摘要
为了解2013-2014年我国东北地区猪繁殖与呼吸综合征病毒(PRRSV)的遗传变异情况,研究对东北地区3个省份29个地区采集的123份样品进行了检测,并对20份阳性样品的GP5和部分NSP2基因进行了RT-PCR扩增、测序、遗传进化及序列比对分析。结果表明:我国东北地区PRRSV阳性率为16%,与国内外已发表的10株PRRSV参考株相比,GP5基因的核苷酸同源性为84.4%-100%。GP5氨基酸序列分析表明,大多数毒株在氨基酸高变区、中和表位和诱导表位发生了变异,主要变异为:C24→Y24,F25→L25,V27→A27,L28→I28,N34→G34/S34/D34。LN283株GP5和NSP2基因遗传进化树的不同结果表明,LN283株可能涉及PRRSV基因重组。HLJ13株NSP2基因PCR扩增产物有2条相差90 bp的目的条带,且NSP2基因遗传进化树显示两条序列分别属于CH-1a亚群和HuN4亚群,推断HLJ13株可能为经典和高致病性混合感染株。GP5和NSP2遗传进化及氨基酸序列分析结果表明,所有病毒株均属于北美洲型,且以HP-PRRSV为主,经典株与变异株共存。本研究结果可为我国东北地区PRRSV遗传进化研究及疫病防控提供参考。
To investigate the genetic variation of (PRRSV) in Northeast China included from Northeast China were tested, the sequenced, phylogenetic and alignment 29 regions GP5 and analyzed, pathogenic porcine reproductive and respiratory syndrome of 3 provinces from 2013 to 2014,123 tissue samples collected partial NSP2 genes of 20 positive samples were amplified, respectively. The results showed that the PRRSV positive rate was 16% , GP5 genesshared 84. 4% - 100% nucleotide similarity compared with 10 domestic and overseas reference PRRSV strains. Amino acid analysis of GP5 revealed that most strains had mutations, especially in the hyper-variable regions, the primary neutraliz V27→A27, L28→128, N34→G34/S34/D34 ing Th epitope and decoy epitope, which were C24→Y24,F25→L25, e phylogenetic of GP5 and NSP2 of LN283 indicated the strain could be genetic recombination strain. The result of PCR on HLJI3 showed NSP2 had two genes which differed 90 bp, and the phylogenetic of NSP2 showed they belonged to CH - 1a and HuN4 subgro polyinfection involved of classical and highly pathogenic strain. The phylogenetie and amino up, acid which could be analysis of GP5 and NSP2 demonstrate all strains belonged to North American genotype, which gave priority to HP - PRRSV, coexisting of classic strains and mutant strains. The study would provide a new reference on genetic evolution and disease control for PRRSV in Northeast China .
出处
《中国兽药杂志》
北大核心
2015年第8期1-6,共6页
Chinese Journal of Veterinary Drug
基金
国家自然科学基金(31270045)
吉林省科技厅自然科学基金项目(20150101107JC)
