Flaviviruses

doi:10.1017/CBO9780511541728.010

7 - Flaviviruses

from Section I - Introduction: RNA viruses

Published online by Cambridge University Press: 22 August 2009

Barbara W. Johnson

Edited by

Carol Shoshkes Reiss

Show author details

Barbara W. Johnson: Affiliation:
Diagnostic and Reference Laboratory, Arbovirus Branch, Division of Vector-Borne Infectious Diseases, Centers for Disease Control and Prevention, Fort Collins, CO, USA
Carol Shoshkes Reiss: Affiliation:
New York University

Book contents

Get access

Summary

Flaviviruses are small, positive-strand RNA viruses that are transmitted from infected to susceptible vertebrate hosts primarily by arthropods [1]. Flavivirus infections cause seasonal disease syndromes corresponding to mosquito and tick activity throughout the temperate and tropical areas of the world. These seasonal disease outbreaks have been recognized since the 1800s, although flaviviruses were not identified as the etiological agents and arthropods as the transmission vectors until early in the twentieth century, when virus isolation and characterization techniques were developed [1, 2, 3, 4]. The Flavivirus genus consists of nearly 80 viruses, approximately half of which are associated with human disease [1, 5]. Flaviviruses were originally classified in the Togaviridae family as group B arboviruses, to the group A arboviruses, now classified as alphaviruses (see Chapter 6), because they are both arthropod-borne viruses, or arboviruses, and they can cause similar disease syndromes. Both are also positive-strand RNA viruses; however, they have different genome organizations (see Chapter 6, and Figure 7.3) [5, 6]. The genus Flavivirus was later reclassified within the Flaviviridae family, which also includes the Pestivirus and Hepacivirus genera.

The majority of flaviviruses are arboviruses, with over half transmitted by mosquitoes and approximately one-third transmitted by ticks (Figure 7.1). Five flaviviruses have no known vector [1]. Flaviviruses are hypothesized to have derived from a monophyletic lineage, possibly a plant virus, which entered the transmission cycle of a common ancestor to both ticks and mosquitoes, or to ticks and then later mosquitoes [1, 7, 8].

Type: Chapter
Information: Neurotropic Viral Infections , pp. 120 - 138

DOI: https://doi.org/10.1017/CBO9780511541728.010 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2008

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Burke, D. and Monath T. P., Flaviviruses. In Knipe, D. and Howley, P. (Eds.), Fields virology, 4th edition, Lippincott Williams and Wilkins, Philadelphia, 2001, pp. 1043–125.Google Scholar

Monath, T., Yellow fever. In Plotkin, S. and Orenstein, W. W. (Eds.), Vaccines, 3rd Ed., WB Saunders, Philadelphia, 1999.Google Scholar PubMed

Monath, T. P., Yellow fever. In Monath, T. P. (Ed.), The arboviruses: Epidemiology and ecology, vol. 5, CRC Press, Boca Raton, FL, 1989, pp. 139–231.Google Scholar

Solomon, T., N Engl J Med, 351 (2004) 370–8.CrossRef

Calisher, C. and Karabatsos, N. In Monath, T. P. (Ed.), The arboviruses: Epidemiology and ecology, vol. 1, CRC Press, Boca Raton, FL, 1988, pp. 19–57.Google Scholar

Roehrig, J. T., Adv Virus Res, 59 (2003) 141–75.CrossRef

Mackenzie, J., Poidninger, M., Lindsay, M., et al., Virus Genes, 11 (1996) 225–37.CrossRef

Mackenzie, J. S. and Field, H. E., Arch Virol, 18 (Suppl) (2004) 97–111.

Calisher, C. H., Karabatsos, N., Dalrymple, J. M., et al., J Gen Virol, 70 (1989) 37–43.CrossRef

McMinn, P. C., J Gen Virol, 78 (Pt 11) (1997) 2711–22.CrossRef

Kuno, G. and Chang, G. J., Clin Microbiol Rev, 18 (2005) 608–37.CrossRef

Gubler, D. J., Clin Microbiol Rev, 11 (1998) 480–96.

