Please wait a minute...
浙江大学学报(农业与生命科学版)
Journal of Zhejiang University (Agriculture and Life Sciences)  2022, Vol. 48 Issue (3): 279-288    DOI: 10.3785/j.issn.1008-9209.2021.04.301
Reviews     
Comparison of control methods of cucumber green mottle mosaic virus disease and their prospects
Ting XIE1(),Jinyan LUO2,Lei CHEN2,Wei DU3,Jie ZHU4,Bin LI1()
1.Institute of Biotechnology, Zhejiang University, Hangzhou 310058, China
2.Shanghai Agricultural Technology Extension & Service Center, Shanghai 201103, China
3.Agricultural Technology Extension Station of Ningxia Hui Autonomous Region, Yinchuan 750001, China
4.Wenzhou Plant Protection and Soil Fertilizer Management Station, Wenzhou 325000, Zhejiang, China
Download: HTML   HTML (   PDF(1142KB)
Export: BibTeX | EndNote (RIS)      

Abstract  

Cucumber green mottle mosaic virus (CGMMV) is widely distributed in the world. It mainly infects cucurbitaceous crops, causing serious damage and incalculable economic loss to the commercial planting and production of cucurbitaceous crops. This paper analyzed the main factors affecting the rapid spread and epidemic of CGMMV, summarized the prevention and control strategies of CGMMV in epidemic areas focusing on seed disinfection and non-epidemic areas focusing on prevention of transmission, introduced the main detection methods of CGMMV, such as serology and molecular biology, compared the advantages and disadvantages of various existing control methods, and looked forward to the application prospect of new antiviral agents and genetic engineering technologies in the control of CGMMV.

Key wordscucumber green mottle mosaic virus      epidemic      dry heat treatment      detection method      chemical control      genetic engineering     
Received: 30 April 2021      Published: 07 July 2022
CLC:  S 432.41  
Corresponding Authors: Bin LI     E-mail: 22016086@zju.edu.cn;libin0571@zju.edu.cn
Service
E-mail this article
Add to my bookshelf
Add to citation manager
E-mail Alert
RSS
Articles by authors
Ting XIE
Jinyan LUO
Lei CHEN
Wei DU
Jie ZHU
Bin LI
Cite this article:

Ting XIE,Jinyan LUO,Lei CHEN,Wei DU,Jie ZHU,Bin LI. Comparison of control methods of cucumber green mottle mosaic virus disease and their prospects. Journal of Zhejiang University (Agriculture and Life Sciences), 2022, 48(3): 279-288.

URL:

https://www.zjujournals.com/agr/10.3785/j.issn.1008-9209.2021.04.301     OR     https://www.zjujournals.com/agr/Y2022/V48/I3/279


黄瓜绿斑驳花叶病毒病防治方法的比较与展望

黄瓜绿斑驳花叶病毒(cucumber green mottle mosaic virus, CGMMV)在世界范围内分布广泛,主要侵染葫芦科作物,给葫芦科作物的商品化种植、生产带来难以估量的经济损失。本文分析了影响CGMMV快速扩散流行的主要因素,总结了以种子消毒为主的疫区和以防传入为重点的非疫区CGMMV防治策略,介绍了血清学和分子生物学等主要CGMMV检测方法,比较了现有各种防治方法的优劣,展望了新型抗病毒药剂与基因工程技术在CGMMV防治上的应用前景。


关键词: 黄瓜绿斑驳花叶病毒,  流行,  干热处理,  检测方法,  化学防治,  基因工程 
Fig. 1 Phylogenetic analysis of CGMMV nucleotide sequences

作物

Crop

处理温度

Treatment temperature/℃

处理时间

Treatment time/d

防治效果

Control effect

种子发芽率

Emergence rate of seed

种子发芽势

Potentiality of seed

文献

Reference

葫芦

Cucurbit

<801~7病毒有效钝化升高无变化[20]
75~853病毒完全失活降低[21]
65~723病毒有效钝化无变化[21]
720.5病毒基本钝化无变化[16]
723病毒有效钝化降低[13]
803病毒完全失活无变化[14]

西瓜

Watermelon

753病毒完全失活降低[15]
851病毒仅半数钝化[15]
76、80、853病毒有效钝化[22]

瓠瓜

Gourd

753病毒有效钝化[23]

黄瓜

Cucumber

<801~7病毒有效钝化无变化[20]

南瓜

Pumpkin

803病毒完全失活降低降低[14]

黄瓜、甜瓜

Cucumber and

melon

703病毒有效钝化大幅度降低[18]
733病毒完全失活[18]

西瓜、甜瓜

Watermelon and

melon

723病毒有效钝化无变化[24]
Table 1 Dry heat treatment measures on different seeds of cucurbitaceous crops infected with CGMMV

