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Concurrent infection of Infectious Bronchitis Virus and Mycoplasma gallisepticum in a backyard poultry

Year 2024, , 303 - 310, 10.07.2024
https://doi.org/10.33988/auvfd.1252625

Abstract

This study reports the co-existence of two S1 mutants of GI-13 (4/91-like) Infectious Bronchitis Virus (IBV) and Mycoplasma gallisepticum (MG) in a backyard poultry flock that had non-vaccinated 30 broiler chickens and four turkey pullets. Serum samples and tracheal swabs were taken from the chickens and turkey pullets showing respiratory signs. Serum antibody levels were measured using commercial ELISA kits against IBV, Avian Influenza Virus (AIV), Newcastle Disease Virus (NDV), Avian Metapneumovirus (AMPV), MG, Mycoplasma synoviae (MS), and Ornithobacterium rhinotracheale (ORT). Additionally, tracheal swabs were tested for AIV serotypes H5, H7, and H9, NDV, IBV, AMPV, MG, MS, Pasteurella multocida, Avibacterium paragallinarum, and Bordetella avium by circular amplification technology (CAT). Anti-MS, -IBV, -MG, -NDV, -AMPV, and -ORT IgG antibodies were detected in some chicken sera, while anti-NDV, -MG, -MS, and -ORT IgG antibodies were detected in turkey sera. All avian tracheal swabs were positive for MG. However, IBV was only detected in chicken tracheal samples tested by CAT. The IBV strains were genotyped by sequencing a part of the S1 glycoprotein gene. The alignment analyses of two isolates showed 99.35% and 98.69% nucleotide similarities and 99.02% amino acid similarities with the 4/91 IBV vaccine and field strains. Two mutants showed 99.35% nucleotide and 100% amino acid sequence identity to each other. The turkeys and chickens in the flock had MG and MG/IBV co-infections, respectively. Consequently, the presence of mutants of 4/91 (GI-13) IBV genotypes and MG found in backyard poultry could be a potential epidemiological source for commercial flocks in poultry integrations.

