农科机构知识库联盟

Development of a DNA microarray-based multiplex assay of avian influenza virus subtypes H5, H7, H9, N1, and N2

文献类型：外文期刊

第一作者： Shi, L.

作者： Shi, L.;Sun, J. -S.;Yu, X. -W.;Zheng, S. -M.;Shi, L.;Sun, J. -S.;Yang, Z. -P.;Bao, H. -M.;Jiang, Y. -P.;Xiong, Y. -Z.;Chen, H. -L.;Wang, X. -R.;Shi, L.;Sun, J. -S.;Yang, Z. -P.;Bao, H. -M.;Jiang, Y. -P.;Xiong, Y. -Z.;Chen, H. -L.;Wang, X. -R.;Shi, L.;Cao, D.;Yu, X. -W.

作者机构：

关键词： DNA microarray;avian influenza virus;subtyping

期刊名称：ACTA VIROLOGICA （影响因子：1.162；五年影响因子：1.255 ）

ISSN： 0001-723X

年卷期： 2014 年 58 卷 1 期

页码：

收录情况： SCI

摘要： Outbreaks of highly pathogenic avian influenza have caused considerable economic losses in the poultry industry and have also resulted in human deaths since 2004. Rapid subtyping of highly pathogenic avian influenza viruses(HPAIVs) in clinical specimens is a prerequisite of prompt control of disease and prevention of its spreading. In this study, we describe development of a DNA microarray-based detection and subtyping of HPAIVs in field samples. DNA copies of matrix (M) protein genes for the H5, H7, and H9 subtypes of hemagglutinin (HA) and the N1 and N2 subtypes of neuraminidase (NA) were prepared by RT-PCR and specific primers and then spotted onto aldehyde slides to form DNA microarrays. The HPAIV samples to be tested were subjected to total RNA isolation, RT-PCR with universal primers and Cy3 labeling, and the obtained double-stranded DNAs (targets) were finally hybridized with DNA microarrays (probes). A fluorescent spot on the microarray, detected by scanning indicated positive hybridization, i.e. the involved subtype. The assay was specific as various heterologous viruses or HPAIVs of other subtypes tested were negative. No cross-hybridization among different subtypes could be detected. The assay was more sensitive than RT-PCR and chicken embryo inoculation and could be also used for field samples. Summing up, the assay has proved useful for simultaneous detection and differentiation of main epidemic HPAIV subtypes.

分类号：

相关文献

[1]A multiplex reverse transcription-PCR assay for the detection of influenza A virus and differentiation of the H1, H3, H5 and H9 subtypes. Wu, Ling,Ding, Longfei,Pei, Zenglin,Pan, Zishu,Huo, Xixiang,Wen, Guoyuan.

[2]Gene Expression Profiling of Cecropin B-Resistant Haemophilus parasuis. Wang, Chunmei,Chen, Fangzhou,Hu, Han,Li, Wentao,Chen, Pin,Liu, Yingyu,Ku, Xugang,He, Qigai,Chen, Huanchun,Wang, Chunmei,Xue, Feiqun,Wang, Yang.

[3]Identification of metabolism pathways directly regulated by sigma(54) factor in Bacillus thuringiensis. Peng, Qi,Wang, Guannan,Zhang, Jie,Song, Fuping,Liu, Guiming. 2015

[4]Rapid subtyping of H9N2 influenza virus by a triple reverse transcription polymerase chain reaction. Chen, Hao-Tai,Zhang, Jie,Ma, Li-Na,Ma, Yan-Ping,Ding, Yao-Zhong,Wang, Meng,Liu, Xiang-Tao,Zhang, Yong-Guang,Liu, Yong-Sheng. 2009

[5]PB2-E627K and PA-T97I substitutions enhance polymerase activity and confer a virulent phenotype to an H6N1 avian influenza virus in mice. Cheng, Kaihui,Yu, Zhijun,Sun, Weiyang,Xin, Yue,Huang, Jing,Zhang, Kun,Li, Xue,Yang, Songtao,Wang, Tiecheng,Zheng, Xuexing,Wang, Hualei,Qian, Jun,Gao, Yuwei,Xia, Xianzhu,Cheng, Kaihui,Yu, Zhijun,Qin, Chuan,Xia, Xianzhu,Yu, Zhijun,Qin, Chuan,Xia, Xianzhu,Zhang, Qianyi,Chen, Hualan,Chai, Hongliang,Hua, Yuping.

[6]Multiple adaptive amino acid substitutions increase the virulence of a wild waterfowl-origin reassortant H5N8 avian influenza virus in mice. Yu, Zhijun,Sun, Weiyang,Zhang, Xinghai,Xia, Xianzhu,Gao, Yuwei,Xia, Xianzhu,Gao, Yuwei,Cheng, Kaihui,Xia, Xianzhu,Gao, Yuwei. 2018

[7]Multiple amino acid substitutions involved in the adaptation of H6N1 avian influenza virus in mice. Yu, Zhijun,Qin, Chuan,Xia, Xianzhu,Yu, Zhijun,Qin, Chuan,Xia, Xianzhu,Yu, Zhijun,Cheng, Kaihui,Xin, Yue,Sun, Weiyang,Li, Xue,Huang, Jing,Zhang, Kun,Yang, Songtao,Wang, Tiecheng,Zheng, Xuexing,Wang, Hualei,Qin, Chuan,Xia, Xianzhu,Cheng, Kaihui,Chai, Hongliang.

