Genomic and pathogenic analysis of a Muscovy duck parvovirus strain causing short beak and dwarfism syndrome without tongue protrusion

文献类型: 外文期刊

第一作者: Fu, Qiuling

作者: Fu, Qiuling;Huang, Yu;Wan, Chunhe;Fu, Guanghua;Cheng, Longfei;Shi, Shaohua;Chen, Hongmei;Liu, Rongchang;Chen, Zhenhai;Qin, Baomin

作者机构:

关键词: Muscovy duck parvovirus;Short beak and dwarfism syndrome;Tongue protrusion;Phylogenetic analysis;Inverted terminal repeat

期刊名称:RESEARCH IN VETERINARY SCIENCE ( 影响因子:2.534; 五年影响因子:2.382 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: AbstractIn 2008, clinical cases of short beak and dwarfism syndrome (SBDS) caused by Muscovy duck parvovirus (MDPV) infection were found in mule duck and Taiwan white duck farms in Fujian, China. A MDPV LH strain causing duck SBDS without tongue protrusion was isolated in this study. Phylogenetic analysis show that the MDPV LH strain was clustered together with other MDPV strains, but divergent from GPV isolates. Two major fragment deletions were found in the inverted terminal repeats (ITR) of MDPV LH similar to the ones in the ITR of MDPV GX5, YY and SAAS-SHNH strains. To investigate the pathogenicity of the MDPV LH strain, virus infection of young mule ducks was performed. The infected ducks showed SBDS symptoms including retard growth and shorten beaks without tongue protrusion. Atrophy of thymus, spleen and bursa of Fabricius was identified in the infected ducks. The results show that MDPV LH strain is moderately pathogenic to mule duck, leading to occurrence of SBDS. As far as we know, it is the first study showing that SBDS without tongue protrusion, and atrophy of thymus, spleen and bursa of Fabricius possibly associated with immunosuppression were found in the MDPV-infected ducks. The established duck-MDPV-SBDS system will help us to further work on the virus pathogenesis and develop efficacious vaccine against MDPV infection.Highlights?Identification of a MDPV strain causing SBDS symptoms without tongue protrusion in ducks;?Atrophy of spleen, thymus and bursa of fabricius was found in the MDPV-infected ducks;?Two major fragment deletions were determined in the ITR of some MDPV strains.]]>

分类号: S85

  • 相关文献

[1]Phylogenetic analysis of VP1 gene sequences of waterfowl parvoviruses from the Mainland of China revealed genetic diversity and recombination. Wang, Shao,Cheng, Xiao-xia,Chen, Shao-ying,Lin, Feng-qiang,Chen, Shi-long,Zhu, Xiao-li,Wang, Jin-xiang,Huang, Mei-qing,Zheng, Min,Wang, Shao,Cheng, Xiao-xia,Chen, Shao-ying,Lin, Feng-qiang,Chen, Shi-long,Zhu, Xiao-li,Wang, Jin-xiang,Huang, Mei-qing,Zheng, Min.

[2]Novel duck parvovirus identified in Cherry Valley ducks (Anas platyrhynchos domesticus), China. Li, Chuanfeng,Li, Qi,Chen, Zongyan,Liu, Guangqing.

[3]The newly emerging duck-origin goose parvovirus in China exhibits a wide range of pathogenicity to main domesticated waterfowl. Xiao, Shifeng,Chen, Shilong,Cheng, Xiaoxia,Lin, Fengqiang,Wang, Shao,Zhu, Xiaoli,Yu, Bo,Huang, Meiqing,Wang, Jinxiang,Wu, Nanyang,Zheng, Min,Chen, Shaoying,Xiao, Shifeng,Chen, Shilong,Cheng, Xiaoxia,Lin, Fengqiang,Wang, Shao,Zhu, Xiaoli,Huang, Meiqing,Wang, Jinxiang,Wu, Nanyang,Zheng, Min,Chen, Shaoying,Yu, Fusong,Yu, Fusong.

[4]Identification of a recombinant Muscovy Duck parvovirus (MDPV) in Shanghai, China. Zhu, Yumin,Zhou, Zongqing,Huang, Yu,Yu, Ruisong,Dong, Shijuan,Li, Zhen,Zhu, Yumin,Zhou, Zongqing,Huang, Yu,Yu, Ruisong,Dong, Shijuan,Li, Zhen,Zhang, Yuanshu.

