Biotechnology Bulletin ›› 2017, Vol. 33 ›› Issue (7): 22-28.doi: 10.13560/j.cnki.biotech.bull.1985.2017-0084
• CONTENTS • Previous Articles Next Articles
FENG Xiao-yan, WANG Wen-zhi, SHEN Lin-bo ,FENG Cui-lian ,ZHANG Shu-zhen
Received:
2017-02-14
Online:
2017-07-11
Published:
2017-07-11
FENG Xiao-yan, WANG Wen-zhi, SHEN Lin-bo ,FENG Cui-lian ,ZHANG Shu-zhen. Research Advances on Sugarcane Streak Mosaic Virus[J]. Biotechnology Bulletin, 2017, 33(7): 22-28.
[1] Bagyalakshmi K, Parameswari B, Chinnaraja C, et al. Genetic variability and potential recombination events in the HC-Pro gene of Sugarcane streak mosaic virus[J] . Archives of Virology, 2012, 157(7):1371-1375. [2] Gillaspie AG, Mock RG, Smith FF. Identification of Sugarcane mosaic virus and characterization of strains of the virus from Pakistan, Iran, and Cameroon[J] . Proceedings-International Society of Sugar Cane Technology, 1978, 16:347-355. [3] Hall JS, Adams B, Parsons TJ, et al. Molecular cloning, sequencing, and phylogenetic relationships of a new potyvirus:Sugarcane streak mosaic virus, and a reevaluation of the classification of the Potyviridae[J] . Molecular Phylogenetics & Evolution, 1998, 10 (3):323-332. [4]Kasemsin P, Chiemsombat P, Hongprayoon R. Characterization and genetic variation of Sugarcane streak mosaic virus, a Poacevirus infecting sugarcane in Thailand[J]. Modern Applied Science, 2016, 10(4):137-149. [5]Putra LK, Kristini A, Achadian EMA. Sugarcane streak mosaic virus in Indonesia:distribution, characterisation, yield losses and management approaches[J]. Sugar Tech, 2014, 16(4):392-399. [6]He Z, Li W, Yasaka R, et al. Molecular variability of Sugarcane streak mosaic virus in China based on an analysis of the P1 and CP protein coding regions[J]. Archives of Virology, 2014, 159(5):1149-1154. [7]Hema M, Joseph J, Gopinath K, et al. Molecular characterization and interviral relationships of a flexuous filamentous virus causing mosaic disease of sugarcane(Saccharum officinarum L.)in India[J]. Archives of Virology, 1999, 144(3):479-490. [8] 贺振. 甘蔗线条花叶病毒和高粱花叶病毒的分子进化研究[D]. 北京:中国农业科学院, 2014. [9]Fu WL, Sun SR, Fu HY, et al. A one-step real-time RT-PCR assay for the detection and quantitation of Sugarcane streak mosaic virus[J]. Biomed Research International, 2015, 2015(2):1-9. [10]Liang SS, Alabi OJ, Damaj MB, et al. Genomic variability and molecular evolution of Asian isolates of Sugarcane streak mosaic virus[J]. Archives of Virology, 2016, 161(6):1493-1503. [11] 卢雯瑩, 师毅君, 于庆. 甘蔗花叶病的发病规律和防治措施[J]. 农村经济与科技, 2015, 26(8):47-48. [12]Dallasl S, Martin TJ, Toml H, et al. Identification of the wheat curl mite as the vector of Triticum mosaic virus[J]. Plant Disease, 2009, 93(1):25-29. [13]Chatenet M, Mazarin C, Girard JC, et al. Detection of Sugarcane streak mosaic virus in sugarcane from several Asian countries[J]. Proceedings-International Society of Sugar Cane Technology, 2005, 25:656-663. [14]Putra LK, Astono TH, Syamsidi SRC, et al. Dispersal, yield losses and varietal resistance of Sugarcane streak mosaic virus(SCSMV)in Indonesia[J]. International Journal of Virology, 2015, 11(1):32-40. [15]Rao GP, Chatenet M, Girard JG, et al. Distribution of sugarcane mosaic and sugarcane streak mosaic virus in India[J]. Sugar Tech, 2006, 8(1):79-81. [16]Hema M, Savithri HS, Sreenivasulu P. Sugarcane streak mosaic virus:occurrence, purification, characterization and detection[M]// Rao GP, Ford RE, Tosic M, et al. Sugarcane pathology:virus and phytoplasma disease. Enfield:Science Publishers, 2001:37-70. [17]袁小环, 李青. 