[8]Rapid acquisition adaptive amino acid substitutions involved in the virulence enhancement of an H1N2 avian influenza virus in mice. Yu, Zhijun,Sun, Weiyang,Zhang, Xinghai,Xia, Xianzhu,Gao, Yuwei,Xia, Xianzhu,Gao, Yuwei,Cheng, Kaihui,Zhao, Chuqi.

[9]Sequence analysis of the haemagglutinin genes of H9N2 avian influenza viruses isolated in China during 1996 to 2011. Dai, Yin,Zhao, Ruihong,Hu, Xiaomiao,Zhang, Danjun,Wang, Junjun,Xu, Fazhi. 2012

[10]Diversified reassortant H9N2 avian influenza viruses in chicken flocks in northern and eastern China. Huang, Yanyan,Hu, Beixia,Zhang, Xiumei,Huang, Yanyan,Wen, Xintian,Cao, Sanjie,Du, Qijing,Gavrilov, Boris K.,Khan, Mazhar I.. 2010

[11]New H6 influenza virus reassortment strains isolated from Anser fabalis in Anhui Province, China. Ge, Ye,Yao, Qiucheng,Ma, Jian,Chen, Si,Deng, Guohua,Chen, Hualan,Ge, Ye,Chai, Hongliang,Hua, Yuping,Fan, Zhiqiang,Wang, Xianfu. 2017

[12]Novel genetic reassortants in H9N2 influenza A viruses and their diverse pathogenicity to mice. Bi, Yuhai,Lu, Lu,Li, Jing,Zeshan, Basit,Sun, Lei,Liu, Wenjun,Lu, Lu,Yin, Yanbo,Qin, Zhuoming,Zhang, Yi,Gao, Huijie,Liu, Jinhua. 2011

[13]Sequence and phylogenetic analysis of hemagglutinin genes of H9N2 influenza viruses isolated from chicken in China from 2013 to 2015. Su Xiao-na,Xie Qing-mei,Chen Wei-guo,Bi Ying-zuo,Chen Feng,Su Xiao-na,Xie Qing-mei,Chen Feng,Su Xiao-na,Xie Qing-mei,Chen Feng,Liao Chang-tao,Yan Zhuan-qiang. 2016

[14]The first lack of evidence of H7N9 avian influenza virus infections among pigs in Eastern China. Zhao, Fu-Rong,Zhou, Dong-Hui,Lin, Tong,Shao, Jun-Jun,Wei, Ping,Zhang, Yong-Guang,Chang, Hui-Yun,Wei, Ping.

[15]New influenza A(H7N7) viruses detected in live poultry markets in China. Cui, Pengfei,Chen, Hualan,Cui, Pengfei,Deng, Guohua,Shi, Jianzhong,Kong, Huihui,Liu, Liling,Guan, Yuntao,Chen, Hualan,Suzuki, Yasuo.

[16]Detection and differentiation of four poultry diseases using asymmetric reverse transcription polymerase chain reaction in combination with oligonucleotide microarrays. Tao, Qimeng,Wang, Xiurong,Bao, Hongmei,Wu, Jianan,Shi, Lin,Li, Yanbing,Qiao, Chuanling,Chen, Hualan,Tao, Qimeng,Wang, Xiurong,Bao, Hongmei,Wu, Jianan,Shi, Lin,Li, Yanbing,Qiao, Chuanling,Chen, Hualan,Yakovlevich, Samuilenko Anatolij,Mikhaylovna, Poukhova Nina.

[17]Efficacy of a high-yield attenuated vaccine strain wholly derived from avian influenza viruses by use of reverse genetics. Liu, Ming,Liu, Ming.

[18]Non-thermal plasma for inactivated-vaccine preparation. Wang, Guomin,Wang, Kaile,Zhang, Qian,Zhang, Jue,Fang, Jing,Zhu, Ruihao,Yang, Licong,Su, Xia,Yang, Bing,Zhang, Jue,Fang, Jing.

[19]Lowly pathogenic avian influenza (H9N2) infection in Plateau pika (Ochotona curzoniae), Qinghai Lake, China. Yu, Zhijun,Zhang, Kun,Qin, Chuan,Xia, Xianzhu,Yu, Zhijun,Zhang, Kun,Qin, Chuan,Xia, Xianzhu,Yu, Zhijun,Cheng, Kaihui,Sun, Weiyang,Xin, Yue,Li, Lin,Huang, Jing,Sang, Xiaoyu,Li, Xue,Wang, Tiecheng,Qian, Jun,Gao, Yuwei,Xia, Xianzhu,Cai, Jinshan,Ma, Ruilin,Zhao, Quanbang,Cheng, Kaihui,Huang, Jing,Li, Xue.