Gubler, D. J., Ann Acad Med Singapore, 27 (1998) 227–34.

Porterfield, J. S., Adv Virus Res, 31 (1986) 335–55.CrossRef

Tesh, R. B., Travassos da Rosa, A. P., Guzman, H., et al., Emerg Infect Dis, 8 (2002) 245–51.CrossRef

Gritsun, T. S., Holmes, E. C., and Gould, E. A., Virus Res, 35 (1995) 307–21.CrossRef

Monath, T. P., Pathobiology of the flaviviruses, Plenum, New York, 1986.CrossRef Google Scholar

Grard, G., Moureau, G., Charrel, R. N., et al., Virology, 2006.

Kuno, G., Chang, G. J., Tsuchiya, K. R., et al., J Virol, 72 (1998) 73–83.

Centers for Disease Control and Prevention, MMWR, Morb Mortal Wkly Rep, 52 (2003) 916–9.

Centers for Disease Control and Prevention, MMWR, Morb Mortal Wkly Rep, 53 (2004) 281–4.

Cushing, M. M., Bradt, D. J., Mosunjac, M. I., et al., Am J Clin Pathol, 121 (2004) 26–31.CrossRef

Iwamoto, M., Jernigan, D. B., Guasch, A, et al., N Engl J Med, 348 (2003) 2197–203.CrossRef

Montgomery, S. P., Brown, J. A., Kuehnert, A., et al., Transfusion, 46 (2006) 2038–46.CrossRef PubMed

Solomon, T. and Winter, P. M., Arch Virol, 18 (Suppl) (2004) 161–70.

Chambers, T. J., Hahn, C. S., Galler, R., et al., Annu Rev Microbiol, 44 (1990) 649–88.CrossRef

Lindenbach, B. and Rice, C. In Knipe, D. and Howley, P. (Eds.), Fields virology, Lippincott Williams and Wilkins, Philadelphia, 2001, pp. 991–1043.Google Scholar

Kuhn, R. J., Zhang, W., Rossmann, M. G., et al., Cell, 108 (2002) 717–25.CrossRef

Mukhopadhyay, S., Kim, B. S., Chipman, M. G., et al., Science, 302 (2003) 248.CrossRef

Zhang, Y., Corver, J., Chipman, P. R., et al., Embo J, 22 (2003) 2604–13.CrossRef

Heinz, F. X. and Roehrig, J. T., Flaviviruses. In Regenmortel, M. H. V. and Neurath, A. R. (Eds.), Immunochemistry of viruses II: The basis for serodiagnosis and vaccine, Elsevier Science Publishing BV, Amsterdam, 1990.Google Scholar

Guirakhoo, F., Bolin, R. A., and Roehrig, J. T., Virology, 191 (1992) 921–31.CrossRef

Koschinski, A., Wengler, G., Repp, H., J Gen Virol, 84 (2003) 1711–21.CrossRef

Seligman, S. J. and Bucher, D. J., Trends Microbiol, 11 (2003) 108–10.CrossRef

Johnston, L. L. J., Halliday, G. G. M., and King, N. N. J., J Invest Dermatol, 114 (2000) 560–8.CrossRef

Libraty, D. H., Nisalak, A., Endy, T. P., et al., Trans R Soc Trop Med Hyg, 96 (2002) 173–8.CrossRef

Sejvar, J. J. and Marfin, A. A., Rev Med Virol, 16 (2006) 209–24.CrossRef

Campbell, G. L., Marfin, A. A., Lanciotti, R. S., et al., Lancet Infect Dis, 2 (2002) 519–29.CrossRef

Hayes, E. B., Sejvar, J. J., Zaki, S. R., et al., Emerg Infect Dis, 11 (2005) 1174–9.CrossRef

Kramer, L. D., Lancet Neurol, 6 (2007) 171–81.CrossRef

Solomon, T., J Neurovirol, 9 (2003) 274–83.CrossRef

Hayes, E. and Gubler, D., Annu Rev Med, 57 (2005) 181–94.CrossRef

Petersen, L. R. and Marfin, A. A., Ann Intern Med, 137 (2002) 173–9.CrossRef

Petersen, L. R., Roehrig, J. T., and Hughes, J. M., N Engl J Med, 347 (2002) 1225–6.CrossRef