血清学方法和分子生物学方法检测植物病毒研究进展[J]. 热带农业科学, 2001(6):63-68. [18]Prabowo DB, Hadiastono T, Himawan T, et al. Detection disease of Sugarcane streak mosaic virus(SCSMV)via serological test on sugarcane(Saccharum officinarum L.), weed and insect vector[J]. International Journal of Science & Research, 2014, 3(1):88-92. [19]Hema M, Savithri HS, Sreenivasulu P. Antibody and nucleic acid probe-based techniques for detection of Sugarcane streak mosaic virus causing mosaic disease of sugarcane in India[J]. Currentence, 2001, 81(8):1105-1108. [20]Chandran V, Gajjeraman P. A simple precipitation approach for isolation and enrichment of Sugarcane streak mosaic virus[J]. Sugar Tech, 2013, 15(4):417-419. [21]Xie Y, Wang M, Xu D, et al. Simultaneous detection and identification of four sugarcane viruses by one-step RT-PCR[J]. Journal of Virological Methods, 2009, 162(1-2):64-68. [22]Subba Reddy CV, Sreenivasulu P, Sekhar G. Duplex-immunocap-ture-RT-PCR for detection and discrimination of two distinct potyviruses naturally infecting sugarcane(Saccharum spp. hybrid)[J]. Indian Journal of Experimental Biology, 2011, 49(1):68-73. [23]Parameswari B, Bagyalakshmi K, Chinnaraja C, et al. Molecular characterization of Indian Sugarcane streak mosaic virus isolates reveals recombination and negative selection in the P1 gene[J]. Gene, 2014, 552(1):199-203. [24]郑碧霞. 转SrMV-P1基因甘蔗的抗病性分析及其安全性评价[D]. 福州:福建农林大学, 2009. [25]Valli A, Lópezmoya JJ, García JA. Recombination and gene duplication in the evolutionary diversification of P1 proteins in the family Potyviridae[J]. Journal of General Virology, 2007, 88(3):1016-1028. [26]Tatineni S, Qu F, Li R, et al. Triticum mosaic poacevirus enlists P1 rather than HC-Pro to suppress RNA silencing-mediated host defense[J]. Virology, 2012, 433(1):104-115. [27]翟玉山, 彭磊, 杨永庆, 等. 甘蔗条纹花叶病毒 HC-Pro、P3N-PIPO、CP 和 VPg基因酵母双杂交诱饵表达载体的构建及自激活检测[J]. 华北农学报, 2016, 31(1):83-89. [28]Kasschau KD, Carrington JC. Long-distance movement and replication maintenance functions correlate with silencing suppression activity of potyviral HC-Pro[J]. Virology, 2001, 285(1):71-81. [29] Eiamtanasate S, Juricek M, Yap YK. C-terminal hydrophobic region leads PRSV P3 protein to endoplasmic reticulum[J]. Virus Genes, 2007, 35(3):611-617. [30]Suehiro N, Natsuaki T, Watanabe T, et al. An important determinant of the ability of Turnip mosaic virus to infect Brassica spp. and/or Raphanus sativus is in its P3 protein[J]. Journal of General Virology, 2004, 85(85):2087-2098. [31]朱海龙, 程光远, 彭磊, 等. 甘蔗条纹花叶病毒P3蛋白与甘蔗Rubisco大亚基互作的研究[J]. 西北植物学报, 2014, 34(4):676-681. [32] Wei T, Zhang C, Hong J, et al. Formation of complexes at plasmodesmata for potyvirus intercellular movement is mediated by the viral protein P3N-PIPO[J]. PLoS Pathogens, 2010, 6(6):e1000962. [33]Hong XY, Chen J, Shi YH, et al. The ‘6K1’ protein of a strain of Soybean mosaic virus localizes to the cell periphery[J]. Archives of Virology, 2007, 152(8):1547-1551. [34]Cui H, Wang A. Plum pox virus 6K1 protein is required for viral replication and targets the viral replication complex at the early stage of infection[J]. Journal of Virology, 2016, 90(10):5119-5131. [35]Sorel M, Garcia JA, German-Retana S. The Potyviridae cylindrical inclusion helicase:a key multipartner and multifunctional protein[J]. Molecular Plant-Microbe Interactions, 2014, 27(3):215-226. [36]Grangeon R, Jiang J, Wan J, et al. 6K2-induced vesicles can move cell to cell during turnip mosaic virus infection[J]. Frontiers in Microbiology, 2013, 4(5):1-10. [37]Spetz C, Valkonen JP. Potyviral 6K2 protein long-distance movement and symptom-induction functions are independent and host-specific[J]. Molecular Plant-Microbe Interactions, 2004, 17(5):502-510. [38]高乐. PRSV NIa-Pro互作宿主因子的筛选和功能分析[D]. 