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Comparative and Historical Aspects of the Togaviridae and Flaviviridae

  • James S. Porterfield
Part of the The Viruses book series (VIRS)

Abstract

Virology is one of the youngest branches of science, having its roots firmly in the study of infectious diseases (Waterson and Wilkinson, 1978). Yellow fever occupies a unique position in the history of virology, and much of our knowledge of the viruses that are the subject of this volume is derived directly or indirectly from research on yellow fever and its causative virus. Although a viral etiology of diseases of plants and domestic animals antedated similar findings concerning diseases that affect man, yellow fever was the first infectious disease of man to be shown to be due to a filterable agent or virus. Yellow fever was also the first viral infection of man to be shown to be transmitted by a blood-sucking arthropod, making yellow fever (YF) virus the archetypal arthropod-borne virus, or “arbovirus.” YF virus was the first arbovirus to be successfully cultivated in the laboratory. Field studies on yellow fever resulted in the isolation of many other arboviruses, some of which in time became known as the Group A and Group B arboviruses. A collective name for these viruses was needed, and the term “togavirus” (from the Latin toga, a Roman “mantle” or “cloak,” a reference to the possession of a viral envelope) was adopted as a convenient jargon name. The same root later provided the officially approved family name Togaviridae. This family initially contained only two genera, Alphavirus (the former Group A arboviruses) and Flavivirus (the former Group B arboviruses), named after the type species, YF virus (from the Latin flavus, “yellow”). Ironically, the very recent elevation of the flaviruses to the level of a family has meant their removal from the family Togaviridae, but this change in no way invalidates the dominant role of YF virus in the history of virology in general and of the Togaviridae in the context of this volume. The stages in the foregoing highly condensed and oversimplified history will now be considered in more detail.