References

  • Abdelmoez NS, Shawky MM, Abdelhady HA, et al (2019): Isolation and identification of some possible causative agents of swollen head syndrome (SHS) in broiler chickens in Egypt. Slov Vet Res, 56, 781–788.
  • Ardicli O, Demirbilek SK, Coven F, et al (2022): A surveillance for avian coronavirus infectious bronchitis virus, infectious laryngotracheitis virus, avian metapneumovirus, and avian reovirus in poultry flocks with respiratory signs in Türkiye. Turkish J Vet Anim Sci, 46, 687-697.
  • Britton P, Armesto M, Cavanagh D, et al (2012): Modification of the avian coronavirus infectious bronchitis virus for vaccine development. Bioengineered, 3, 114-119.
  • Brochu NM, Guerin MT, Varga C, et al (2019): A two-year prospective study of small poultry flocks in Ontario, Canada, part 1: prevalence of viral and bacterial pathogens. J Vet Diagn Invest, 31, 327-335.
  • Cadmus KJ, Mete, Harris M, et al (2019): Causes of mortality in backyard poultry in eight states in the United States. J Vet Diagn Invest, 31, 318-326.
  • Ceylan N (2015): Organik ve geleneksel tavuk eti üretimi (yanlış bilinenler ve gerçekler). Besdbir Uzman Görüşleri 6, 21, 1-29.
  • Derksen T, Lampron R, Hauck R, et al (2018): Biosecurity assessment and seroprevalence of respiratory diseases in backyard poultry flocks located close to and far from commercial premises. Avian Dis, 62, 1-5.
  • Feberwee A, Mekkes D, De Wit J, et al (2005): Comparison of culture, PCR, and different serologic tests for detection of Mycoplasma gallisepticum and Mycoplasma synoviae infections. Avian Dis, 49, 260-268.
  • Frey J (2002): Mycoplasmas of animals. 73-90. In: S Razin, R Herrmann (Eds), Molecular Biology and Pathogenicity of Mycoplasmas. Springer, Boston, MA.
  • Fujisawa S, Murata S, Takehara M, et al (2019): Molecular detection and genetic characterization of Mycoplasma gallisepticum, Mycoplama synoviae, and infectious bronchitis virus in poultry in Myanmar. BMC Vet Res, 15, 1-7.
  • Gill P, Ghaemi A (2007): Nucleic acid isothermal amplification technologies-A review. Nucleosi Nucleot Nucl, 27, 224-243.
  • Gong H, Ni R, Qiu R, et al (2022): Evaluation of a novel recombinant strain of infectious bronchitis virus emerged from three attenuated live vaccine strains. Microb Pathog, 164,105437.
  • Jindal N, Mor SK, Goyal SM (2014): Enteric viruses in turkey enteritis. VirusDisease, 25, 173-185.
  • Kahya S, Coven F, Temelli S, et al (2013): Presence of IS/1494/06 genotype-related infectious bronchitis virus in breeder and broiler flocks in Turkey. Ankara Univ Vet Fak Derg, 60, 27-31.
  • Kahya S, Temelli S, Eyigor A, et al (2010): Real-time PCR culture and serology for the diagnosis of Mycoplasma gallisepticum in chicken breeder flocks. Vet Microbiol, 144, 319-324.
  • Kim S-H (2018): Challenge for one health: co-circulation of zoonotic H5N1 and H9N2 avian influenza viruses in Egypt. Viruses, 10, 1-16.
