Crops ›› 2016, Vol. 32 ›› Issue (3): 6-11.doi: 10.16035/j.issn.1001-7283.2016.03.002

Previous Articles     Next Articles

Progress and Prospects on Prevention and Control Measures of Virus Disease in Sweet Potato

Dong Fang1,Zhang Chaofan1,2   

  1. 1Longping Branch,Graduate School of Central South University,Changsha 410125,Hunan,China
    2Hunan Crop Insititute,Changsha 410125,Hunan,China
  • Received:2016-03-02 Revised:2016-04-16 Online:2016-06-15 Published:2018-08-26
  • Contact: Chaofan Zhang

Abstract:

Virus disease in sweet potato is a severe biological threat to sweet potato, which seriously affects the industrial development of sweet potato in China. This paper gives an introduction to the main defensive measures of sweet potato virus disease, such as preventing the virus infection, killing the virus’s biological media, and the cultivation and application of virus-free sweet potato, usage of antiviral agents, antiviral breeding, mild strain interacting protection etc.

Key words: Prevention and control measures of virus disease in sweet potato, Biological pesticide, Antiviral breeding, Virus-free sweet potato

[1] Hijmans R J, Husccho L, Zhang D P . Global distribution of sweet potato.CIP Program Report, 1999-2000:323-329.
[2] Chung M, Liao C, Chen M , et al. The isolation,transmission and host range of sweet potato leaf curl disease agent in Taiwan. Plant Protect Bull, 1985,27:333-341.
[3] Moyer J W, Salazar L F . Virus and viruslike diseases of sweet potato. Plant Disease, 1989,73(6):451-455.
doi: 10.1094/PD-73-0451
[4] Clark C A, Davis J A, Abad J A , et al. Sweetpotato viruses:15 years of progress on understanding and managing complex diseases. Plant Disease, 2012,96(2):168-185.
[5] IsHak J A, Kreuze J F, Johansson A , et al. Some molecular characteristics of three viruses from SPVD-affected plants in Egypt. Archieves of Virology, 2003,148:2449-2460.
doi: 10.1007/s00705-003-0187-5 pmid: 14648298
[6] 王庆美, 王荫犀, 王建军 , 等.甘薯病毒病研究进展.山东农业科学,1994(4):36-39.
[7] 张振臣, 乔奇, 秦艳红 . 我国发现由甘薯褪绿矮化病毒和甘薯羽状斑驳病毒协生共侵染引起的甘薯病毒病害. 植物病理学报, 2012,42(3):328-333.
doi: 10.3969/j.issn.0412-0914.2012.03.016
[8] 王丽 . 甘薯病毒病害(SPVD)病原的基因组测序、检测及种传效率研究. 沈阳:沈阳农业大学, 2013.
[9] 王志斌, 张秀梅, 郭三堆 . 在转基因植物中利用植物凝集素防治害虫的研究. 植物学通报, 2000,17(2):108-113.
doi: 10.3969/j.issn.1674-3466.2000.02.002
[10] 高燕会, 李润植, 毛雪 , 等. 植物凝集素的防卫功能及其研究进展. 世界农业, 2000,2(25):33-35.
[11] 王志斌, 李学勇, 郭三堆 .植物凝集素与抗虫基因工程.生物技术通报,1998(2):5-10.
[12] 黄大昉, 潘映红, 张淑香 , 等. 从掌叶半夏和半夏中发现对几种蚜虫有致死活性的蛋白. 中国农业科学, 1997,30(2):94-96.
[13] 潘科, 黄炳球, 侯学文 . 植物凝集素在病虫害防治中的研究进展. 植物保护, 2002,28(4):42-44.
[14] 沈寅初 . 农用抗生素的新进展. 农药译丛, 1993,15(6):5-12.
[15] 蒲蛰龙, 李增智 .昆虫病原真菌学.合肥:安徽科学技术出版社, 1996: 76-111.
[16] 张仙红, 贺运春, 王建明 , 等. 蜡蚊轮枝菌对害虫的致病性的初步研究. 植物保护, 2001,27(1):44-46.
[17] Hall R A . Control of whitefly,Trialeurodes vaporariorum and cotton aphid,Aphis gossypii in glasshouses by two isolates of the fungus,Verticillium lecanii. Annals of Applied Biology, 1982,101(1):1-11.
doi: 10.1111/aab.1982.101.issue-1
[18] Gindin G, Barash I, Harari N , et al. Effect of endotoxic compounds isolated from Verticillium lecanii on the sweet potato whitefly,Bemisia tabaci. Phytoparasitica, 1994,22(3):189-196.
doi: 10.1007/BF02980318
[19] Osborne L S, Landa Z . Biological control of whiteflies with entomopathogenic fungi. The Florida Entomologist, 1992,75(4):456-471.