Keywords

West Nile Virus Japanese Encephalitis Virus Bovine Viral Diarrhea Virus Yellow Fever Japanese Encephalitis 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Agadzi, V. K., Boatin, B. A., Appawu, M. A., Mingle, J. A. A., and Addy, P. A., 1984, Yellow fever in Ghana, 1977–1980, Bull. W.H.O. 62: 577–583.PubMedGoogle Scholar
  2. American Committee on Arthropod-borne Viruses, 1969, Arbovirus names, Am. J. Trop. Med. Hyg. 18: 731–734.Google Scholar
  3. American Committee on Arthropod-borne Viruses, 1970, Catalogue of arthropod-borne viruses of the world, Am. J. Trop. Med. Hyg. (Suppl.) 19: 1079–1160.Google Scholar
  4. Andrewes, C. H. 1953, The Rio Congress decisions with regard to study of selected groups of viruses, Ann. N. Y. Acad. Sci. 56: 428–432.PubMedCrossRefGoogle Scholar
  5. Andrewes, C. H., 1970, Generic names of viruses of vertebrates, Virology 40: 1070–1071.CrossRefGoogle Scholar
  6. Baltimore, D., 1971, Expression of animal virus genomes, Bacteriol. Rev. 35: 235–241.PubMedGoogle Scholar
  7. Berge, T. D., 1975, International Catalogue of Arboviruses, U. S. Department of Health, Education, and Welfare, DHEW Publ. No. ( CDC ) 75–8301.Google Scholar
  8. Bres, P., 1980, Development of the WHO programme in the field of arboviruses and allied viruses, in: Arboviruses in the Mediterranean Countries (J. Vesenjak-Hirjan, J. S. Porterfield, and E. Arslanagic, eds.), pp. 1–6, Zentralbi. Bakteriol. Suppl. 9, Gustav Fischer Verlag, Stuttgart.Google Scholar
  9. Brinton, M., 1980, Non-arbo togaviruses, in: The Togaviruses: Biology, Structure, Replication ( R. W. Schlesinger, ed.), pp. 623–666, Academic Press, New York.Google Scholar
  10. Brinton-Darnell, M., and Plagemann, P. G. W., 1975, Structural and chemical—physical characteristics of lactate-dehydrogenase-elevating virus and its RNA, J. Viol. 16: 420–433.Google Scholar
  11. Brown, F., 1986, Classification and nomenclature of viruses: 5th Report of ICTV, Intervirology (in press).Google Scholar
  12. Carter, H. R., 1931, Yellow Fever: An Epidemiological and Historical Study of Its Place of Origin, Williams and Wilkins, Baltimore.Google Scholar
  13. Casals, J., 1944, Immunological relationships among central nervous system viruses, J. Exp. Med. 79: 341–359.PubMedCrossRefGoogle Scholar
  14. Casals, J., 1957, The arthropod-borne viruses of vertebrates, Trans. N. Y. Acad. Sci. 19: 219–235.PubMedCrossRefGoogle Scholar
  15. Casals, J. 1962. Antigenic relationships among arthropod-borne viruses: Effect on diagnosis and cross immunity, in: Biology of the Tick-borne Encephalitis Complex ( H. Libikova, ed.), pp. 56–66, Czechoslovak Academy of Sciences, Prague.Google Scholar
  16. Casals, J., 1966, Special points about classification of arboviruses, in: IX International Congress of Microbiology, Moscow, pp. 441–452, Ivanovski Institute of Virology, Moscow.Google Scholar
  17. Casals, J., 1971, Arboviruses: Incorporation in a general system of virus classification, in: Comparative Virology ( K. Maramarosch and E. Kurstak, eds.), pp. 307–333, Academic Press, New York.Google Scholar
  18. Casals, J, and Brown, L. V., 1953, Hemagglutination with certain arthropod-borne viruses, Proc. Soc. Exp. Biol. Med. 83: 170–173.PubMedGoogle Scholar
  19. Casals, J., and Brown, J. V., 1954, Hemagglutination with arthropod-borne viruses, I. Exp. Med. 99: 429–449.CrossRefGoogle Scholar
  20. Downs, W. G., 1982, The Rockefeller Foundation virus program 1951–1971, with an update to 1981, Annu. Rev. Med. 33: 1–29.PubMedCrossRefGoogle Scholar
  21. Fenner, F., 1976, Classification and nomenclature of viruses: 2nd Report of ICTV, Inter-virology 7: 1–115.Google Scholar
  22. Fenner, F., Pereira, H. G,. Porterfield, J. S., Joklik, W. K., and Downie, A. W., 1974, Family and generic names for viruses approved by the International Committee on Taxonomy of Viruses, June 1974, Intervirology 3: 193–198.PubMedCrossRefGoogle Scholar