  • Kimura M (1980): A simple method for estimating evolutionary rates of base substitutions through comparative studies of nucleotide sequences. J Mol Evol, 16, 111-120.
  • Koutsianos D, Athanasiou LV, Mossialos D, et al (2022): Investigation of serotype prevalence of Escherichia coli strains isolated from layer poultry in Greece and interactions with other infectious agents. Vet Sci, 9, 1-14.
  • Luciano R, Cardoso A, Stoppa G, et al (2011): Comparative study of serological tests for Mycoplasma synoviae diagnosis in commercial poultry breeders. Vet Med Int, 2011, 1-5.
  • Marks FS, Rodenbusch CR, Okino CH, et al (2014): Targeted survey of Newcastle disease virus in backyard poultry flocks located in wintering site for migratory birds from Southern Brazil. Prev Vet Med, 116, 197-202.
  • Mugunthan SP, Kannan G, Chandra HM, et al (2023): Infection, transmission, pathogenesis and vaccine development against Mycoplasma gallisepticum. Vaccines, 11, 469-483.
  • Mustak IB, Mustak HK, Bilgen N (2022): S1 gene based phylogeny of Israel variant-2 infectious bronchitis virus isolated in Turkey in a five year period. Pol J Vet, 25, 45-50.
  • NucleoGene Molecular Detection Assay (Isothermal Amplification Technology) (2023): Available at https://www.nucleogene.com/product-nucleogene-molecular-detection-assay (Accessed July 3, 2023).
  • Roussan D, Haddad R, Khawaldeh G, et al (2008): Molecular survey of avian respiratory pathogens in commercial broiler chicken flocks with respiratory diseases in Jordan. Poult Sci, 87, 444-448.
  • Shokri S, Karimi V, Langeroudi AG, et al (2018): Seroprevalence and genotyping of avian infectious bronchitis virus detected from Iranian unvaccinated backyard chickens. Iranian J Microbiol, 10, 65-71.
  • Swayne DE (2020): Diseases of poultry. John Wiley & Sons, Hoboken, NJ.
  • Valastro V, Holmes EC, Britton P, et al (2016): S1 gene-based phylogeny of infectious bronchitis virus: an attempt to harmonize virus classification. Infec Genet Evol, 39, 349-364.
  • Wang Y, Jiang Z, Jin Z, et al (2013): Risk factors for infectious diseases in backyard poultry farms in the Poyang Lake area, China. PloS one, 8, e67366.
  • Worthington KJ, Currie R, Jones RC, et al (2008): A reverse transcriptase-polymerase chain reaction survey of infectious bronchitis virus genotypes in Western Europe from 2002 to 2006. Avian Pathol, 37, 247-257.
  • Yadav JP, Tomar P, Singh Y, et al (2021): Insights on Mycoplasma gallisepticum and Mycoplasma synoviae infection in poultry: A systematic review. Anim Biotechnol, 33, 1711-1720.
  • Yilmaz H, Altan E, Cizmecigil UY, et al (2016): Phylogeny and S1 gene variation of infectious bronchitis virus detected in broilers and layers in Turkey. Avian Dis, 60, 596-602.
Year 2024, , 303 - 310, 10.07.2024
https://doi.org/10.33988/auvfd.1252625

