|本期目录/Table of Contents|

[1]吉颖,吴淑华,崔晓艳,等.江苏省大豆上一种新粉虱传病毒的分子鉴定及系统进化分析[J].江苏农业科学,2022,50(10):30-36.
 Ji Ying,et al.Molecular identification and phylogenetic analysis of a new whitefly-transmitted virus infecting soybean from Jiangsu Province[J].Jiangsu Agricultural Sciences,2022,50(10):30-36.
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江苏省大豆上一种新粉虱传病毒的分子鉴定及系统进化分析(PDF)
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《江苏农业科学》[ISSN:1002-1302/CN:32-1214/S]

卷:
第50卷
期数:
2022年第10期
页码:
30-36
栏目:
生物技术
出版日期:
2022-05-20

文章信息/Info

Title:
Molecular identification and phylogenetic analysis of a new whitefly-transmitted virus infecting soybean from Jiangsu Province
作者:
吉颖1吴淑华2崔晓艳3涂丽琴2高丹娜2程兆榜2周益军2陈新3季英华2郭青云1
1.青海大学农林科学院/青海省农业有害生物综合治理重点实验室/农业农村部西宁作物有害生物科学观测实验站,青海西宁 810016;2.江苏省农业科学院植物保护研究所,江苏南京 210014; 3.江苏省农业科学院经济作物研究所,江苏南京 210014
Author(s):
Ji Yinget al
关键词:
大豆豇豆轻斑驳病毒分子鉴定聚类分析进化树构建
Keywords:
-
分类号:
S435.651
DOI:
-
文献标志码:
A
摘要:
2019年在对江苏大豆上病毒病进行调查时,发现徐州和淮安大豆田间出现一种表现叶片黄化、花叶症状的病毒病,为明确其伴随病毒种类,对田间采集的70份疑似病样进行分子检测和鉴定,结果在利用香石竹潜隐病毒属(Carlavirus)通用引物检测时发现,70份疑似病样中有15份样品扩增到800 bp左右的目的片段,序列测定后BLAST分析结果显示,其与一种粉虱传病毒——豇豆轻斑驳病毒CpMMV(cowpea mild mottle virus,CpMMV)的同源性最高,暗示了其可能是CpMMV的一个分离物。针对CpMMV编码的CP基因设计特异性引物,检测结果显示15份阳性样品均扩增到目的片段,对获得的CP基因片段进行克隆测序,发现其序列全长867 bp,编码分子量约为32ku的蛋白;序列聚类分析结果显示,其与已报道的CpMMV分离物有较高的同源性,并聚类到同一个大的分支,其中与安徽、海南等地分离物相对近缘,聚在同一个小分支。这些结果表明江苏大豆存在豇豆轻斑驳病毒的侵染危害,生产上需要密切关注。
Abstract:
-

参考文献/References:

[1]赵团结,盖钧镒. 栽培大豆起源与演化研究进展[J]. 中国农业科学,2004,37(7):954-962.
[2]智海剑. 大豆对大豆花叶病毒抗侵染和抗扩展特性的鉴定、遗传和利用研究[D]. 南京:南京农业大学,2005:3.
[3]单宇航,高维达,于曼,等. 大豆花叶病毒沈阳分离物全基因测序及系统进化分析[J]. 中国植保导刊,2020,40(2):17-21.
[4]Hobbs H A,Domier L L,Nelson B D. First report of alfalfa mosaic virus and soybean dwarf virus on soybean in North Dakota[J]. Plant Disease,2012,96(12):1829.
[5]杨晓,张宇,陈莎,等. 豇豆轻斑驳病毒海南分离物全基因组序列测定及分子特征[J]. 中国蔬菜,2019(6):35-38.
[6]Muniyappa V,Reddy D V R. Transmission of cowpea mild mottle virus by Bemisia tabaci in a non-persistent manner[J]. Plant Disease,1983,67(4):391-393.
[7]Iwaki M,Thongmeearkom P,Honda Y,et al. Cowpea mild mottle virus occurring on soybean and peanut in southeast Asian countries[J]. Technical Bulletin of the Tropical Agriculture Research Center,1986,21:106-120.
[8]Brunt A A,Kenten R H. Cowpea mild mottle,a newly recognized virus infecting cowpeas (Vigna unguiculata) in Ghana[J]. Annals of Applied Biology,1973,74(1):67-74.
[9]Zanardo L G,Silva F N,Bicalho A A C,et al. Molecular and biological characterization of cowpea mild mottle virus isolates infecting soybean in Brazil and evidence of recombination[J]. Plant Pathology,2014,63(2):456-465.
[10]Brunt A A,Phillips S. ‘Fuzzy vein’,a disease of tomato (Lycopersicon esculentum) in western Nigeria induced by cowpea mild mottle virus[J]. Tropical Agriculture,1981,58(2):177-180.
[11]Mansour A,Al-Musa A,Vetten H J,et al. Properties of a cowpea mild mottle virus (CPMMV) isolate from eggplant in Jordan and evidence for biological and serological differences between CPMMV isolates from leguminons and solanaceous hosts[J]. Journal of Phytopathology,1998,146(11/12):539-547.
[12]Iwaki M,Thongmeearkom P,Honda Y,et al. Whitefly transmission and some properties of cowpea mild mottle virus on soybean in Thailand[J]. Plant Disease,1982,66(1):365-368.
[13]Iizuka N R,Rajeshwari R,Reddy D V R,et al. Natural occurrence of a strain of cowpea mild mottle virus on groundnut (Arachis hypogaea) in India[J]. Journal of Phytopathology,1984,109(3):245-253.
[14]Mink G I,Keswani C L. First report of cowpea mild mottle virus on bean and mung bean in Tanzania[J]. Plant Disease,1987,71(6):557.
[15]Antignus Y,Cohen S. Purification and some properties of a new strain of cowpea mild mottle virus in Israel[J]. Annals of Applied Biology,1987,110(3):563-569.
[16]El-Hassan S M,Naidu R A,Ahmed A H,et al. A serious disease of groundnut caused by cowpea mild mottle virus in the Sudan[J]. Journal of Phytopathology,1997,145(7):301-304.
[17]Rodríguez Pardina P E,Arneodo J D,Truol G A,et al. First report of cowpea mild mottle virus in bean crops in Argentina[J]. Australasian Plant Pathology,2004,33(1):129-130.
[18]Tavassoli M,Shahraeen N,Ghorbani S. Detection and some properties of cowpea mild mottle virus isolated from soybean in Iran[J]. Pakistan Journal of Biological Sciences,2008,11(23):2624-2628.
[19]Brace R C,Fehr W R,Graham M A. Inheritance and molecular mapping of an allele providing resistance to a cowpea mild mottle-like virus in soybean[J]. Crop Science,2012,52(5):2109-2114.
[20]Brito M,Fernández-Rodríguez T,Garrido M J,et al. First report of cowpea mild mottle Carlavirus on yardlong bean (Vigna unguiculata subsp. sesquipedalis) in Venezuela[J]. Viruses,2012,4(12):3804-3811.
[21]Rosario K,Capobianco H,Ng T F F,et al. RNA viral metagenome of whiteflies leads to the discovery and characterization of a whitefly-transmitted Carlavirus in North America[J]. PLoS One,2014,9(1):e86748.
