S. Ameen, A. Selim, Mohamed Tarek, A. Zanaty, M. AboElkhair, A. Bazid
{"title":"SPF鸡两种传染性支气管炎病毒疫苗共接种过程中S基因的遗传变化","authors":"S. Ameen, A. Selim, Mohamed Tarek, A. Zanaty, M. AboElkhair, A. Bazid","doi":"10.21608/javs.2022.159573.1177","DOIUrl":null,"url":null,"abstract":"Despite widespread immunizations, infectious bronchitis (IB) remains a significant issue in the Egyptian poultry industry. Multiple IBV genotypes, GI-1, GI-13, GI-16, and GI-23 have been continually circulating among chicken flocks in Egypt, inducing a substantial economic loss to the poultry sector. In addition, live attenuated vaccines representing classical and variant strains can control IBV in Egypt, mainly H120 and 793B. The H120 vaccine is widely spread and offers inadequate protection against heterotypic IBVs in the field. Therefore, a homologous live-attenuated VAR2 vaccine was developed from the Egyptian variant-2 strain Eg/1212B/2012.IB. Variant II vaccine protects against the homologous IBV challenge under experimental and field circumstances. In this study, an experimental trial was performed to simulate field practices such as heterologous vaccination of day-old specific pathogen-free chicks with IBV H120 vaccine (representing GI-1) and IB Var 2 vaccine (representing GI-23). The current study aimed to determine the existence of nucleotide and amino acid variations within the S gene in isolated viruses following ten passages in the same bird. The deduced amino acid sequence of the S gene indicated viruses isolated from the 6 th and 10 th passages were identical and shared (96 %) and (83 %) identities with the IB variant II vaccine and H120, respectively. However, amino acid substitutions were observed at 26 positions in the N terminal domain (S1) and S2 is conserved compared to IB Var 2 vaccine. Most amino acid modifications occurred in the receptor binding domain (RBD) of the S1 gene. HVR2 has seven amino acid changes compared to the IB Var II vaccine. Isolates of P6 and P10 lacked IBV glycosylation site at position 139 which was detected in IBV/EG/1212B/2012 as well as IB variant II vaccine. The study also revealed no evidence of recombination between the two used live vaccines. ـــــــــــــــــــــــــــــــــــــــــ","PeriodicalId":15040,"journal":{"name":"Journal of Applied Veterinary Sciences","volume":" ","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2022-11-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"Genetic Changes of S Gene during Co-inoculation of Two Infectious Bronchitis Virus Vaccines in SPF Chicks\",\"authors\":\"S. Ameen, A. Selim, Mohamed Tarek, A. Zanaty, M. AboElkhair, A. Bazid\",\"doi\":\"10.21608/javs.2022.159573.1177\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Despite widespread immunizations, infectious bronchitis (IB) remains a significant issue in the Egyptian poultry industry. Multiple IBV genotypes, GI-1, GI-13, GI-16, and GI-23 have been continually circulating among chicken flocks in Egypt, inducing a substantial economic loss to the poultry sector. In addition, live attenuated vaccines representing classical and variant strains can control IBV in Egypt, mainly H120 and 793B. The H120 vaccine is widely spread and offers inadequate protection against heterotypic IBVs in the field. Therefore, a homologous live-attenuated VAR2 vaccine was developed from the Egyptian variant-2 strain Eg/1212B/2012.IB. Variant II vaccine protects against the homologous IBV challenge under experimental and field circumstances. In this study, an experimental trial was performed to simulate field practices such as heterologous vaccination of day-old specific pathogen-free chicks with IBV H120 vaccine (representing