Sejvar, J. J., Leis, A. A., Stokic, D. S., et al., Emerg Infect Dis, 9 (2003) 788–93.CrossRef

Halstead, S. B. and Jacobson, J., Adv Virus Res, 61 (2003) 103–38.CrossRef

Solomon, T., Dung, N. M., et al., J Neurol Neurosurg Psychiatry, 68 (2000) 405–15.CrossRef

Douglas, M. W., Stephens, D. P., Burrow, J. N., et al., Trans R Soc Trop Med Hyg, 101 (2006) 284–8.CrossRef

Murgod, U. A., Muthane, U. B., Ravi, V., et al., Neurology, 57 (2001) 2313–5.CrossRef

Johnson, B. W., Kosoy, O., Martin, D. A., et al., Vector Borne Zoonotic Dis., 5 (2005) 137–45.CrossRef

Martin, D. A., Muth, D. A., Brown, T., et al., J Clin Microbiol, 38 (2000) 1823–6.

World Health Organization, WHO-recornmended standards for surveillance of selected vaccine-preventable diseases, 2003.

Johnson, A. J., Martin, A., and Karabatsos, N., J Clin Microbiol, 38 (2000) 1827–31.

Johnson, A. J., Noga, A. J., Kosoy, O., et al., Clin Diagn Lab Immunol, 12 (2005) 566–74.

Wong, S. J., Boyle, R. H., Demarest, V. L., et al., J Clin Microbiol, 41 (2003) 4217–23.CrossRef

Wong, S. J., Demarest, V. L., Boyle, R. H., et al., J Clin Microbiol, 42 (2004) 65–72.CrossRef

Burke, D. S., Nisalak, A., and Ussery, M. A., J Clin Microbiol, 16 (1982) 1034–42.

Burke, D. S., Nisalak, A., Ussery, M. A., et al., J Infect Dis, 151 (1985) 1093–9.CrossRef

Roehrig, J. T., Nash, D., Maldin, B., et al., Emerg Infect Dis, 9 (2003) 376–9.CrossRef

Chanama, S., Sukprasert, W., Sa-ngasang, A., et al., Jpn J Infect Dis, 58 (2005) 294–6.

Martin, D. A., Biggerstaff, B. J., Allen, B., et al., Clin Diagn Lab Immunol, 9 (2002) 544–9.

Lanciotti, R. S. and Kerst, A. J., J Clin Microbiol, 39 (2001) 4506–13.CrossRef

Lanciotti, R. S., Kerst, A. J., Nasci, R. S., et al., J Clin Microbiol, 38 (2000) 4066–71.

Tilley, P. A., Fox, J. D., Jayaraman, G. C., J Infect Dis, 193 (2006) 1361–4.CrossRef

Hogrefe, W. R., Moore, R., Lape-Nixon, M., J Clin Microbiol, 42 (2004) 4641–8.CrossRef

Niedrig, M. K., Sonnenberg, K., Steinhagen, K., et al., J Virol Methods, 139 (2007) 103–5.CrossRef

Sejvar, J. J., Haddad, M. B., Tierney, B. C., et al., JAMA, 290 (2003) 511–5.CrossRef

Solomon, T., N Engl J Med, 355 (2006) 869–71.CrossRef

Marfin, A. A., Eidex, R. S., Kozarsky, P. E., et al., Infect Dis Clin North Am, 19 (2005) 151–68.CrossRef

Monath, T. P., Curr Top Microbiol Immunol, 267 (2002) 105–38.