doi: 10.2307/3496127
[20] Hall R A . Microbial control of pests and plant diseases. London:Academis press, 1981: 483-498.
[21] 王联德, 黄建 . 烟粉虱的为害及其生物防治策略. 福建农林大学学报(自然科学版), 2006,35(4):365-369.
[22] 王联德, 刘冰妍, 黄建 , 等. 小黑瓢虫对甘薯粉虱的捕食选择性和种内干扰反应. 昆虫天敌, 2001,23(2):93-94.
[23] 刘会忠 . 黔南烟区马铃薯Y病毒病发生规律及防控技术研究. 长沙:湖南农业大学, 2012.
[24] Hull R.Plant Virology. Norwich:Academic Press is an Imprint of Elsevier, 2014.
[25] 程廉, 闫桂姝, 刘柳 . 菌毒清杀菌谱的研究和田间防治试验. 西北农业学报, 1994,3(3):85-89.
[26] 何军, 马志卿, 张兴 . 植物源农药概述. 西北农林科技大学学报(自然科学版), 2006,34(9):79-85.
[27] 杜春梅, 吴元华, 赵秀香 . 天然抗植物病毒物质的研究进展. 中国烟草学报, 2004,10(1):34.
doi: 10.3321/j.issn:1004-5708.2004.01.007
[28] 王利, 马祁 . 天然产物对植物病毒的抑制作用. 中国生物防治, 2000,16(3):127-130.
[29] Kubo S, Ikeda T, Imaizumi S , et al. A potent plant virus inhibitor found in Mirabilis jalapa L. Japanese Journal of Phytopathology, 1990,56(4):481-487.
doi: 10.3186/jjphytopath.56.481
[30] 李林茹 . 植物源农药VFB对烟草生长发育的影响研究. 西安:西北农林科技大学, 2010.
[31] 秦世荣, 张年辉, 付竞峰 , 等. TMV或宁南霉素处理对烟草叶片及类囊体膜蛋白组成的影响. 应用与环境生物学报, 2004,10(2):158-161.
[32] 前田浩明. 植物病毒抗毒剂—莱恩特明. 河北农业大学学报, 1982,3(7):131-133.
[33] 邱德文 . 微生物蛋白农药研究进展. 中国生物防治, 2004,20(2):91-94.
doi: 10.3321/j.issn:1005-9261.2004.02.003
[34] 辛淑英, 张祖珍 . 甘薯外植体组织培养和植株再生. 植物学报, 1987,29(1):114-116.
[35] 陈应东 . 甘薯茎尖分生组织培养方法研究.中国甘薯,1990(4):5-7.
[36] 李强, 马代夫, 李洪飞 , 等.NAA和6-BA在甘薯组织培养中的应用研究.江苏农业科学,2003(4):14-16.
[37] 杨贤松, 杨占苗, 高峰 , 等. 紫色甘薯的茎尖培养与脱毒. 热带作物学报, 2007,28(3):68-70.
[38] 秦梅, 张燕, 徐美恩 , 等. 甘薯茎尖脱毒及组培快繁技术. 安徽农业科学, 2014,42(32):11238-11239.
[39] 王常芸, 李晓亮, 辛国胜 , 等. 不同品种甘薯茎尖脱毒快繁技术优化研究. 农学学报, 2015,5(7):19-23.
[40] 王远新, 张凯, 赵勇 , 等. 叶原基形态对甘薯茎尖脱毒培养的影响. 西南大学学报(自然科学版), 2014,36(1):18-22.
[41] 张兆干 . 脱毒甘薯增产机理及应用.农业科技通讯,2000(1):9.
doi: 10.3969/j.issn.1000-6400.2000.01.007
[42] 安康, 房伯平, 张雄坚 , 等.甘薯资源抗(耐)病毒的鉴定.广东农业科学,2005(5):5-6.
[43] 郭兴启, 温孚江, 朱常香 . 转基因植物中RNA介导的病毒抗性研究进展. 生命科学, 2000,12(4):166-169.
doi: 10.3969/j.issn.1004-0374.2000.04.007
[44] Noshiguchi M, Mori M, Okada Y , et al. Virus resistant transgenic sweet potato with the CP gene:current challenge and perspective of its use. Phytoprotection, 1998,79:112-116.
doi: 10.7202/706167ar
[45] Okada Y, Saito A, Nishiguchi M , et al. Virus resistance in transgenic sweet potato [Ipomoea batatas L.(Lam)] expressing the coat protein gene of sweet potato feathery mottle virus. Theoretical and Applied Genetics, 2001,103(5):743-751.
doi: 10.1007/s001220100654
[46] Cipriani G, Fuentes S, Bello V , et al. Transgene expression of rice cysteine proteinase inhibitors for the development of resistance against sweet potato feathery mottle virus//Scientist and farmer partners in resarch for the 21st century Program Report 1999-2000. Lima:CIP, 2001: 267-271.
[47] Kreuze J F, Klein I S, Lazaro M U , et al. RNA silencing-mediated resistance to a crinivirus(Closteroviridae) in cultivated sweet potato(Ipomoea batatas L.)and development of sweet potato virus disease following co-infection with a potyvirus. Molecular Plant Pathology, 2008,9(5):589-598.
doi: 10.1111/mpp.2008.9.issue-5
[48] Chen X, Liu J, Xu L , et al. Inhibiting virus infection by RNA interference of the eight functional genes of the potato virus genome. Phytopathology, 2010,158:776-784.
doi: 10.1111/j.1439-0434.2010.01701.x