  23. Haddow, A. J., 1967–1968, The natural history of yellow fever in Africa, Proc. R. Soc. Edinburgh Sect. B. 70: 191–227.Google Scholar
  24. Hallauer, C., 1946, Über den Virusnachweis mit dem Hirst-Test, Schweiz. Z. Pathol. Bakteriol. 9: 553–554.PubMedGoogle Scholar
  25. Hammon, W. McD., and Reeves, W. C., 1945, Recent advances in the epidemiology of the arthropod-borne virus encephalitides, including certain exotic types, Am. J. Public Health 35: 994–1004.CrossRefGoogle Scholar
  26. Havens, W. P., Watson, D. W., Green, R. H., Lavin, G. I., and Smadel.,J. E., 1943, Complement fixation with neurotropic viruses, I. Exp. Med. 77: 139–153.CrossRefGoogle Scholar
  27. Holmes, I. H., and Warburton, M. F. 1967, Is rubella an arbovirus?, Lancet 2: 1233–1236.CrossRefGoogle Scholar
  28. Horzinek, M. C., 1981, Non-Arthropod-borne Togaviruses, Academic Press, New York.Google Scholar
  29. Horzinek, M. C., and Mussgay, M., 1969, Studies on the nucleocapsid structure of a group A arbovirus, /. Virol. 4: 514–520.Google Scholar
  30. Isakov, N., Feldman, S., and Segal, S., 1982, The mechanism of modulation of humoral immune responses after infection of mice with lactic dehydrogenase virus, J. Immunol. 128: 969–975.PubMedGoogle Scholar
  31. Kaariainen, L., and Soderlund, H., 1978, Structure and replication of alphaviruses, Curr. Top. Mi cro bi ol. Immunol. 82: 15–69.CrossRefGoogle Scholar
  32. Kalkkinen, N., Oker-Blom, C., and Pettersson, R. F., 1984, Three genes code for rubella virus structural proteins, El, Eta, E2b and C, I. Gen. Virol. 65: 1549–1557.CrossRefGoogle Scholar
  33. Karabatsos, N., 1978, International catalogue of arboviruses including certain other viruses of vertebrates, Am. J. Trop. Med. Hyg. (Suppl.) 27 (2): 372–440.Google Scholar
  34. Leon, M., Gravell, O., Gutenson, R., Hamilton, R., and London, W., 1982, Classification of simian hemorrhagic fever virus, in Fifth International Congress of Virology ( L. Hirth and F. A. Murphy, eds.), Institute de Biologie Moleculaire et Cellulaire, Strasbourg, Abstracts, p. 385.Google Scholar
  35. Lwoff, A., and Tournier, P., 1966, The classification of viruses, Annu. Rev. Microbiol. 20: 45–73.PubMedCrossRefGoogle Scholar
  36. Lwoff, A., Home, R., and Tournier, P., 1962, A system of viruses, Cold Spring Harbor Symp. Quant. Biol. 27: 51–55.PubMedCrossRefGoogle Scholar
  37. Matthews, R. E. F., 1979, Classification and nomenclature of viruses: 3rd Report of ICTV, Intervirology 7: 132–296.Google Scholar
  38. Matthews, R. E. F., 1982, Classification and nomenclature of viruses: 4th Report of ICTV, Intervirology 17: 1–199.CrossRefGoogle Scholar
  39. Matthews, R. E. F., 1983, A Critical Appraisal of Viral Taxonomy, CRC Press, Cleveland, Ohio.Google Scholar
  40. Michaelides, M. C., and Schlesinger, S., 1973, Structural proteins of lactic dehydrogenase virus, Virology 55: 211–217.PubMedCrossRefGoogle Scholar
  41. Monkton, R. P., and Westaway, E. G., 1982, Restricted translation of the genome of the flavivirus Kunjin in vitro, J. Gen. Viral. 63: 227–232.CrossRefGoogle Scholar
  42. Murphy, F. A., Harrison, A. K., and Whitfield, S. G., 1973, Bunyaviridae: Morphologic and morphogenetic similarities of Bunyamwera serologic supergroup viruses and several other arthropod-borne viruses, Intervirology. 1: 297–316.PubMedCrossRefGoogle Scholar
  43. Noguchi, H., 1919, Etiology of yellow fever: Transmission experiments on yellow fever, J. Exp. Med. 29: 565–584.PubMedCrossRefGoogle Scholar
  44. Noguchi, H., 1925, Yellow fever research, 1918–1924: Summary, L. icteroides, J. Trop. Med. 28: 185–193.Google Scholar
  45. Oker-Blom, C., Ulmanen, I Kaariainen, L. and Pettersson, R.F., 1984, Rubella virus 40S genome RNA specifies a 24S subgenomic mRNA that codes for a precursor to structural proteins, J. Virol. 49: 403–408.Google Scholar
