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Reassortment

From Wikipedia, the free encyclopedia

The process of reassortment in biotechnology

Reassortment is the mixing of the genetic material of a species into new combinations in different individuals. Several different processes contribute to reassortment, including assortment of chromosomes, and chromosomal crossover.[1] It is particularly used when two similar viruses that are infecting the same cell exchange genetic material. In particular, reassortment occurs among influenza viruses, whose genomes consist of eight distinct segments of RNA. These segments act like mini-chromosomes, and each time a flu virus is assembled, it requires one copy of each segment.

If a single host (a human, a chicken, or other animal) is infected by two different strains of the influenza virus, then it is possible that new assembled viral particles will be created from segments whose origin is mixed, some coming from one strain and some coming from another. The new reassortant strain will share properties of both of its parental lineages.

Reassortment is responsible for some of the major genetic shifts in the history of the influenza virus. In the 1957 "Asian flu" and 1968 "Hong Kong flu" pandemics, flu strains were caused by reassortment between an avian virus and a human virus.[2][3] In addition, the H1N1 virus responsible for the 2009 swine flu pandemic has an unusual mix of swine, avian and human influenza genetic sequences.[4]

The reptarenavirus family, responsible for inclusion body disease in snakes, shows a very high degree of genetic diversity due to reassortment of genetic material from multiple strains in the same infected animal.

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Transcription

Multiplicity reactivation

When influenza viruses are inactivated by UV irradiation or ionizing radiation, they remain capable of multiplicity reactivation in infected host cells.[5][6][7] If any of a virus's genome segments is damaged in such a way as to prevent replication or expression of an essential gene, the virus is inviable when it, alone, infects a host cell (single infection). However, when two or more damaged viruses infect the same cell (multiple infection), the infection can often succeed (multiplicity reactivation) due to reassortment of segments, provided that each of the eight genome segments is present in at least one undamaged copy.[8]

See also

References

  1. ^ Alberts, B.; Bray, D.; Roberts, K.; Lewis, J.; Raff, M. (1997). Essential cell biology: an introduction to the molecular biology of the cell. Taylor & Francis. ISBN 978-0-8153-2045-6.
  2. ^ "1968 Pandemic (H3N2 virus)". US Centers for Disease Control and Prevention (CDC). 2019-01-22. Retrieved 2021-01-18.
  3. ^ Saunders-Hastings, Patrick R.; Krewski, Daniel (2016-12-06). "Reviewing the History of Pandemic Influenza: Understanding Patterns of Emergence and Transmission". Pathogens. 5 (4): 66. doi:10.3390/pathogens5040066. ISSN 2076-0817. PMC 5198166. PMID 27929449.
  4. ^ "Deadly new flu virus in US and Mexico may go pandemic". New Scientist. 2009-04-24. Retrieved 2009-04-26.
  5. ^ Barry RD. The multiplication of influenza virus. II. Multiplicity reactivation of ultraviolet irradiated virus. Virology. 1961 Aug;14:398-405. PMID 13687359 DOI: 10.1016/0042-6822(61)90330-0
  6. ^ Henle W, Liu OC. Studies on host-virus interactions in the chick embryo-influenza virus system. VI. Evidence for multiplicity reactivation of inactivated virus. J Exp Med. 1951 Oct;94(4):305-22. PMID 14888814
  7. ^ Gilker JC, Pavilanis V, Ghys R. Multiplicity reactivation in gamma irradiated influenza viruses. Nature. 1967 Jun 17;214(5094):1235-7. PMID 6066111 DOI: 10.1038/2141235a0
  8. ^ Michod RE, Bernstein H, Nedelcu AM. Adaptive value of sex in microbial pathogens. Infect Genet Evol. 2008 May;8(3):267-85. doi: 10.1016/j.meegid.2008.01.002. Epub 2008 Jan 16. Review. PMID 18295550

External links

This page was last edited on 3 November 2023, at 08:02
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