[22]Zinsou V A,Afouda L A C,Zoumarou-Wallis N,et al. Importance of cowpea mild mottle virus on soybean (Glycine max) in Benin and effect of planting date on soybean (G.max) virus level in northern Benin[J]. Crop Protection,2015,72:139-143.
[23]Orawu M,Obuo J,Omadi R. Distribution and detection of cowpea viruses infecting cowpea in Uganda[J]. American Journal of Plant Sciences,2015,6(5):574-581.
[24]Chiquito-Almanza E,Caballero-Pérez J,Guevara-Olvera L,et al. First report of cowpea mild mottle virus infecting cultivated and wild Phaseolus in the central-western region of Mexico[J]. Plant Disease,2018,102(5):1047.
[25]Odhiambo Patrick O,Were H,Ndonga M,et al. First report of cowpea polero virus 1 (CPPV1) infecting cowpea in Kenya[J]. International Journal of Genetics and Genomics,2019,7(4):119-123.
[26]Chang C A,Chien L Y,Tsai C F,et al. First report of cowpea mild mottle virus in cowpea and French bean in Taiwan[J]. Plant Disease,2013,97(7):1001.
[27]刘雪建. 浙江省和江西省蔬菜病毒鉴定与变异研究[D]. 杭州:浙江大学,2015:113-116.
[28]Wei Z Y,Wu G W,Ye Z X,et al. First report of cowpea mild mottle virus infecting soybean in China[J]. Plant Disease,2020,104(9):2534.
[29]King A. Virus taxonomy:ninth report of the international committee on taxonomy of viruses[M]. San Diego:Academic Press,2012:855-881.
[30]Rozanov M N,Koonin E V,Gorbalenya A E. Conservation of the putative methyltransferase domain:a hallmark of the ‘Sindbis-like’ supergroup of positive-strand RNA viruses[J]. Journal of General Virology,1992,73(8):2129-2134.
[31]Koonin E V. The phylogeny of RNA-dependent RNA polymerases of positive-strand RNA viruses[J]. Journal of General Virology,1991,72 ( Pt 9):2197-2206.
[32]Lawrence D M,Rozanov M N,Hillman B I. Autocatalytic processing of the 223-kDa protein of blueberry scorch carlavirus by a papain-like proteinase[J]. Virology,1995,207(1):127-135.
[33]Gorbalenya A E,Koonin E V. Viral proteins containing the purine NTP-binding sequence pattern[J]. Nucleic Acids Research,1989,17(21):8413-8438.
[34]Zanardo L G,Carvalho C M. Cowpea mild mottle virus (Carlavirus,Betaflexiviridae):a review[J]. Tropical Plant Pathology,2017,42(6):417-430.
[35]Wylie S J,Adams M,Chalam C,et al. ICTV virus taxonomy profile:Potyviridae[J]. Journal of General Virology,2017,98(3):352-354.
[36]Lough T J,Netzler N E,Emerson S J,et al. Cell-to-cell movement of potexviruses:evidence for a ribonucleoprotein complex involving the coat protein and first triple gene block protein[J]. Molecular Plant-Microbe Interactions,2000,13(9):962-974.
[37]Adams M J,Antoniw J F,Fauquet C M. Molecular criteria for genus and species discrimination within the family Potyviridae[J]. Archives of Virology,2005,150(3):459-479.
[38]吴淑华,赵文浩,李廷芳,等. 南京辣椒上一种斑驳类型病毒病的分子鉴定[J]. 江苏农业学报,2015,31(6):1284-1290.
[39]Nie X Z,Bai Y J,Molen T A,et al. Development of universal primers for detection of potato carlaviruses by RT-PCR[J]. Journal of Virological Methods,2008,149(2):209-216.
[40]陈新,顾和平,张红梅,等. 江苏省大豆生产发展历史、现状与前景分析[J]. 江苏农业科学,2011,39(1):6-9.

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备注/Memo

备注/Memo:
收稿日期:2022-01-14
基金项目:国家自然科学基金(编号:32072506);现代农业产业技术体系建设专项(编号:CARS-24-C-01);江苏省农业自主创新资金[编号:CX(21)1011];青海省农业有害生物综合治理重点实验室项目(编号:2021-ZJ-Y08)。
作者简介:吉颖(1997—),男,江西赣州人,硕士研究生,研究方向为园艺蔬菜作物病毒。E-mail:1298723368@qq.com。
通信作者:季英华,研究员,主要从事蔬菜病毒病成灾机理及防控技术研究,E-mail:jiyinghua@jaas.ac.cn;郭青云,研究员,主要从事植物病害生物防治研究,E-mail:guoqingyunqh@163.com。
更新日期/Last Update: 2022-05-20