[1]张成玲,赵永强,孙厚俊,等.甘薯卷叶病毒复制相关蛋白部分基因克隆及分析[J].江苏农业学报,2015,(02):298-303.[doi:10.3969/j.issn.1000-4440.2015.02.012]
 ZHANG Cheng-ling,ZHAO Yong-qiang,SUN Hou-jun,et al.Cloning and sequence analysis of replication-associated protein partial genes of sweet potato leaf curl virus isolates[J].,2015,(02):298-303.[doi:10.3969/j.issn.1000-4440.2015.02.012]
点击复制

甘薯卷叶病毒复制相关蛋白部分基因克隆及分析()
分享到:

江苏农业学报[ISSN:1006-6977/CN:61-1281/TN]

卷:
期数:
2015年02期
页码:
298-303
栏目:
植物保护
出版日期:
2015-04-30

文章信息/Info

Title:
Cloning and sequence analysis of replication-associated protein partial genes of sweet potato leaf curl virus isolates
作者:
张成玲赵永强孙厚俊杨冬静徐振谢逸萍
(江苏徐淮地区徐州农业科学研究所,农业部甘薯生物学与遗传育种重点实验室,江苏徐州221131)
Author(s):
ZHANG Cheng-lingZHAO Yong-qiangSUN Hou-junYANG Dong-jingXU ZhenXIE Yi-ping
(Xuzhou Institute of Agricultural Sciences of the Xuhuai District of Jiangsu Province/Key Laboratory of Biology and Genetic Improvement of Sweet Potato, Ministry of Agriculture, Xuzhou 221131, China)
关键词:
甘薯卷叶病毒AC1基因克隆序列分析
Keywords:
sweetpotato leaf curl virusAC1 genecloningsequence analysis
分类号:
S531
DOI:
10.3969/j.issn.1000-4440.2015.02.012
文献标志码:
A
摘要:
为明确甘薯卷叶病毒基因的分子特性及其变异,从江苏省徐州市表现卷叶、黄化等症状的甘薯上获得5个分离物(SPLCV1-1、SPLCV2-2、SPLCV3-1、SPLCV3-2、SPLCV4-1),利用PCR方法扩增克隆了这5个分离物的AC1部分基因序列,进行分析。结果表明,扩增到的5个分离物基因序列均为452个碱基,核苷酸序列一致率较高,为91.8%~99.8%,氨基酸序列一致率为94.0%~100.0%,且氨基酸序列的变异集中在 143~166位点。在构建的系统进化树上,SPLCV分离物分为2个组,其中组Ⅰ包括日本、韩国、印度、巴西、美国及中国的部分分离物,本研究所得到的4个分离物也位于该组中,其中SPLCV2-2、SPLCV3-1和本研究室2012年得到的江苏省邳州港上分离物SPLCV5-1聚为一簇;组Ⅱ分离物均为中国分离物,且本研究得到的分离物SPLCV3-2也位于该组中。
Abstract:
To characterize the gene and gene variation of sweet potato leaf curl virus (SPLCV) infecting Ipomoea batatas in China, sweet potatoes showing yellow vein and curl leaf symptoms were collected from Xuzhou, Jiangsu province, and AC, gene fragments of five isolates from sweet potato named SPLCV1-1, SPLCV2-2, SPLCV3-1, SPLCV3-2, SPLCV4-1 were amplified by PCR and analyzed. The nucleotide sequences and amino acid sequences showed similarieties of 91.8%-99.8% and 94.0%-100.0%, respectively for the five isolates containing 452 base pairs and 150 amino acids. The variation of amino acid accurred in loci 143-166 of the AC1 gene. Phylogenetic trees constructed with Japanese, Korean, Indian and Chinese isolates revealed that the isolates were divided into two groups. Group Ⅰ included the isolates collected from Japan, Korea, India, Brazil,America and China, and four isolates obtained in this study, SPLCV1-1, SPLCV2-2, SPLCV3-1, and SPLCV4-1). SPLCV2-2, SPLCV3-1, and SPLCV5-1 collected from Pizhou, Jiangsu province, were grouped into a cluster. Isolates in group came from China, in cluding SPLCV3-2.

参考文献/References:


