Poultry
Waleed Seger; Arash Ghalyanchi Langeroudi; Vahid Karimi; Omid Madadgar; Mehdi Vasfi Marandi; Masoud Hashemzadeh
Volume 7, Issue 4 , December 2016, , Pages 317-321
Abstract
Avian infectious bronchitis (IB), caused by a gammacoronavirus, is an OIE-listed (List B) disease and characterized by respiratory and renal involvements, causing high mortality, and economic loss in both layers and broilers. In comparison with other diagnostic methods, real-time polymerase chain reaction ...
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Avian infectious bronchitis (IB), caused by a gammacoronavirus, is an OIE-listed (List B) disease and characterized by respiratory and renal involvements, causing high mortality, and economic loss in both layers and broilers. In comparison with other diagnostic methods, real-time polymerase chain reaction (RT-PCR) and conventional RT-PCR are potent, more sensitive and faster techniques for infectious bronchitis virus (IBV) detection. This research was conducted to detect IBV using specific primers of IB in three governorates (Basra, Thi-Qar and Muthana) in the south of Iraq. Tracheal specimens were collected from 46 IB suspected commercial broiler flocks. XCE2+ and XCE2- Primers, which amplify all IBV serotypes, were used. Primers MCE1+, BCE1+ and DCE1+ were used to amplify the specific nucleotide sequences of Massachusetts, 793/B and D274 genotypes, respectively. The results of real-time RT-PCR of this study showed that 34 (74.00%) out of 46 infected flocks were positive to IBV. The results of nested PCR showed that 50.00% and 5.89% of positive samples were belonged to genotypes 793/B and Massachusetts, respectively, and the remaining positive (44.11%) were unknown. The results indicate presence of Massachusetts and 793/B IBV strains in commercial broilers in southern Iraq.
Poultry
Amir Hossein Asl Najjari; Zolfaghar Rajabi; Mehdi Vasfi Marandi; Gholamreza Dehghan
Volume 6, Issue 3 , September 2015, , Pages 227-231
Abstract
Influenza is a contagious viral disease that is seen in avian, human and other mammals, so its control is important. Vaccination against influenza virus subtype H9N2 is one of the ways in controlling program, for this reason several vaccines has been produced. Recently, application of inactivated oil-emulsion ...
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Influenza is a contagious viral disease that is seen in avian, human and other mammals, so its control is important. Vaccination against influenza virus subtype H9N2 is one of the ways in controlling program, for this reason several vaccines has been produced. Recently, application of inactivated oil-emulsion vaccines in poultry for controlling low pathogenic avian influenza is increasing. At present, oils that are used as adjuvant in commercial vaccines are mineral oils, which not only lack immunizing effect, but also produce some detriments. The aim of this study is the evaluation the immunogenicity of vegetable oils, which are more metabolizable and safer than mineral oils. In this study the efficacy of hexanic extracts of fig (Ficus carica) and olive (Olea europaea) fruit and also nano-selenium on the immunogenicity of the inactivated avian influenza virus subtype H9N2 was evaluated in broiler chickens. The results indicated that the prepared emulsions could elicit a little degree of immunity, but they could not inhibit the anamnestic response and infection. With regard to the results, it seems that the intact mixture of fig and olive fruit hexanic extracts could not be administered as an immunoadjuvant in the vaccine, and about nano-selenium. In spite of positive effect on the immunogenicity of avian influenza virus subtype H9N2, it still needs more work.
Raheleh Majdani; Karim Mardani; Ahmad Morshedi; Mehdi Vasfi Marandi; Alireza Talebi
Volume 1, Issue 2 , September 2010, , Pages 73-81
Abstract
Rapid detection and differentiation of infectious bronchitis virus (IBV) involved in the disease outbreak is very important for controlling disease and developing new vaccines. In the present study, three regions of the genome of IBV vaccine and field isolates including S1 gene, gene 3 and nucleocapsid ...
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Rapid detection and differentiation of infectious bronchitis virus (IBV) involved in the disease outbreak is very important for controlling disease and developing new vaccines. In the present study, three regions of the genome of IBV vaccine and field isolates including S1 gene, gene 3 and nucleocapsid (N) gene along with 3' untranslated region (3' UTR) were amplified and subjected to restriction fragment length polymorphism (RFLP) using three different endonucleases. Amplicons from S1 gene and N-3’UTR generated four RFLP patterns, grouping IBV strains into four similar groups, while amplicons of gene 3 generated three RFLP patterns classifying examined IBVs in different groups from those of S1 and N-3' UTR. 4/91 strain and MNS-7862-1field isolate both belong to 793/B serotype were differentiated from each other based on gene 3, N-3’UTR and S1gene. IBVs belonged to different serotypes showed different RFLP patterns based on RFLP patterns of all three regions. S1 gene and N-3’UTR RFLP analysis differentiated IB88, MNS-7862-1 and 4/91 from each other. This is the first report on the molecular analysis of the gene 3 for IBV strain differentiation. Our results revealed that RFLP analysis of N-3’UTR and S1 gene had the higher discriminatory power than gene 3. None of the RFLP patterns of different regions differentiated 4/91 vaccine strain from its field isolate.