Molecular characterization of major structural protein genes of avian coronavirus infectious bronchitis virus isolates in southern china.

To gain comprehensive genetic information of circulating avian coronavirus infectious bronchitis virus (IBV) isolates in China, analysis of the phylogenetic tree, entropy of the amino acid sequences, and the positive selection as well as computational recombinations of S1, M and N genes of 23 IBV isolates was conducted in the present study. The phylogenetic trees based on the S1, M and N genes exhibited considerably different topology and the CK/CH/LSC/99I-type isolates were the predominant IBVs based on the phylogenetic analysis of S1 gene. Results of entropy of amino acid sequences revealed that the S1 gene had the largest variation; the M gene had less variation than the N gene. Positive selections were detected in not only S1 but also M and N gene proteins. In addition, five S1 gene recombinants between vaccine strain 4/91 and CK/CH/LSC/99I-type field isolate were confirmed. In conclusion, multiple IBV genotypes co-circulated; genetic diversity and positive selections existed in S1, M and N genes; 4/91 vaccine recombinants emerged in China. Our results show that field IBVs in China are continuing to evolve and vaccine strains may have an important role in the appearance of new IBV strains via recombination. In addition, the present study indicates that IBV evolution is driven by both generations of genetic diversity and selection.

Continuous evolution of avian infectious bronchitis virus resulting in different variants co-circulating in Southern China.

Sixty field strains of avian infectious bronchitis virus (IBV) were isolated from chicken flocks in different regions of Guangxi from 1985 to 2012. Phylogenetic analysis of S1 subunit glycoprotein genes revealed that field isolates from 2009-2011 mostly belonged to the LX4 type, while those from 1985-2008 belonged to the HN08 type, and a few others belonged to the 4/91 type, the TW type and the Mass type. In addition, it is noteworthy that no obvious regional differences were found among these 60 strains isolated from six regions in Guangxi, while there was a high degree of sequence identity among the isolates in the same period of time.

Serotype and genotype diversity of infectious bronchitis viruses isolated during 1985-2008 in Guangxi, China.

The genetic diversity of the hypervariable region I of S1 gene (HVR I) of infectious bronchitis (IB) vaccine strains H120, Ma5 and 4/91 was compared to that of 26 infectious bronchitis virus (IBV) strains isolated from the field in Guangxi province of China during the years 1985-2008, and the field isolates were classified into five major genotypes. Monovalent antisera against three vaccine strains and seven field isolates of different genotypes were prepared by immunizing rabbits with mineral oil adjuvant preparations containing viruses propagated in chicken embryos. Virus neutralization (VN) tests were performed in tracheal organ cultures (TOCs) using these 10 strains with the antisera, and a one-way VN test was then used to compare the relationship of 10 monovalent antisera to the other 19 field isolates. As a result, seven different serotypes were classified based on the results of VN tests with the 26 isolates plus the three vaccine strains. We found that different serotypes were prevalent during different time periods, that more new serotypes have been prevalent in more recent years, and the prevalence of the original dominant serotype has been in constant decline since 2004. In addition, the concordance rate of the 26 field isolates between the S1 genotypes and serotypes was 57.7%.

[Evaluation of antigenic relationship of Guangxi isolates of infectious bronchitis virus].

Monovalent antisera of 3 vaccine strains and 7 representative field isolates were prepared based on the comparison of genetic diversity of the hypervariable region I of S1 gene (HVR I from 3 infectious bronchitis (IB) vaccine strains (H120, Ma5 and 4/91) ,one reference strain M41 and 26 IB field isolates. These 30 strains were classified in 7 different genotypes, respectively. Virus-neutralizing test on tracheal organ cultures (TOC) with chicken embryo were used to evaluate relatedness values of the antigenicity based on the antibody titer, to analyze the antigenic relationships between the isolates and vaccine strains, as well as to determine the serotypes of 26 IB viruses isolated from the field in Guangxi between 1985 and 2008. The results showed 30 strains were classified into 7 distinct serotypes and there were two predominant serotypes within the 26 isolates, serotypes 1 (totally 13 isolates) and serotype 2 (totally 5 isolates), respectively. In addition, there were some differences observed between the results of serotyping and the genotyping (including the S1, N, M and 3'UTR). The results of the study demonstrated that there were different predominant serotypes and multiple serotypes of IBV circulated in Guangxi in recent years, antigenic variation existed between Guangxi field isolates and vaccine strains.

[Genetic variation of S1 gene hypervariable region I of infectious bronchitis viruses isolated in different periods in Guangxi].

The S1 gene hypervariable region I (HVR I) of 22 infectious bronchitis virus (IBV) strains isolated in Guangxi during the period of 1985-2007 were sequenced and compared to that of the other IBV reference strains and the pigeon coronavirus isolates. A phylogenetic tree based on nucleotide sequences of HVR I of all the IBV showed that they were classified into 5 distinct Clusters. 16 out of 22 IBV isolates were grouped into Cluster I, and had higher homology with pigeon coronavirus isolates but lower homology with the Massachusetts (Mass) type vaccine strains. There were 4 and 3 amino-acid residues inserted at the sites of 33-34 and 34-35 respectively within HVR I in 15 isolates, except in isolate GX-NN6 there had 4 amino-acid residues inserted at the both sites; isolates GX-YL1 and GX-NN2 had close relationship with Mass type vaccine strains, and they shared Cluster II; isolates GX-G and GX-XD of Cluster III had close relationship with the Japanese strain JP Miyazaki 89 which was isolated at the same period; isolates GX-YL6 and GX-NN7 of Cluster V had close relationship with the European strain 4/91. The results showed that there were high phylogenetic diversity among the IBVs prevailed in the field in Guangxi resulting from the commonly occurred mutation or insertion within the S1 gene HVR I of the viruses, and majority of the isolates had lower homology with the commonly used Mass type vaccine strains. There was much higher homology among viruses isolated in the same period of time, but without distinct difference in geographical origins.