Monath, T. P., Ann NY Acad Sci, 951 (2001) 1–12.CrossRef

Solomon, T., Ni, H., Beasley, D. W., et al., J Virol, 77 (2003) 3091–8.CrossRef

Burke, D. and Leake, C., Japanese encephalitis. In Monath, T. P. (Ed.), The arboviruses: Epidemiology and ecology, 1988, pp. 63–92.Google Scholar

Parida, M., Dash, P. K., Tripathi, N. K., et al., Emerg Infect Dis, 12 (2006) 1427–30.CrossRef

Recommendations of the Advisory Committee on Immunization Practices (ACIP). MMWR Recomm Rep., 42 (1993) 1–15.

Watt, G. and Jongsakul, K., Am J Trop Med Hyg, 68 (2003) 704–6.CrossRef

Liu, W., et al., Vaccine, 24 (2006) 5178–82.CrossRef PubMed

Japanese encephalitis vaccines. Wkly Epidemiol Rec, 81 (2006) 331–40.

Marfin, A. A. and Gubler, D. J., Lancet, 366 (2005) 1335–7.CrossRef

Bista, M. B., Banerjee, M. K., Shin, S. H., et al., Lancet, 358 (2001) 791–5.CrossRef

Chang, G. J., Davis, B. S., Hunt, A. R., et al., Ann NY Acad Sci, 951 (2001) 272–85.CrossRef

Jones, T., Curr Opin Investig Drugs, 4 (2003) 1019–22.

Monath, T. P., McCarthy, P., Bedford, P., et al., Vaccine, 20 (2002) 1004–18.CrossRef

Lanciotti, R. S., Ebel, G. D., Deubel, V., et al., Virology, 298 (2002) 96–105.CrossRef

Lanciotti, R. S., Roehrig, J. T., Duebel, V., et al., Science, 286 (1999) 2333–7.CrossRef

Komar, N. and Clark, G. G., Rev Panam Salud Publica, 19 (2006) 112–17.CrossRef

Komar, O., Robbins, M. B., Contreras, G. G., et al., Vector Borne Zoonotic Dis, 5 (2005) 120–6.CrossRef

Mattar, S., Edwards, E., Laguado, J., et al., Emerg Infect Dis, 11 (2005) 1497–8.CrossRef

Morales, M. A., Barrandeguy, M., Fabbri, C., et al., Emerg Infect Dis, 12 (2006) 1559–61.CrossRef

Brault, A. C., Langevin, S. A., Bowen, R. A., et al., Emerg Infect Dis, 10 (2004) 2161–8.CrossRef

Petersen, L. R., Marfin, A. A., and Gubler, D. J., JAMA, 290 (2003) 524–8.CrossRef

Davis, B. S., Chang, G. J., Cropp, B., et al., Virol, 75 (2001) 4040–7.CrossRef

Tsai, T. and Mitchell, C., St. Louis encephalitis. In The arboviruses: Epidemiology and ecology, vol. IV, CRC Press, Boca Raton, FL, 1989, pp.113–43.Google Scholar

Brinker, K. R., Paulson, G., Monath, T. P., et al., Arch Intern Med, 139 (1979) 561–6.CrossRef

Marshall, I. In Monath, T. P. (Ed.), The arboviruses: Epidemiology and ecology, CRC Press, Boca Raton, FL, 1988, pp.151–89.Google Scholar

Gresikova, M. and Calisher, C. In Monath, T. (Ed.), The arboviruses: Epidemiology and ecology, CRC Press, Boca Raton, FL, 1989, pp.177–202.Google Scholar

Reid, H. In Monath, T. P. (Ed.), The arboviruses: Epidemiology and ecology, CRC Press, Boca Raton, FL, 1988, pp.117–135.Google Scholar

Outbreak of Powassan encephalitis–Maine and Vermont, 1999–2001. MMWR Morb Mortal Wkly Rep, 50 (2001) 761–4.

Artsob, H. In Monath, T. P. (Ed.), The arboviruses: Epidemiology and ecology, CRC Press, Boca Raton, FL, 1989, pp. 29–49.Google Scholar

Kaiser, R., Int J Med Microbiol, 291 suppl 33 (2002) 58–61.CrossRef

Book contents

7 - Flaviviruses

Summary

Access options

References

Save book to Kindle

Save book to Dropbox

Save book to Google Drive