海口:海南大学, 2012. [39]Zhu M, Chen Y, Ding XS, et al. Maize Elongin C interacts with the viral genome-linked protein, VPg, of Sugarcane mosaic virus and facilitates virus infection[J]. New Phytologist, 2014, 203(4):1291-1304. [40]朱敏. 玉米Elongin C蛋白与甘蔗花叶病毒VPg的分子互作研究[D]. 北京:中国农业大学, 2014. [41]Zhu J, Wang B, Miao Q, et al. Viral genome-linked protein(VPg)is essential for translation initiation of Rabbit hemorrhagic disease virus(RHDV)[J]. PLoS One, 2015, 10(11):e143467. [42]崔晓艳. 马铃薯Y病毒属编码的膜相关蛋白的功能研究[D]. 杨凌:西北农林科技大学, 2010. [43]Daròs JA, Carrington JC. RNA binding activity of NIa proteinase of tobacco etch potyvirus[J]. Virology, 1997, 237(2):327-336. [44]Lee KC, Lin SS, Yeh SD, et al. Interactions between nuclear inclusion protein a(NIa)and nuclear inclusion protein b(NIb)of Zucchini yellow mosaic virus and Papaya ringspot virus[J]. Plant Pathology Bulletin, 2002, 11:79-86. [45]Anindya R, Savithri HS. Potyviral NIa proteinase, a proteinase with novel deoxyribonuclease activity[J]. Journal of Biological Chemistry, 2004, 279(31):32159-32169. [46]韩杰, 郑继平, 言普, 等. 原核表达番木瓜环斑病毒NIa-Pro及其双重酶活鉴定[J]. 热带作物学报, 2016, 37(4):722-727. [47]Jebasingh T, Jacob T, Shah M, et al. Optimized expression, solubilization and purification of nuclear inclusion protein b of Cardamom mosaic virus[J]. Indian Journal of Biochemistry & Biophysics, 2008, 45(2):98-105. [48]Liu F, Sukhacheva E, Erokhina T, et al. Detection of potyviral nuclear inclusion b proteins by monoclonal antibodies raised to synthetic peptides[J]. European Journal of Plant Pathology, 1999, 105(4):389-395. [49]Seo JK, Vo Phan MS, Kang SH, et al. The charged residues in the surface-exposed C-terminus of the Soybean mosaic virus coat protein are critical for cell-to-cell movement[J]. Virology, 2013, 446(1-2):95-101. [50]Hong Y, Levay K, Murphy JF, et al. A potyvirus polymerase interacts with the viral coat protein and VPg in yeast cells[J]. Virology, 1995, 214(1):159-166. [51]Subba Reddy CV, Sreenivasulu P. Generation of Sugarcane streak mosaic virus-free sugarcane(Saccharum spp. hybrid)from infected plants by in vitro meristem tip culture[J]. European Journal of Plant Pathology, 2011, 130(4):597-604. [52]付瑜华, 雷石富, 卢加举, 等. 甘蔗新品种黔糖5号抗病性分子鉴定与综合评价[J]. 分子植物育种, 2014, 12(6):1243-1250. [53]Putra LK, Hadi T, Siti B, et al. Investigation on transmission modes and host range of Sugarcane streak mosaic virus in sugarcane(Saccharum officinarum L.)in Indonesia[J]. Journal of Agricultural and Crop Research, 2015, 3(4):59-66. [54]徐景升, 杨永庆, 程光远, 等. 利用RNAi沉默SceIF4E1基因培育抗条纹花叶病甘蔗的方法:中国, CN105039356A[P]. 2015-11-11. [55]徐景升, 程光远, 徐倩, 等. 利用RNAi阻断病毒胞间移动培育抗花叶病转基因甘蔗的方法:中国, CN105821051A[P]. 2016-08-03. [56] 何炎森, 李瑞美. 甘蔗花叶病研究现状[J]. 中国糖料, 2006(1):47-49. |
[1] | ZHAO Xue-ting, GAO Li-yan, WANG Jun-gang, SHEN Qing-qing, ZHANG Shu-zhen, LI Fu-sheng. Cloning and Expression of AP2/ERF Transcription Factor Gene ShERF3 in Sugarcane and Subcellular Localization of Its Encoded Protein [J]. Biotechnology Bulletin, 2023, 39(6): 208-216. |