Abstract

References

  • Abdelmoez NS, Shawky MM, Abdelhady HA, et al (2019): Isolation and identification of some possible causative agents of swollen head syndrome (SHS) in broiler chickens in Egypt. Slov Vet Res, 56, 781–788.
  • Ardicli O, Demirbilek SK, Coven F, et al (2022): A surveillance for avian coronavirus infectious bronchitis virus, infectious laryngotracheitis virus, avian metapneumovirus, and avian reovirus in poultry flocks with respiratory signs in Türkiye. Turkish J Vet Anim Sci, 46, 687-697.
  • Britton P, Armesto M, Cavanagh D, et al (2012): Modification of the avian coronavirus infectious bronchitis virus for vaccine development. Bioengineered, 3, 114-119.
  • Brochu NM, Guerin MT, Varga C, et al (2019): A two-year prospective study of small poultry flocks in Ontario, Canada, part 1: prevalence of viral and bacterial pathogens. J Vet Diagn Invest, 31, 327-335.
  • Cadmus KJ, Mete, Harris M, et al (2019): Causes of mortality in backyard poultry in eight states in the United States. J Vet Diagn Invest, 31, 318-326.
  • Ceylan N (2015): Organik ve geleneksel tavuk eti üretimi (yanlış bilinenler ve gerçekler). Besdbir Uzman Görüşleri 6, 21, 1-29.
  • Derksen T, Lampron R, Hauck R, et al (2018): Biosecurity assessment and seroprevalence of respiratory diseases in backyard poultry flocks located close to and far from commercial premises. Avian Dis, 62, 1-5.
  • Feberwee A, Mekkes D, De Wit J, et al (2005): Comparison of culture, PCR, and different serologic tests for detection of Mycoplasma gallisepticum and Mycoplasma synoviae infections. Avian Dis, 49, 260-268.
  • Frey J (2002): Mycoplasmas of animals. 73-90. In: S Razin, R Herrmann (Eds), Molecular Biology and Pathogenicity of Mycoplasmas. Springer, Boston, MA.
  • Fujisawa S, Murata S, Takehara M, et al (2019): Molecular detection and genetic characterization of Mycoplasma gallisepticum, Mycoplama synoviae, and infectious bronchitis virus in poultry in Myanmar. BMC Vet Res, 15, 1-7.
  • Gill P, Ghaemi A (2007): Nucleic acid isothermal amplification technologies-A review. Nucleosi Nucleot Nucl, 27, 224-243.
  • Gong H, Ni R, Qiu R, et al (2022): Evaluation of a novel recombinant strain of infectious bronchitis virus emerged from three attenuated live vaccine strains. Microb Pathog, 164,105437.
  • Jindal N, Mor SK, Goyal SM (2014): Enteric viruses in turkey enteritis. VirusDisease, 25, 173-185.
  • Kahya S, Coven F, Temelli S, et al (2013): Presence of IS/1494/06 genotype-related infectious bronchitis virus in breeder and broiler flocks in Turkey. Ankara Univ Vet Fak Derg, 60, 27-31.
  • Kahya S, Temelli S, Eyigor A, et al (2010): Real-time PCR culture and serology for the diagnosis of Mycoplasma gallisepticum in chicken breeder flocks. Vet Microbiol, 144, 319-324.
  • Kim S-H (2018): Challenge for one health: co-circulation of zoonotic H5N1 and H9N2 avian influenza viruses in Egypt. Viruses, 10, 1-16.
  • Kimura M (1980): A simple method for estimating evolutionary rates of base substitutions through comparative studies of nucleotide sequences. J Mol Evol, 16, 111-120.
  • Koutsianos D, Athanasiou LV, Mossialos D, et al (2022): Investigation of serotype prevalence of Escherichia coli strains isolated from layer poultry in Greece and interactions with other infectious agents. Vet Sci, 9, 1-14.
  • Luciano R, Cardoso A, Stoppa G, et al (2011): Comparative study of serological tests for Mycoplasma synoviae diagnosis in commercial poultry breeders. Vet Med Int, 2011, 1-5.
  • Marks FS, Rodenbusch CR, Okino CH, et al (2014): Targeted survey of Newcastle disease virus in backyard poultry flocks located in wintering site for migratory birds from Southern Brazil. Prev Vet Med, 116, 197-202.
  • Mugunthan SP, Kannan G, Chandra HM, et al (2023): Infection, transmission, pathogenesis and vaccine development against Mycoplasma gallisepticum. Vaccines, 11, 469-483.
  • Mustak IB, Mustak HK, Bilgen N (2022): S1 gene based phylogeny of Israel variant-2 infectious bronchitis virus isolated in Turkey in a five year period. Pol J Vet, 25, 45-50.
  • NucleoGene Molecular Detection Assay (Isothermal Amplification Technology) (2023): Available at https://www.nucleogene.com/product-nucleogene-molecular-detection-assay (Accessed July 3, 2023).
  • Roussan D, Haddad R, Khawaldeh G, et al (2008): Molecular survey of avian respiratory pathogens in commercial broiler chicken flocks with respiratory diseases in Jordan. Poult Sci, 87, 444-448.
  • Shokri S, Karimi V, Langeroudi AG, et al (2018): Seroprevalence and genotyping of avian infectious bronchitis virus detected from Iranian unvaccinated backyard chickens. Iranian J Microbiol, 10, 65-71.
  • Swayne DE (2020): Diseases of poultry. John Wiley & Sons, Hoboken, NJ.
  • Valastro V, Holmes EC, Britton P, et al (2016): S1 gene-based phylogeny of infectious bronchitis virus: an attempt to harmonize virus classification. Infec Genet Evol, 39, 349-364.
  • Wang Y, Jiang Z, Jin Z, et al (2013): Risk factors for infectious diseases in backyard poultry farms in the Poyang Lake area, China. PloS one, 8, e67366.
  • Worthington KJ, Currie R, Jones RC, et al (2008): A reverse transcriptase-polymerase chain reaction survey of infectious bronchitis virus genotypes in Western Europe from 2002 to 2006. Avian Pathol, 37, 247-257.
  • Yadav JP, Tomar P, Singh Y, et al (2021): Insights on Mycoplasma gallisepticum and Mycoplasma synoviae infection in poultry: A systematic review. Anim Biotechnol, 33, 1711-1720.
  • Yilmaz H, Altan E, Cizmecigil UY, et al (2016): Phylogeny and S1 gene variation of infectious bronchitis virus detected in broilers and layers in Turkey. Avian Dis, 60, 596-602.
There are 31 citations in total.

