Analysis of the vp2 gene sequence of a new mutated mink enteritis parvovirus strain in PR China
文献类型: 外文期刊
第一作者: Zuo, Jing
作者: Zuo, Jing;Rao, Jiahui;Xu, Huihui;Ma, Liming;Li, Bo;Wang, Yuping;Han, Wenyu;Lei, Liancheng;Cai, Xuehui;Liu, Bin
作者机构:
期刊名称:VIROLOGY JOURNAL ( 影响因子:4.099; 五年影响因子:3.719 )
ISSN: 1743-422X
年卷期: 2010 年 7 卷
页码:
收录情况: SCI
摘要: Background: Mink enteritis virus (MEV) causes a highly contagious viral disease of mink with a worldwide distribution. MEV has a linear, single-stranded, negative-sense DNA with a genome length of approximately 5,000 bp. The VP2 protein is the major structural protein of the parvovirus encoded by the vp2 gene. VP2 is highly antigenic and plays important roles in determining viral host ranges and tissue tropisms. This study describes the bionomics and vp2 gene analysis of a mutated strain, MEV-DL, which was isolated recently in China and outlines its homologous relationships with other selected strains registered in Genbank. Results: The MEV-DL strain can infect F81 cells with cytopathic effects. Pig erythrocytes were agglutinated by the MEV-DL strain. The generation of MEV-DL in F81 cells could infect mink within three months and cause a disease that was similar to that caused by wild-type MEV. A comparative analysis of the vp2 gene nucleotide (nt) sequence of MEV-DL showed that this was more than 99% homologous with other mink enteritis parvoviruses in Genbank. However, the nucleotide residues at positions 1,065 and 1,238 in the MEV-DL strain of the vp2 gene differed from those of all the other MEV strains described previously. It is noteworthy that the mutation at the nucleotide residues position 1,238 led to Asp/Gly replacement. This may lead to structural changes. A phylogenetic tree and sequence distance table were obtained, which showed that the MEV-DL and ZYL-1 strains had the closest inheritance distance. Conclusions: A new variation of the vp2 gene exists in the MEV-DL strain, which may lead to structural changes of the VP2 protein. Phylogenetic analysis showed that MEV-DL may originate from the ZYL-1 strain in DaLian.
分类号:
- 相关文献
作者其他论文 更多>>
-
Creeping Stem 1 regulates directional auxin transport for lodging resistance in soybean
作者:Xu, Zhiyong;Kong, Keke;Kong, Jiejie;Zhao, Tuanjie;Xu, Zhiyong;Zhang, Liya;Ji, Ronghuan;Liu, Jun;Li, Hongyu;Ren, Yulong;Zhou, Wenbin;Zhao, Tao;Liu, Bin;Xu, Zhiyong;Liu, Yi
关键词:soybean; lodging resistance; gravitropism; amyloplast sedimentation; polar auxin transport
-
Soybean2035: A decadal vision for soybean functional genomics and breeding
作者:Tian, Zhixi;Nepomuceno, Alexandre Lima;Song, Qingxin;Stupar, Robert M.;Liu, Bin;Kong, Fanjiang;Ma, Jianxin;Lee, Suk-Ha;Lee, Suk-Ha;Jackson, Scott A.
关键词:soybean; omics; functional genomics; molecular breeding; artificial intelligence
-
Concentration-dependent effect of norfloxacin on iron toxicity in the intestine of large yellow croaker Larimichthys crocea (Richardson, 1846)
作者:Zeng, Lin;Wang, Yong-Hong;Ai, Chun-Xiang;Yu, Min-Hui;Liu, Bin;Liu, Bin;Zhang, Hui;Li, Fei
关键词:iron exposure; norfloxacin; NF-kappa B; HSP;
Larimichthys crocea -
Identification and characterization of ClAPRR2, a key candidate gene controlling watermelon stripe color
作者:Liang, Shuang;Yang, Miaomiao;Zhang, Linlin;Fang, Xufeng;Luan, Feishi;Liu, Shi;Liang, Shuang;Yang, Miaomiao;Zhang, Linlin;Fang, Xufeng;Luan, Feishi;Liu, Shi;Zhang, Xian;Wei, Chunhua;Dai, Zuyun;Yang, Zhongzhou;Wang, Chaonan;Liu, Bin
关键词:Watermelon; Stripe color; Genetic mapping; Chlorophyll
-
Paenibacillus mesotrionivorans sp. nov., a Mesotrione-Degrading Strain Isolated from Soil
作者:Song, Ye;Wu, Yan;Ruan, Luyao;Wan, Minglai;Liu, Bin;He, Jian;Chen, Leyao;Wan, Minglai;Zhang, Baolong;He, Jian;He, Jian
关键词:
-
Icariin-loaded chitosan/β-glycerophosphate thermosensitive hydrogel enhanced infection control and bone regeneration in canine with infectious bone defects
作者:Shao, Bing;Fu, Yang;Li, Bo;Huo, Siming;Du, Jiayu;Zhang, Xuliang;Li, Yanfei;Cao, Zheng;Song, Miao;Fu, Yang;Shao, Bing;Yin, Xin
关键词:Icariin; thermosensitive hydrogel; infection control; angiogenesis; bone regeneration
-
TPT disrupts early embryonic development and glucose metabolism of marine medaka in different salinites
作者:Li, Tengzhou;Liu, Bin;Xing, Shaoying;Liu, Ling;Li, Ping;Li, Zhi-Hua;Li, Luoxin
关键词:Oryzias melastigma; Triphenyltin; Salinity; Insulin signaling pathway