  46. Porterfield, J. S., 1962, The nature of serological relationships among arthropod-borne viruses, Adv. Virus Res. 9: 127–156.CrossRefGoogle Scholar
  47. Porterfield, J. S., Casals, J., Chumakov, M. P., Gaidamovich, S. Ya., Hannoun, C., Holmes, I. H., Horzinek, M. C., Mussgay, M., and Russell, P. K., 1973–1974, Bunyaviruses and Bunyaviridae, Intervirology 2: 270–272.Google Scholar
  48. Porterfield, J. S., Casals, J. Chumakov, M. P., Gaidamovich, S. Ya., Hannoun, C., Holmes, I. H., Horzinek, M. C., Mussgay, M., Oker-Blom, N., and Russell, P. K., 1975–1976, Bunyaviruses and Bunyaviridae, Intervirology 6: 13–24.Google Scholar
  49. Porterfield, J. S., Casals, J., Chumakov, M. P., Gaidamovich, S. Ya., Hannoun, C., Holmes, I. H., Horzinek, M. C., Mussgay, M., Oker-Blom, N., Russell, P. K., and Trent, D. W., 1978, Togaviridae, Intervirology 9: 129–148.PubMedCrossRefGoogle Scholar
  50. Purchio, A. F., Larson, R., and Collett, M. S., 1983, Characterization of virus-specific RNA synthesized in bovine cells infected with bovine viral diarrhea virus, J. Virol. 48: 320324.Google Scholar
  51. Purchio, A. F., Larson, R., and Collett, M. S., 1984a, Characterization of bovine viral diarrhea virus proteins, J. Virol. 50: 666–669.PubMedGoogle Scholar
  52. Purchio, A. F., Larson, R., Torborg, L. L., and Collett, M. S., 1984b, Cell free translation of bovine viral diarrhea virus RNA, J. Virol. 52: 973–975.PubMedGoogle Scholar
  53. Reed, W., and Carroll, J., 1902, Etiology of yellow fever: Supplemental note, Am. Med. 3: 301–315.Google Scholar
  54. Riley, V., 1974, Persistence and other characteristics of lactate-dehydrogenase-elevating virus (LDH-virus), Prog. Med. Viral. 18: 198–213.Google Scholar
  55. Rivers, T. M., 1928, Filterable Viruses, Williams and Wilkins, Baltimore.Google Scholar
  56. Rowson, K. E. K., and Mahy, B. W. J., 1975, Lactic Dehydrogenase Virus, Springer-Verlag, New York.Google Scholar
  57. Rowson, K. E. K., and Mahy, B. W. J., 1985, Lactate dehydrogenase-elevating virus, J. Gen. Virol. 66: 2297–2312.PubMedCrossRefGoogle Scholar
  58. Sabin, A. B., 1950, The dengue group of viruses and its family relationships, Bacteriol. Rev. 14: 225–232.PubMedGoogle Scholar
  59. Sabin, A. B., and Buescher, E. L., 1950, Unique physico-chemical properties of Japanese B encephalitis virus hemagglutinin, Proc. Soc. Exp. Biol. Med. 74: 222–230.PubMedGoogle Scholar
  60. Saikku, P., von Bonsdorff, C.-H., Brummer-Korvenkontio, M., and Vaheri, A., 1971, Isolation of non-cubical ribonucleoprotein from Inkoo virus, a Bunyamwera supergroup arbovirus, J. Gen. Virol. 13: 335–337.PubMedCrossRefGoogle Scholar
  61. Self, L. S., 1982, WHO activities on controlling vectors of arboviral diseases in the Western Pacific region, in: Viral Diseases in South-East Asia and the Western Pacific ( J. S. Mackenzie, ed.), pp. 494–497, Academic Press, Sydney.Google Scholar
  62. Smithburn, K. C., 1942, Differentiation of the West Nile virus from the viruses of St. Louis and Japanese encephalitis, J. Immunol. 44: 25–31.Google Scholar
  63. Smithburn, K. C., Hughes, T. B., Burke, A. W., and Paul, J. H., 1940, A neurotropic virus isolated from the blood of a native of Uganda, Am. J. Trop. Med. 20: 471–492.Google Scholar
  64. Stokes, A., Bauer, J. H., and Hudson, N. P., 1928, Experimental transmission of yellow fever to laboratory animals, Am. J. Trop. Med. 8: 103–164.Google Scholar
  65. Strode, G. K., 1951, Yellow Fever, McGraw-Hill, New York, 710 pp.Google Scholar
  66. Stueckemann, J. A., Holth, M., Swart, W. J., Kowalchyk, K., Smith, M. S., Wolstenholme, A. J., Cafruny, W. A., and Plagemann, P. G. W., 1982, Replication of lactate dehydrogenase-elevating virus in macrophages. 2. Mechanism of persistent infection in mice and cell culture, J. Gen. Virol. 59: 263–272.PubMedCrossRefGoogle Scholar
