tva受体基因起始密码子突变对鸡感染A亚群禽白血病病毒的影响

    Effect of initiation codon mutation within tva receptor gene on chicken resistance to infection by avian leukemia virus subgroup A

    • 摘要:
      目的  探索tva受体基因起始密码子突变(tva c.3G>A)对鸡感染A 亚群禽白血病病毒(Avian leukemia virus subgroup A, ALV-A)的影响。
      方法  利用Sanger 测序和RT-PCR验证我国黄羽肉鸡存在tva c.3G>A突变。利用流式细胞术检测tva c.3G>A突变对鸡体外感染RCASBP(A)-GFP荧光报告病毒的影响。通过ALV-A体内攻毒试验,探究tva c.3G>A突变对鸡体内感染ALV-A的影响。利用直接测序方法对我国黄羽肉鸡品系tva c.3G>A突变位点进行基因分型。
      结果  Sanger测序和RT-PCR结果鉴定我国黄羽肉鸡品系tva基因编码区第3位碱基由G突变为A,该突变引起tva基因起始密码子序列由ATG突变为ATA。流式细胞术检测结果显示野生型tva c.3G/G鸡胚成纤维细胞(Chicken embryo fibroblast, CEF)对RCASBP(A)-GFP易感,纯合突变型tva c.3A/A CEF抗RCASBP(A)-GFP感染,表明tva c.3G>A突变导致鸡体外抗RCASBP(A)-GFP的感染。ALV-A体内攻毒试验的结果表明,tva c.3G>A突变导致鸡体内抗ALV-A的感染。tva c.3G>A突变位点基因分型发现,CB01、CB08、CB10和CB15品系存在纯合抗性基因型tva c.3A/A,频率分别为0.10、0.15、0.23和0.08。
      结论  tva c.3G>A突变引起鸡在体外、体内抗ALV-A感染,tva c.3G>A突变位点可作为ALV-A的遗传抗性位点。

       

      Abstract:
      Objective  To explore the effect of initiation codon mutation within tva receptor gene (tva c.3G>A) on resistance of chickens to infection by avian leukemia virus subgroup A (ALV-A).
      Method  Sanger sequencing and RT-PCR were used to verify the presence of tva c.3G>A mutation in Chinese yellow-feathered broilers. The effect oftva c.3G>A mutation on infection of chickens by RCASBP(A)-GFP fluorescence reporter virusin vitro was detected using flow cytometry. The effect of tva c.3G>A mutation on infection of chickens by ALV-A was investigated using ALV-A challenge testin vivo. Direct sequencing was used to genotypetva c.3G>A mutation site within Chinese yellow-feathered broiler lines.
      Result  The results of Sanger sequencing and RT-PCR identified the mutation from G to A on the third base in the coding region of tva gene of Chinese yellow-feathered broilers, which caused the mutation from ATG to ATA in the initial codon sequence of tva gene. The result of flow cytometry showed that chicken embryo fibroblasts (CEFs) of wild-type tva c.3G/G were susceptible to infection by RCASBP(A)-GFP, while the homozygous mutant tva c.3A/A CEFs were resistant to infection by RCASBP(A)-GFP, indicating that tva c.3G>A mutation led to chicken resistance to infection by RCASBP(A)-EGFPin vitro. The results of ALV-A challenge test in vivo also indicated that tva c.3G>A mutation led to chicken resistance to infection by ALV-A. Genotyping oftva c.3G>A revealed that homozygous resistance genotypetva c.3A/A was present in lines CB01, CB08, CB10 and CB15, with the frequencies of 0.10, 0.15, 0.23 and 0.08, respectively.
      Conclusion  The tva c.3G>A mutation causes chicken resistance to infection by ALV-Ain vitro and in vivo, and the tva c.3G>A mutation site can be used as the genetic resistance site of ALV-A.

       

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