized in Trichoplusia ni nuclear polyhedrosis virus-infected cells Kelly, D. C.;T. Lescott
  11. J. Microbiol. Biotechnol v.9 Reduction of FBS concentration through adaptation process in mammalian cell culture and addition of silkworm hemolymlh in insect cell culture Kim, E. J.;T. H. Park
  12. J. Virol v.14 Replication of a nuclear polyhedrosis virus in a continuous cell culture of Spodoptera frugiperda: Purification , assay of infectivity, and growth characteristics of the virus Knudson, D. L.;T. W. tinsley
  13. J. Microbiol. Biotechnol v.8 Construction of a baculovirus expression system using Hyphantria cunea nuclear polyhedrosis virus for enkaryotic cells Lee, H. H.;B. J. Kang;K. J. Park;S. C. Cha
  14. Agri. Chem. Biotech v.38 Biotechmical analysis of Baculovirus-insect cell interaction : I. Improved recombinant β-galactosidase production using medium additive at AcNPV infection of insect cells Lee, K. W.;T. Y. Kim;I. S. Shung
  15. Biotechnol. Techniq v.6 Trends in the development of baculovirus expression vectors Luckow, V. A.;M. D. Summers
  16. Baculovirus Expression Vectors: A Laboratory Manual O' Reilly, D. R.;L. K. Miller;V. A. Luckow
  17. J. Microbiol. Biotechnol v.9 Biochemical analysis Anagrapha falcifera NPV attachment to Spodoptera frugiperda 21 cells Park, J. O.;J. M. Yang;I. S. Chung
  18. Biotechnol. Bioeng v.36 The role of the plasma membrane fluidity on the shear sensitivity of hybridomas grown under hydrodynamic stress Ramirez, O. T.;R. Mutharasan
  19. Am. J. Hyg v.27 A simple method for estimating fifty percent endpoint Reed, L.;H. Muench
  20. J. Virol v.63 Identification sequence and transcriptional mapping of the major capsid protein gene of the baculovirus Autographa californica nuclear polyhedrosis Thiem, S. M.;L. K. Miller
  21. J. Virol v.19 Occluded and nonoccluded nuclear polyhedrosis virus grown in Trichoplusia ni: Comparative neutralization, comparative infectivity, and in vitro growth studies Volkman, L. E.;M. D. Summers;C. H. hsieh
  22. J. Gen. Virol v.66 Baculovirus replication: Uptake of Trichoplusia ni nuclear polyhedrosis virus particles by insect cells Wang, X.;D. C. Kelly
  23. Annu. Rev. Entomol v.44 The insect voltage-gated sodium channel as target of insecticides Zlotkin, E.