  67. Svitkin, Y. V., Ugarova, T. Y., Chernovskaya, T. V., Lyapustin, V. N., Lashkevich, V. A., and Agol, V. I., 1981, Translation of tick-borne encephalitis virus (flavivirus) genome in vitro: Synthesis of two structural polypeptides, Virology 110: 26–34.PubMedCrossRefGoogle Scholar
  68. Taylor, R. M., 1962, Purpose and progress in cataloguing and exchanging information on arthropod-borne viruses, Am. J. Trop. Med. Hyg. 11: 169–174.PubMedGoogle Scholar
  69. Taylor, R. M., 1967, Catalogue of arthropod-borne viruses of the world: A collection of data on registered arthropod-borne animal viruses, USPHS Publ. No. 1760, U.S. Government Printing Office, Washington, D.C.Google Scholar
  70. Theiler, M., and Downs, W. G., 1973, The Arthropod-borne Viruses of Vertebrates, Yale University Press, New Haven, 578 pp.Google Scholar
  71. Theiler, M., and Smith, H. H., 1937, Use of yellow fever virus modified by in vitro cultivation for human immunization, J. Exp. Med. 65: 787–800.PubMedCrossRefGoogle Scholar
  72. Tournier, P., and Lwoff, A., 1966, Systematics and nomenclature of viruses: The PCNV proposals in: IX International Congress of Microbiology, Moscow, pp. 417–422. Ivanovski Institute of Virology, Moscow.Google Scholar
  73. Van Berlo, M. F., Horzinek, M. C., and van der Zeijst, B. A. M., 1982, Equine arteritis virusinfected cells contain six polyadenylated virus-specific RNA’s, Virology 118: 345–352.PubMedCrossRefGoogle Scholar
  74. Van der Zeijst, B. A. M., Horzinek, M. C., and Moennig, V., 1975, The genome of equine arteritis virus, Virology 68: 418–425.PubMedCrossRefGoogle Scholar
  75. Von Bonsdorff, C.-H., Saikku, P., and Oker-Blom, N., 1969, The inner structure of Uukuniemi virus and two Bunyamwera supergroup arboviruses, Virology 39: 342–344.CrossRefGoogle Scholar
  76. Waterson, A. P., and Wilkinson, L., 1978, An Introduction to the History of Virology, Cambridge University Press, Cambridge, 237 pp.Google Scholar
  77. Webster, L. T., 1938, Japanese B encephalitis virus: Its differentiation from St. Louis encephalitis virus and relationship to louping ill virus, J. Exp. Med. 67: 609–618.PubMedCrossRefGoogle Scholar
  78. Wengler, G., Beato, M., and Wengler, G., 1979, In vitro translation of 42S virus specific RNA from cells infected with the flavivirus West Nile virus, Virology 96: 516–529.Google Scholar
  79. Westaway, E. G., 1973, Proteins specified by group B togaviruses in mammalian cells during proliferative infections, Virology 51: 454–465.PubMedCrossRefGoogle Scholar
  80. Westaway, E. G., 1980, Replication of flaviviruses, in: The Togaviruses: Biology, Structure, Replication (R. W. Schlesinger, ed.), pp. 531–581, Academic Press, New York.Google Scholar
  81. Westaway, E. G., and Shew, M., 1977, Proteins and glycoproteins specified by the flavivirus Kunjin, Virology 80: 309–319.PubMedCrossRefGoogle Scholar
  82. Westaway, E. G., Brinton, M. A., Gaidamovich, S. Ya., Horzinek, M. C., Igarashi, A., Kaariainen, L., Lvov, D. K., Porterfield, J. S., Russell, P. K., and Trent, D. W., 1985, Flaviviridae, Intervirology 24: 183–192.PubMedCrossRefGoogle Scholar
  83. W.H.O., 1961, Arthropod-borne viruses, W.H.O. Technical Report Series, No. 219.Google Scholar
  84. W.H.O., 1967, Arboviruses and human disease, W.H.O. Technical Report Series, No. 369.Google Scholar
  85. Wildy, P., 1971, Classification and nomenclature of viruses: 1st Report of ICNV, Monogr. Virol. Vol. 5, S. Karger, Basel.Google Scholar

Copyright information

© Plenum Press, New York 1986

Authors and Affiliations

  • James S. Porterfield
    • 1
  1. 1.Sir William Dunn School of PathologyUniversity of OxfordOxfordEngland

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