[2] | LI Xin-yi, JIANG Chun-xiu, XUE Li, JIANG Hong-tao, YAO Wei, DENG Zu-hu, ZHANG Mu-qing, YU Fan. Enhancing Hybridization Signal of Sugarcane Chromosome Oligonucleotide Probe via Multiple Fluorescence Labeled Primers [J]. Biotechnology Bulletin, 2023, 39(5): 103-111. |
[3] | HUANG Jia-yan, FENG Xiao-yan, SHEN Lin-bo, WANG Wen-zhi, HU Hai-yan, ZHANG Shu-zhen. Cloning of Sugarcane ShPR10 Gene and Study on the Interaction Between ShPR10 Protein and P1 Protein Encoded by Sugarcane Streak Mosaic Virus [J]. Biotechnology Bulletin, 2023, 39(10): 163-174. |
[4] | GAO Xiao-ning, LIU Rui, WU Zi-lin, WU Jia-yun. Characteristics of Endophytic Fungal and Bacterial Community in the Stalks of Sugarcane Cultivars Resistant to Ratoon Stunting Disease [J]. Biotechnology Bulletin, 2022, 38(6): 166-173. |
[5] | ZHANG Jing, YOU Chui-huai, CAO Yue, CUI Tian-zhen, YANG Jing-tao, LUO Jun. Sugarcane Rhizosphere Microecology and Its Relationship with Smut Control [J]. Biotechnology Bulletin, 2022, 38(11): 21-31. |
[6] | FENG Cui-lian, WAN Yue, WANG Jun-gang, FENG Xiao-yan, ZHAO Ting-ting, WANG Wen-zhi, SHEN Lin-bo, ZHANG Shu-zhen. Establishment of a Transformant-specific Detection Method for Cry1Ac-2A-gna Transgenic Sugarcane BCG-17 [J]. Biotechnology Bulletin, 2021, 37(5): 248-258. |
[7] | FENG Cui-lian, ZHANG Shu-zhen. Breeding of Transgenic Insect-resistant Sugarcane and Strategies for Preventing the Its Resistance to Insects from Loss [J]. Biotechnology Bulletin, 2020, 36(7): 209-219. |
[8] | GAN Chong-kun, ZHOU Hui-wen, CHEN Rong-fa, FAN Ye-geng, QIU Li-hang, HUANG Xing, LI Yang-rui, LU Xing-gao, WU Jian-ming. Application of Chemical Regulating Technology in Sugarcane Production [J]. Biotechnology Bulletin, 2019, 35(2): 163-170. |
[9] | ZHANG Bao-qing, SHAO Min, HUANG Yu-xin, HUANG Xing, SONG Xiu-peng, CHEN Hu, WANG Sheng, TAN Qin-liang, YANG Li-tao, LI Yang-rui. Cloning and Expression Analysis of Peroxidase Gene(ScAPX1)from Sugarcane [J]. Biotechnology Bulletin, 2019, 35(12): 31-37. |
[10] | LI Jing-na, WANG Nai-shun, SONG Wei, ZHAO Jiu-ran, XING Jin-feng. Research Advances on Maize Chlorotic Mottle Virus and Its Control Strategy [J]. Biotechnology Bulletin, 2018, 34(2): 121-127. |
[11] | TANG Shi-yun, YANG Li-tao, LI Yang-rui. Comparative Analysis on Transcriptome Among Different Sugarcane Cultivars Under Low Temperature Stress [J]. Biotechnology Bulletin, 2018, 34(12): 116-124. |
[12] | ZHAO Ting-ting, WANG Jun-gang, YANG Ben-peng, SHEN Lin-bo, FENG Xiao-yan, WANG Wen-zhi, FENG Cui-lian, XIONG Guo-ru, ZHANG Shu-zhen. The Expression Analysis of Sucrose Transporter Genes in Disease Free Sugarcane [J]. Biotechnology Bulletin, 2018, 34(12): 125-131. |
[13] | LI Jia-hui, YUAN Dan, LU Jian-ming, YANG Li-tao, LI Yang-rui ,XING Yong-xiu. Effects of Nitrogen Fertilizer on the Expression of nifH Gene of Endophytic Azotobacter in Sugarcane Leaves [J]. Biotechnology Bulletin, 2017, 33(7): 100-106. |
[14] | CUI Xue-qiang, ZHANG Shu-zhen, FENG Cui-lian. A Simple Method for Preparing PCR Template of Sugarcane Leaf Tissue [J]. Biotechnology Bulletin, 2016, 32(3): 58-62. |
[15] | WANG Wen-zhi, YANG Ben-peng, CAI Wen-wei, XIONG Guo-ru, FENG Cui-lian, WANG Jun-gang, WU Yuan-li, SHEN Lin-bo, ZHANG Shu-zhen. On Application of Herbicide Resistant Gene bar and EPSPS in Transgenic Sugarcane [J]. Biotechnology Bulletin, 2016, 32(3): 73-78. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||