[5]Selection of an aptamer against Muscovy duck parvovirus for highly sensitive rapid visual detection by label-free aptasensor. Lu, Taofeng,Ma, Qin,Yan, Wenzhuo,Wang, Yuanzhi,Zhang, Yuanyuan,Zhao, Lili,Chen, Hongyan. 2018

[6]Development and evaluation of a VP3-ELISA for the detection of goose and Muscovy duck parvovirus antibodies. Zhang, Yun,Liu, Ming,Zhang, Dabing,Li, Gang,Tong, Guangzhi. 2010

[7]Genomic Characterization of Goose Parvovirus and Muscovy Duck Parvovirus Co-infection in Fujian, China. Wan, Chun-he,Hu, Kai-hui,Wan, Chun-he,Chen, Hong-mei,Fu, Qiu-ling,Fu, Guang-hua,Cheng, Long-fei,Shi, Shao-hua,Huang, Yu. 2015

[8]Development of a restriction length polymorphism combined with direct PCR technique to differentiate goose and Muscovy duck parvoviruses. Wan, Chun-He,Chen, Hong-Mei,Fu, Qiu-Ling,Shi, Shao-Hua,Fu, Guang-Hua,Cheng, Long-Fei,Chen, Cui-Teng,Huang, Yu,Hu, Kai-Hui.

[9]Molecular Characterization and Phylogenetic Analysis of New Variants of the Porcine Epidemic Diarrhea Virus in Gansu, China in 2012. Tian, Yufei,Liu, Yuxiu,Yang, Zhenguo,Tian, Yufei,Yu, Zhijun,Huang, Jing,Xin, Yue,Li, Yuanguo,Wang, Tiecheng,Huang, Geng,Feng, Na,Yang, Songtao,Gao, Yuwei,Xia, Xianzhu,Yu, Zhijun,Fan, Shengtao,Yu, Zhijun,Fan, Shengtao,Cheng, Kaihui. 2013

[10]Biotype status and distribution of Bemisia tabaci (Hemiptera : Aleyrodidae) in shandong province of China based on mitochondrial DNA markers. Chu, D.,Jiang, T.,Liu, G. X.,Jiang, D. F.,Tao, Y. L.,Fan, Z. X.,Zhou, H. X.,Bi, Y. P.. 2007

[11]The introduction of the exotic Q biotype of Bemisia tabaci from the Mediterranean region into China on ornamental crops. Chu, D,Zhang, YJ,Brown, JK,Cong, B,Xu, BY,Wu, QJ,Zhu, GR. 2006

[12]Characterization of complete mitochondrial genome of Dezhou donkey (Equus asinus) and evolutionary analysis. Sun, Yan,Jiang, Qiang,Yang, Chunhong,Wang, Xiuge,Ju, Zhihua,Huang, Jinming,Zhong, Jifeng,Wang, Changfa,Tian, Fang,Wang, Yinchao,Zhou, Xiangshan,Ma, Yong.

[13]Genome-wide identification and characterization of SnRK2 gene family in cotton (Gossypium hirsutum L.). Zhao Liu,Xiaoyang Ge,Zuoren Yang,Li, Fuguang,Zhang, Xueyan,Chaojun Zhang,Ge Zhao,Eryong Chen,Ji Liu,Xueyan Zhang,Fuguang Li. 2017

[14]Diagnosis of Peste des Petits Ruminants in Wild and Domestic Animals in Xinjiang, China, 2013-2016. Li, J.,Li, L.,Wu, X.,Liu, F.,Zou, Y.,Wang, Q.,Liu, C.,Bao, J.,Wang, Z.,Wang, W.,Ma, W.,Lin, H.,Huang, J.,Zheng, X.. 2017

[15]A Novel AP2/ERF Transcription Factor CR1 Regulates the Accumulation of Vindoline and Serpentine in Catharanthus roseus. Gao, Fangyuan,Ren, Juansheng,Lu, Xianjun,Ren, Guangjun,Wang, Rui. 2017

[16]Genome-wide analysis of the homeodomain-leucine zipper (HD-ZIP) gene family in peach (Prunus persica). Zhang, C. H.,Ma, R. J.,Shen, Z. J.,Yu, M. L.,Sun, X.,Korir, N. K.. 2014

[17]Genome-Wide Identification and Expression Profile of Dof Transcription Factor Gene Family in Pepper (Capsicum annuum L.). Wu, Zhiming,Bang, Guansheng,Cheng, Jiaowen,Cui, Junjie,Hu, Kailin,Xu, Xiaowan,Luo, Xirong,Chen, Xiaocui,Tang, Xiangqun,Qin, Cheng,Qin, Cheng. 2016

[18]Isolation and phylogenetic analysis of novel gamma-gliadin genes in genus Dasypyrum. Liu, C.,Yang, Z. J.,Yang, E. N.. 2013

[19]Comprehensive Genomic Analysis and Expression Profiling of the NOX Gene Families under Abiotic Stresses and Hormones in Plants. Chang, Yan-Li,Miao, Hai,Yang, Shuai-Qi,Li, Ri,Wang, Xiang,Li, Wen-Qiang,Chen, Kun-Ming,Li, Wen-Yan. 2016

[20]Genome-wide analysis of TCP family in tobacco. Chen, L.,Ding, A. M.,Chen, H.,Xia, F.,Wang, W. F.,Sun, Y. H.,Chen, L.,Chen, H.,Xia, F.,Wang, W. F.,Chen, Y. Q.. 2016

作者其他论文 更多>>

微信小程序