[20]Pathogenesis and Phylogenetic Analyses of Two Avian Influenza H7N1 Viruses Isolated from Wild Birds. Jin, Hongmei,Sun, Jing,Chen, Guang,Zhang, Xiaolin,Zhang, Jiajie,Li, Xiang,Chai, Hongliang,Hua, Yuping,Wang, Deli,Cui, Yanfang,Li, Yanbing,Sun, Jing,Chen, Guang,Gao, Yuwei. 2016

作者其他论文更多>>

The Importance of Genetic Isolation in Preserving the Gene Pool of Apis cerana in Fanjingshan Nature Reserve

作者：Yu, Y.;Ran, Y.;Zhan, H.;Wan, W.;Wei, X.;Shi, L.;Li, M.

关键词：nature reserve; honey bee resource; protection; genetic differentiation; private haplotype
Genome- Wide Association Study of Abdominal Fat in Wenshang Barred Chicken Based on the Slaf- Seq Technology

作者：Liu, W.;Liu, J.;Zhou, Y.;Cao, D.;Lei, Q.;Han, H.;Wang, J.;Li, D.;Gao, J.;Li, H.;Li, F.;Liu, W.;Liu, J.;Zhou, Y.;Cao, D.;Lei, Q.;Han, H.;Wang, J.;Li, D.;Gao, J.;Li, F.

关键词：Abdominal fat traits; genome-wide association study; SLAF-seq; Wenshang Barred chicken
Wuyiencin produced by Streptomyces albulus CK-15 displays biocontrol activities against cucumber powdery mildew

作者：Yang, M.;Wei, Q.;Shi, L.;Wei, Z.;Lv, Z.;Zhang, K.;Ge, B.;Asim, N.

关键词：cucumber powdery mildew disease; fungal biocontrol agent; plant systemic resistance; Sphaerotheca fuliginea; Streptomyces albulus; wuyiencin
Dynamic infection ofVerticillium dahliaein upland cotton

作者：Zhang, J.;Hu, H. -L.;Wang, X. -N.;Yang, Y. -H.;Tang, C. -M.;Zhang, C. -J.;Zhu, H. -Q.;Shi, L.;Zhao, M. -W.

关键词：immunity response; infection mechanism; pathogenicity; resistance; upland cotton; Verticillium dahliae
Overexpression ofwysRgene enhances wuyiencin production in Delta wysR3mutant strain ofStreptomyces albulusvar. wuyiensis strain CK-15

作者：Wei, Q.;Aung, A.;Liu, B.;Ma, J.;Shi, L.;Zhang, K.;Ge, B.;Aung, A.

关键词：biocontrol; Gibson assembly; overexpression; wuyiencin; wysR; Delta wysR3
Effect of Plant Essential Oil on Growth Performance and Immune Function During Rearing Period in Laying Hens

作者：Gao, J.;Liu, W.;Lei, Q.;Han, H.;Zhou, Y.;Liu, J.;Cao, D.;Li, H.;Li, F.;Gao, J.;Geng, B.;Liu, W.;Lei, Q.;Han, H.;Zhou, Y.;Liu, J.;Cao, D.;Li, H.;Li, F.

关键词：Laying hens; plant essential oil; production performance; immune function
INTERACTIVE EFFECTS OF ELEVATED CO2 CONCENTRATION AND NITROGEN FERTILIZER APPLICATION ON NITROGEN DISTRIBUTION IN A COTTON-SOIL SYSTEM

作者：Lyu, N.;Shi, L.;Chen, Y.;Yin, F.;Lyu, N.;Sun, L.;Liu, F.

关键词：elevated CO2 concentration; nitrogen fertilizer application; cotton growth; biomass; plant total N content; soil NO3--N; soil NH4+-N

Development of a DNA microarray-based multiplex assay of avian influenza virus subtypes H5, H7, H9, N1, and N2

作者其他论文 更多>>

The Importance of Genetic Isolation in Preserving the Gene Pool of Apis cerana in Fanjingshan Nature Reserve

Genome- Wide Association Study of Abdominal Fat in Wenshang Barred Chicken Based on the Slaf- Seq Technology

Wuyiencin produced by Streptomyces albulus CK-15 displays biocontrol activities against cucumber powdery mildew

Dynamic infection ofVerticillium dahliaein upland cotton

Overexpression ofwysRgene enhances wuyiencin production in Delta wysR3mutant strain ofStreptomyces albulusvar. wuyiensis strain CK-15

Effect of Plant Essential Oil on Growth Performance and Immune Function During Rearing Period in Laying Hens

INTERACTIVE EFFECTS OF ELEVATED CO2 CONCENTRATION AND NITROGEN FERTILIZER APPLICATION ON NITROGEN DISTRIBUTION IN A COTTON-SOIL SYSTEM

作者其他论文更多>>