[49] Ai T, Zhang L, Gao Z , et al. Highly efficient virus resistance mediated by artificial microRNAs that target the suppressor of PVX and PVY in plants. Plant Biology, 2011,13(2):304-316.
doi: 10.1111/plb.2011.13.issue-2
[50] Fahim M, Larkin P J . Designing effective amiRNA and multimeric amiRNA against plant viruses. Methods in Molecular Biology, 2013,942:357-377.
doi: 10.1007/978-1-62703-119-6
[51] 肖火根, 范怀忠 . 番木瓜环斑病毒株系间交互保护作用研究. 病毒学报, 1994,2(10):164-169.
[52] 周彦 . 交叉保护防治柑橘衰退病研究进展. 园艺学报, 2014,41(9):1793-1801.
[53] 时焦, 王凤龙 . 交互保护作用防治烟草病毒病的研究与应用前景. 中国烟草学报, 1996,6(3):43-45.
[54] 王振宇 . 马铃薯Y病毒弱毒突变体的筛选及其交叉保护作用. 泰安:山东农业大学, 2014.
[55] 张兴, 马志卿, 冯俊涛 , 等. 植物源农药研究进展. 中国生物防治学报, 2015,31(5):685-698.
doi: 10.16409/j.cnki.2095-039x.2015.05.009
[56] Price A A, Sampson T R, Ratner H K , et al. Cas9-mediated targeting of viral RNA in eukaryotic cells. Proceeding of the National Academy of Science of the United States of America, 2015,112(19):6164-6169.
doi: 10.1073/pnas.1422340112 pmid: 25918406
[57] Ali Z, Abulfaraj A, Idris A , et al. CRISPR/Cas9-mediated viral interference in plants. Genome Biology, 2015,16:238.
doi: 10.1186/s13059-015-0799-6 pmid: 4641396
No related articles found!
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed   
[1] Guangcai Zhao,Xuhong Chang,Demei Wang,Zhiqiang Tao,Yanjie Wang,Yushuang Yang,Yingjie Zhu. General Situation and Development of Wheat Production[J]. Crops, 2018, 34(4): 1 -7 .
[2] Baoquan Quan,Dongmei Bai,Yuexia Tian,Yunyun Xue. Effects of Different Leaf-Peg Ratio on Photosynthesis and Yield of Peanut[J]. Crops, 2018, 34(4): 102 -105 .
[3] Xuefang Huang,Mingjing Huang,Huatao Liu,Cong Zhao,Juanling Wang. Effects of Annual Precipitation and Population Density on Tiller-Earing and Yield of Zhangzagu 5 under Film Mulching and Hole Sowing[J]. Crops, 2018, 34(4): 106 -113 .
[4] Wenhui Huang, Hui Wang, Desheng Mei. Research Progress on Lodging Resistance of Crops[J]. Crops, 2018, 34(4): 13 -19 .
[5] Yun Zhao,Cailong Xu,Xu Yang,Suzhen Li,Jing Zhou,Jicun Li,Tianfu Han,Cunxiang Wu. Effects of Sowing Methods on Seedling Stand and Production Profit of Summer Soybean under Wheat-Soybean System[J]. Crops, 2018, 34(4): 114 -120 .
[6] Mei Lu,Min Sun,Aixia Ren,Miaomiao Lei,Lingzhu Xue,Zhiqiang Gao. Effects of Spraying Foliar Fertilizers on Dryland Wheat Growth and the Correlation with Yield Formation[J]. Crops, 2018, 34(4): 121 -125 .
[7] Xiaofei Wang,Haijun Xu,Mengqiao Guo,Yu Xiao,Xinyu Cheng,Shuxia Liu,Xiangjun Guan,Yaokun Wu,Weihua Zhao,Guojiang Wei. Effects of Sowing Date, Density and Fertilizer Utilization Rate on the Yield of Oilseed Perilla frutescens in Cold Area[J]. Crops, 2018, 34(4): 126 -130 .
[8] Pengjin Zhu,Xinhua Pang,Chun Liang,Qinliang Tan,Lin Yan,Quanguang Zhou,Kewei Ou. Effects of Cold Stress on Reactive Oxygen Metabolism and Antioxidant Enzyme Activities of Sugarcane Seedlings[J]. Crops, 2018, 34(4): 131 -137 .
[9] Jie Gao,Qingfeng Li,Qiu Peng,Xiaoyan Jiao,Jinsong Wang. Effects of Different Nutrient Combinations on Plant Production and Nitrogen, Phosphorus and Potassium Utilization Characteristics in Waxy Sorghum[J]. Crops, 2018, 34(4): 138 -142 .
[10] Na Shang,Zhongxu Yang,Qiuzhi Li,Huihui Yin,Shihong Wang,Haitao Li,Tong Li,Han Zhang. Response of Cotton with Vegetative Branches to Plant Density in the Western of Shandong Province[J]. Crops, 2018, 34(4): 143 -148 .