Details

Primary Language English
Subjects Veterinary Food Hygiene and Technology, Veterinary Microbiology
Journal Section Research Article
Authors

Özge Ardıçlı 0000-0001-6077-0478

Tuğçe Serim Kanar 0000-0002-1615-8529

Serpil Kahya Demirbilek 0000-0001-6138-7163

Ayşegül Özdemir 0000-0001-5569-8328

Serdar Erdoğan 0000-0002-6891-5341

Ahmet Gökhan Coşkun 0000-0002-5181-7577

Tayfun Carlı 0000-0001-6045-8644

Early Pub Date October 27, 2023
Publication Date July 10, 2024
Published in Issue Year 2024

Cite

APA Ardıçlı, Ö., Serim Kanar, T., Kahya Demirbilek, S., Özdemir, A., et al. (2024). Concurrent infection of Infectious Bronchitis Virus and Mycoplasma gallisepticum in a backyard poultry. Ankara Üniversitesi Veteriner Fakültesi Dergisi, 71(3), 303-310. https://doi.org/10.33988/auvfd.1252625
AMA Ardıçlı Ö, Serim Kanar T, Kahya Demirbilek S, Özdemir A, Erdoğan S, Coşkun AG, Carlı T. Concurrent infection of Infectious Bronchitis Virus and Mycoplasma gallisepticum in a backyard poultry. Ankara Univ Vet Fak Derg. July 2024;71(3):303-310. doi:10.33988/auvfd.1252625
Chicago Ardıçlı, Özge, Tuğçe Serim Kanar, Serpil Kahya Demirbilek, Ayşegül Özdemir, Serdar Erdoğan, Ahmet Gökhan Coşkun, and Tayfun Carlı. “Concurrent Infection of Infectious Bronchitis Virus and Mycoplasma Gallisepticum in a Backyard Poultry”. Ankara Üniversitesi Veteriner Fakültesi Dergisi 71, no. 3 (July 2024): 303-10. https://doi.org/10.33988/auvfd.1252625.
EndNote Ardıçlı Ö, Serim Kanar T, Kahya Demirbilek S, Özdemir A, Erdoğan S, Coşkun AG, Carlı T (July 1, 2024) Concurrent infection of Infectious Bronchitis Virus and Mycoplasma gallisepticum in a backyard poultry. Ankara Üniversitesi Veteriner Fakültesi Dergisi 71 3 303–310.
IEEE Ö. Ardıçlı, T. Serim Kanar, S. Kahya Demirbilek, A. Özdemir, S. Erdoğan, A. G. Coşkun, and T. Carlı, “Concurrent infection of Infectious Bronchitis Virus and Mycoplasma gallisepticum in a backyard poultry”, Ankara Univ Vet Fak Derg, vol. 71, no. 3, pp. 303–310, 2024, doi: 10.33988/auvfd.1252625.
ISNAD Ardıçlı, Özge et al. “Concurrent Infection of Infectious Bronchitis Virus and Mycoplasma Gallisepticum in a Backyard Poultry”. Ankara Üniversitesi Veteriner Fakültesi Dergisi 71/3 (July 2024), 303-310. https://doi.org/10.33988/auvfd.1252625.
JAMA Ardıçlı Ö, Serim Kanar T, Kahya Demirbilek S, Özdemir A, Erdoğan S, Coşkun AG, Carlı T. Concurrent infection of Infectious Bronchitis Virus and Mycoplasma gallisepticum in a backyard poultry. Ankara Univ Vet Fak Derg. 2024;71:303–310.
MLA Ardıçlı, Özge et al. “Concurrent Infection of Infectious Bronchitis Virus and Mycoplasma Gallisepticum in a Backyard Poultry”. Ankara Üniversitesi Veteriner Fakültesi Dergisi, vol. 71, no. 3, 2024, pp. 303-10, doi:10.33988/auvfd.1252625.
Vancouver Ardıçlı Ö, Serim Kanar T, Kahya Demirbilek S, Özdemir A, Erdoğan S, Coşkun AG, Carlı T. Concurrent infection of Infectious Bronchitis Virus and Mycoplasma gallisepticum in a backyard poultry. Ankara Univ Vet Fak Derg. 2024;71(3):303-10.