[1]靳摇容,张爱君,史新敏,等. 干旱胁迫下钾对甘薯幼苗光合特性及根系活力的影响[J]. 江苏农业学报,2014,30(5):992-996.
[2]王新华,尚赏,郭书亚,等.2BX型玉米-甘薯间作系统优势分析[J].江苏农业科学,2014,42(10):106-109.
[3]马代夫,刘庆昌. 中国甘薯育种与产业化[M]. 北京: 中国农业大学出版社, 2005.
[4]马代夫,李强,曹清河,等. 中国甘薯产业及产业技术的发展与展望[J].江苏农业学报, 2012, 28(5):969-973.
[5]LUAN Y S, ZHANG J, LIU D M, et al. Molecular characterization of sweet potato leaf curl virus isolate from China (SPLCV-CN) and its phylogenetic relationship with other members of the Geminiviridae[J]. Virus Genes, 2007, 35:379-385.
[6]VALVERDE R A, CLARK C A, VALKONEN J P T. Viruses and virus disease complexes of sweetpotato[J]. Plant Viruses, 2007, 1:116-126.
[7]乔贞贞,秦艳红,乔奇,等. 甘薯卷叶病毒江苏分离物基因组全长序列测定及其外壳蛋白基因在大肠杆菌中的表达[J]. 河南农业科学, 2012, 41(4):86-89.
[8]CLARK C A, HOY M W. Effects of common viruses on yield and quality of Beauregard sweet potato in Louisiana[J]. Plant Disease, 2006, 90(1):83-88. 
[9]HARRISON B D, SWANSON M M, FARGETTE D. Begomovirus coat protein: serology, variation and functions[J]. Physiological and Molecular Plant Pathology, 2002, 60:257-271.
[10]ROJAS M R, JIANG H, SALATI R, et al. Functional analysis of proteins involved in movement of the monopartite begomovirus, tomato yellow leaf curl virus[J]. Virology, 2001, 291:110-125.
[11]LAUFS J, TRAUT W, HEYRAUD F, et al. In vitro cleavage and joining at the viral origin of replication by the replication initiator protein of tomato yellow leaf curl virus[J]. Proceedings of the National Academy of Science of USA, 1995, 92:3879-3883.
[12]PARK J, KIM S, CHOI E, et al. Molecular characterization of sweet potato leaf curl virus (SPLCV) isolates from Korea: phylogenetic relationship and recombination analysis[J]. Acta Virologica, 2011, 55: 327-335.
[13]COHEN J, MILGRAM M, ANTIGNUS Y, et al. Ipomoea crinkle leaf curl caused by a whitefly-transmitted gemini-like virus[J]. Annals of Applied Biology, 1997, 131: 273-282.
[14]LOTRAKUL P, VALVERDE R A, CLARK C A, et al. Detection of a geminivirus infecting sweet potato in the United States[J]. Plant Disease, 1998, 82: 1253-1257.
[15]ONUKI M, HANADA K. PCR amplification and partial nucleotide sequences of three dicot-infecting geminiviruses ocurring in Japan[J]. Annals of the Phytopathological Society of Japan, 1998, 64:116-120.
[16]ALBUQUERQUE L C, INOUE-NAGATA A K, PINHEIRO B, et al. A novel monopartite begomovirus infecting sweet potato in Brazil[J]. Archives of Virology, 2011, 156(7):1291-1294.
[17]PARDINA P R, LUQUE A, NOME C, et al. First report of sweet potato leaf curl virus infecting sweet potato in Argentina[J]. Australasian Plant Disease, 2012, 7:157-160.
[18]LUAN Y S, ZHANG J. First report of sweetpotato leaf curl virus on China[J]. Plant Disease, 2006, 90(8):1111.
[19]LOTRAKUL P, VALVERDE R A, CLARK C A, et al. Detection of a geminivirus infecting sweet potato in the United States[J]. Plant Disease, 1998, 82: 1253-1257.
[20]LI R H, SALIH S, HURTT S. Detection of geminiviruses in sweetpotato by polymerase chain reaction[J]. Plant Disease, 2004, 88:1347-1351.
[21]SAMBROOK J, RUSSEL D W. 分子克隆实验指南[M]. 3版. 黄培堂,译. 北京: 科学出版社, 2002: 492-509. 
[22]BI H P, ZHANG P. Molecular characterization of two sweepoviruses from China and evaluation of the infectivity of cloned SPLCV-JS in Nicotiana benthamiana[J]. Archives of Virology, 2012,157:441-454.
[23]ALVIN M S, KAI-SHU L, HOWARD F H, et al. Sweet potato leaf curl virus: efficiency of acquisition, retention and transmission by Bemisia tabaci (Hemiptera: Aleyrodidae)[J]. Crop Protection, 2009, 28:1007-1011.
[24]ROOSSINCK M J. Plant virus evolution[M]. Berlin and Heidelberg: Springer-Verlag, 2008:53-79.
[25]ZHANG C L, GAO R, WANG J, et al. Molecular variability of tobacco vein banding mosaic virus population [J]. Virus Research, 2011, 158:188-198.〖ZK)〗〖FL)〗

备注/Memo

备注/Memo:
收稿日期:2014-10-30 基金项目:江苏省农业科技自主创新探索性项目[CX(13)5080];江苏省自然科学基金项目(BK20140230);国家甘薯产业技术体系项目(CARS-11-B-09) 作者简介:张成玲(1983-),女,山东沂源人,博士,副研究员,主要从事甘薯病虫害研究。(E-mail)zhchling5291@163.com 通讯作者:谢逸萍,(E-mail)xieyiping6216@163.com
更新日期/Last Update: 2015-04-30