The N1038S Substitution and 1153EQTRPKKSV1162 Deletion of the S2 Subunit of QX-Type Avian Infectious Bronchitis Virus Can Synergistically Enhance Viral Proliferation.

The S2 subunit of infectious bronchitis virus (IBV) plays a critical role in the process of IBV infection. A comparison between the S2 subunit sequence of chicken embryo kidney cell (CEK) adapted virulent QX-like IBV strain SczyC30 (hereafter referred to as zy30) and its CEK-attenuated strain, SczyC100, revealed an N1038S substitution in S2 subunit and a 1154EQTRPKKSV1162 residue deletion in the C-terminus of the S2 subunit. In order to explore whether these two mutations are related to changes in the biological characteristics of IBV, we firstly constructed an infectious clone of zy30 using a bacterial artificial chromosome (BAC), which combines the transcription of infectious IBV genomic RNA in non-susceptible BHK-21 cells with the amplification of rescued virus rzy30 in CEK cells. Then, three recombinant viruses, including an rzy30S2-N1038S strain that contained the N1038S substitution, an rzy30S2-CT9△ strain that contained the 1154EQTRPKKSV1162 deletion, and an rzy30S2-N1038S-CT9△ strain that contained both mutations, were constructed using rescued virus rzy30 as the backbone. The results showed that each mutation did not significantly affect the replication titer in CEK cells but reduced pathogenicity in chickens, while in combination, the N1038S substitution and 1154EQTRPKKSV1162 deletion improved the proliferation efficiency in CEK cells and reduced pathogenicity, compared to rzy30 strain. The contribution made by the 1154EQTRPKKSV1162 deletion in reducing pathogenicity was higher than that of N1038S substitution. Our results revealed that the N1038S substitution and 1154EQTRPKKSV1162 deletion in S2 subunit were deeply involved in the replication efficiency of IBV and contributed to reduction of viral pathogenicity.

Molecular characterization of infectious bronchitis virus in Southwestern China for the protective efficacy evaluation of four live vaccine strains.

The high mutation rate of infectious bronchitis virus (IBV) poses a significant threat to the protective efficacy of vaccines. This study aimed at analyzing the S1 genes of IBV field strains isolated in Southwestern China from 2018 to 2020, assessing the pathogenicity of four dominating strains, and evaluating the protective efficacy of four commercial vaccine strains against the endemic representative strains. Thirty-two field strains of IBV were isolated in Southwestern China from 2018 to 2020. Phylogenetic analysis of their S1 genes revealed the nucleotide homology ranged from 64.6% to 100%, and belonged to five genotypes [GI-19 (QX, 53.13%), GI-28 (LDT3-A,15.63%), GI-7 (TW, 12.50%), GI-1 (Mass, 6.23%), GVI-1 (TC07-2, 6.25%)], and two variant groups [variant-3 (3.13%) and variant-5 (3.13%)]. Recombination events between field and vaccine strains or between field strains were identified in the S1 genes of eight IBV field strains. The CK/CH/YNKM/191128 and CK/CH/CQBS/191203 strains of GI-19 showed morbidity rates of 66.7% and 73.7%, respectively, and mortality rates of 13.3% and 33.3%, respectively. Besides, the CK/CH/SCYC/191030 and CK/CH/GZGY/191021 strains of GI-28 caused morbidity rates of 60% and 86.7%, respectively, and mortality rates of 33.3%. The protective efficacy of the four commercial live vaccine strains (4/91, FNO-E55, LDT3-A, and QXL87) ranged from 70% - 100% and reduced tissue lesions against CK/CH/GZGY/191021 and CK/CH/CQBS/191203 strains. LDT3-A strain was the most effective one but still could not completely prohibit IBV shedding. These findings provide a reference for IBV molecular evolution analysis and control of IB.

Comparison and applications of spherocylindrical, toroidal, and ellipsoidal surfaces for the correction of astigmatism in spectacle lenses.

Toroidal, spherocylindrical, ellipsoidal, and combined surfaces were used to correct astigmatism in aspheric spectacle lenses, and the differences among the proposed techniques were compared. Four astigmatic spectacle lenses were designed with the same optical parameters. A freeform measuring machine was used to evaluate posterior surfaces of aspheric spectacle lenses, and spherical and cylindrical power maps were generated and compared. The measured data were analyzed via commercial software. The toroidal lens helped to extend the clear vision range around the lens, and the ellipsoidal and spherocylindrical surfaces resulted in a more accurate centering of the lens around the optical axis of the eye, avoided astigmatism, and provided better visual perception.