GI-1) and IB Var 2 vaccine (representing GI-23). The current study aimed to determine the existence of nucleotide and amino acid variations within the S gene in isolated viruses following ten passages in the same bird. The deduced amino acid sequence of the S gene indicated viruses isolated from the 6 th and 10 th passages were identical and shared (96 %) and (83 %) identities with the IB variant II vaccine and H120, respectively. However, amino acid substitutions were observed at 26 positions in the N terminal domain (S1) and S2 is conserved compared to IB Var 2 vaccine. Most amino acid modifications occurred in the receptor binding domain (RBD) of the S1 gene. HVR2 has seven amino acid changes compared to the IB Var II vaccine. Isolates of P6 and P10 lacked IBV glycosylation site at position 139 which was detected in IBV/EG/1212B/2012 as well as IB variant II vaccine. 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引用次数: 1
摘要
尽管广泛的免疫接种,传染性支气管炎(IB)仍然是埃及家禽业的一个重要问题。多种IBV基因型GI-1、GI-13、GI-16和GI-23在埃及的鸡群中持续传播,给家禽业造成了巨大的经济损失。此外,代表经典毒株和变异毒株的减毒活疫苗可以控制埃及的IBV,主要是H120和793B。H120疫苗广泛传播,在野外对异型ibv提供的保护不足。因此,从埃及变体-2株Eg/1212B/2012.IB中开发出同源的VAR2减毒活疫苗。II型变异体疫苗在实验和田间环境下可防止同源IBV的攻击。在这项研究中,进行了一项模拟野外实践的实验试验,例如用IBV H120疫苗(代表GI-1)和IBV Var 2疫苗(代表GI-23)异种接种日龄特异性无病原体雏鸡。目前的研究旨在确定在同一只鸟中经过10次传代后分离病毒S基因内核苷酸和氨基酸变异的存在。S基因的氨基酸序列表明,从第6代和第10代分离的病毒分别与IB变型II疫苗和H120具有相同的(96%)和(83%)的同源性。然而,与IB Var 2疫苗相比,在N端结构域(S1)的26个位置观察到氨基酸取代,S2是保守的。大多数氨基酸修饰发生在S1基因的受体结合域(RBD)。与IB Var II疫苗相比,HVR2有7个氨基酸变化。分离株P6和P10缺乏在IBV/EG/1212B/2012和IB变体II疫苗中检测到的139位IBV糖基化位点。该研究还显示,没有证据表明两种使用过的活疫苗之间存在重组。ـــــــــــــــــــــــــــــــــــــــــ
Genetic Changes of S Gene during Co-inoculation of Two Infectious Bronchitis Virus Vaccines in SPF Chicks
Despite widespread immunizations, infectious bronchitis (IB) remains a significant issue in the Egyptian poultry industry. Multiple IBV genotypes, GI-1, GI-13, GI-16, and GI-23 have been continually circulating among chicken flocks in Egypt, inducing a substantial economic loss to the poultry sector. In addition, live attenuated vaccines representing classical and variant strains can control IBV in Egypt, mainly H120 and 793B. The H120 vaccine is widely spread and offers inadequate protection against heterotypic IBVs in the field. Therefore, a homologous live-attenuated VAR2 vaccine was developed from the Egyptian variant-2 strain Eg/1212B/2012.IB. Variant II vaccine protects against the homologous IBV challenge under experimental and field circumstances. In this study, an experimental trial was performed to simulate field practices such as heterologous vaccination of day-old specific pathogen-free chicks with IBV H120 vaccine (representing GI-1) and IB Var 2 vaccine (representing GI-23). The current study aimed to determine the existence of nucleotide and amino acid variations within the S gene in isolated viruses following ten passages in the same bird. The deduced amino acid sequence of the S gene indicated viruses isolated from the 6 th and 10 th passages were identical and shared (96 %) and (83 %) identities with the IB variant II vaccine and H120, respectively. However, amino acid substitutions were observed at 26 positions in the N terminal domain (S1) and S2 is conserved compared to IB Var 2 vaccine. Most amino acid modifications occurred in the receptor binding domain (RBD) of the S1 gene. HVR2 has seven amino acid changes compared to the IB Var II vaccine. Isolates of P6 and P10 lacked IBV glycosylation site at position 139 which was detected in IBV/EG/1212B/2012 as well as IB variant II vaccine. The study also revealed no evidence of recombination between the two used live vaccines. ـــــــــــــــــــــــــــــــــــــــــ