PMID: 9557750Apr 29, 1998Paper

Feline coronavirus type II strains 79-1683 and 79-1146 originate from a double recombination between feline coronavirus type I and canine coronavirus

Journal of Virology
A A HerreweghR J de Groot

Abstract

Recent evidence suggests that the type II feline coronavirus (FCoV) strains 79-1146 and 79-1683 have arisen from a homologous RNA recombination event between FCoV type I and canine coronavirus (CCV). In both cases, the template switch apparently took place between the S and M genes, giving rise to recombinant viruses which encode a CCV-like S protein and the M, N, 7a, and 7b proteins of FCoV type I (K. Motowaka, T. Hohdatsu, H. Hashimoto, and H. Koyama, Microbiol. Immunol. 40:425-433, 1996; H. Vennema, A. Poland, K. Floyd Hawkins, and N. C. Pedersen, Feline Pract. 23:40-44, 1995). In the present study, we have looked for additional FCoV-CCV recombination sites. Four regions in the pol gene were selected for comparative sequence analysis of the type II FCoV strains 79-1683 and 79-1146, the type I FCoV strains TN406 and UCD1, the CCV strain K378, and the TGEV strain Purdue. Our data show that the type II FCoVs have arisen from double recombination events: additional crossover sites were mapped in the ORF1ab frameshifting region of strain 79-1683 and in the 5' half of ORF1b of strain 79-1146.

References

Jun 1, 1992·The Journal of Veterinary Medical Science·T HohdatsuH Koyama
Nov 1, 1992·The Journal of General Virology·B C HorsburghT D Brown
Mar 1, 1992·Microbiological Reviews·M M Lai
Jan 1, 1990·Advances in Experimental Medicine and Biology·F McArdleC J Gaskell
May 1, 1988·Journal of Virology·J G KeckM M Lai
Nov 1, 1985·Journal of Virology·M M LaiS A Stohlman
Mar 1, 1986·Journal of Virology·S MakinoM M Lai
Nov 7, 1986·Cell·K Kirkegaard, D Baltimore
Apr 1, 1987·The Journal of General Virology·R J de GrootB A van der Zeijst
Apr 1, 1974·The Journal of General Virology·P D CopperD Delong
Jan 1, 1981·Archives of Virology·H J Hasony, M R Macnaughton
Jan 1, 1984·Advances in Experimental Medicine and Biology·N C PedersenR L Ott

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Citations

Oct 27, 1999·The Journal of Veterinary Medical Science·M MochizukiT Ishida
Mar 29, 2003·Journal of Virology·Bert Jan HaijemaPeter J M Rottier
Sep 19, 2003·The Journal of General Virology·D D AddieO Jarrett
Oct 8, 2005·Clinical and Diagnostic Laboratory Immunology·Maya KummrowHans Lutz
Feb 7, 2008·Emerging Infectious Diseases·Samuel R DominguezKathryn V Holmes
Jan 10, 2008·Journal of Veterinary Diagnostic Investigation : Official Publication of the American Association of Veterinary Laboratory Diagnosticians, Inc·Annamaria Pratelli
Jun 24, 2009·Experimental Biology and Medicine·Patrick C Y WooKwok-Yung Yuen
Dec 15, 2012·Virus Genes·Chao-Nan LinLing-Ling Chueh
Sep 23, 2014·Journal of Veterinary Science·Seok-Young JeoungDoo Kim
Oct 31, 2015·Archives of Virology·Tomomi TakanoTsutomu Hohdatsu
May 17, 2019·Journal of Feline Medicine and Surgery·Diane AddieNicola Decaro
Sep 5, 2019·The Journal of General Virology·Delphine D AcarHans J Nauwynck
Dec 25, 2002·Emerging Infectious Diseases·Scott B HalsteadTimothy P Endy
Nov 9, 2002·Journal of Veterinary Diagnostic Investigation : Official Publication of the American Association of Veterinary Laboratory Diagnosticians, Inc·Melissa KennedyStephen Kania
Feb 16, 2006·Journal of Veterinary Diagnostic Investigation : Official Publication of the American Association of Veterinary Laboratory Diagnosticians, Inc·J F EvermannS Han
Dec 14, 2007·Journal of Virology·Gergely TekesHeinz-Jürgen Thiel
Aug 17, 2006·FEMS Microbiology Reviews·Lia van der HoekBen Berkhout
Jun 2, 2009·Journal of Feline Medicine and Surgery·Diane AddieMarian C Horzinek
Aug 28, 2010·Veterinary Medicine International·Saeed SharifAmer Alazawy
Jun 1, 2009·Viruses·Patrick C Y WooKwok-Yung Yuen
Apr 12, 2012·Journal of Virology·Gergely TekesHeinz-Jürgen Thiel
Feb 27, 2014·Veterinary Pathology·A Kipar, M L Meli
Dec 9, 2014·Bioengineered·Volker ThielGergely Tekes
Dec 25, 2015·Journal of Feline Medicine and Surgery·Sandra FeltenKatrin Hartmann
Oct 16, 2015·The Journal of Veterinary Medical Science·Tomomi TakanoTsutomu Hohdatsu
Jan 16, 2020·Viruses·Javier A JaimesGary R Whittaker

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