药剂名称

Pesticide name

防治作物

Target crop

剂型

Form of dosage

稀释倍数

Dilution ratio

喷药量

Spray dosage/(kg/hm2)

施用次数

Frequency of application

施用周期

Cycle of application/d

防治效果

Control

effect/%

文献

Reference

0.5%植病灵

0.5% ureaeroxide

西瓜

Watermelon

水剂

Aqueous solution

(AS)

1 00040~50[25]

40%病毒灵

40% virus spirit

西瓜

Watermelon

可溶性粉剂

Soluble powder (SP)

1 00040~50[25]

20% 病毒散

20% caprolactone

acetate

西瓜

Watermelon

可湿性粉剂

Wettable powder

(WP)

1<50.00[24]

8%宁南霉素

8% ningnanmycin

西瓜

Watermelon

水剂

AS

1 000502778.40[28]

1.8% 复硝酚钠

1.8% compound

sodium nitrophenolate

西瓜

Watermelon

水剂

AS

6 00050140.10[28]

5% 菌毒清

5% bacterial toxin

葫芦科

Cucurbitaceae

可湿性粉剂

WP

300[26]

30% 毒克星

30% germ poison

jinx

葫芦科

Cucurbitaceae

可湿性粉剂

WP

500[26]

7.5% 克毒灵

7.5% keduling

葫芦科

Cucurbitaceae

水剂

AS

700~800[27]

高锰酸钾

Potassium

permanganate

葫芦科

Cucurbitaceae

1 000[27]

硫酸锌

Zincsulfate

葫芦科

Cucurbitaceae

1 500[27]
Table 2 Pesticides used for the control of CGMMV in the early stage

防治策略

Control strategy

对象

Target

适用时期

Applicable period

防治成本

Cost of control

技术要求

Technical

requirement

作用机制

Mechanism

防治效果

Control

effect

存在的主要问题

Main problem

植物检疫

Plant quarantine

带毒种苗、器具任何时期较高较高

防止病毒人为

扩散

大众检疫意识弱

农业措施

Agricultural

measure

带毒种苗、器具任何时期减少初侵染源较强消耗人力、物力

土壤熏蒸消毒

Soil fumigation

and disinfection

带毒土壤、病株残体播种前较低较低减少初侵染源较强

有些熏蒸药剂

对环境有害

设置捕虫网

Setting a worm net

传毒昆虫播种后切断传毒途径

仅适用于温室/

大棚

种子干热处理

Dry heat treatment

of seeds

带毒种子播种前较低钝化或灭活病毒较强

无健全统一的处

理体系

喷施化学药剂

Spraying chemical

pesticides

发病植株发病初期较低较低钝化病毒

可用药剂少且

无法根治

利用生防菌

Utilization of biocontrol

bacteria

发病植株田间显症后较高较高抑制病毒增殖较弱防治效果不稳定

利用植物提取物

Utilization of plant

extracts

发病植株田间显症后较高抑制病毒增殖

作用缓慢,田间

持效期短

接种弱毒株系

Inoculation of

attenuated strains

健康植株出苗后较高诱导植物抗性较强

不适用于大规模

生产

选育抗病品种

Breeding resistant

varieties

葫芦科作物播种前较高增强植物抗性种质资源少

基因工程技术

Genetic engineering

technology

植物/病毒基因播种前

增强植物抗病性/

减弱病毒致病性

瓜类作物遗传

转化难
Table 3 Comparisons of the current main CGMMV control technologies
[1]   AINSWORTH G C. Mosaic diseases of the cucumber. Annals of Applied Biology, 1935, 22(1): 55-67. DOI:10.1111/j.1744-7348.1935.tb07708.x
doi: 10.1111/j.1744-7348.1935.tb07708.x
[2]   刘洁.西瓜抗黄瓜绿斑驳花叶病毒病遗传分析与抗性基因定位研究[D].杭州:浙江大学,2019:15.
LIU J. Genetic analysis and gene mapping of watermelon resistance to cucumber green mottle mosaic virus[D]. Hangzhou: Zhejiang University, 2019: 15. (in Chinese with English abstract)
[3]   刘珊珊.西瓜中与CGMMV结构蛋白互作因子的筛选及sHSP功能分析[D].北京:中国农业科学院,2019:16.
LIU S S. Identifying factors interacted with CGMMV structural proteins and functional analysis of sHSP in watermelon[D]. Beijing: Chinese Academy of Agricultural Sciences, 2019: 16. (in Chinese with English abstract)
[4]   张永江.黄瓜绿斑驳花叶病毒研究进展[J].河南农业科学,2006(8):9-12, 66. DOI:10.3969/j.issn.1004-3268.2006.08.002
ZHANG Y J. Research progress on cucumber green mottle mosaic virus[J]. Journal of Henan Agricultural Sciences, 2006(8): 9-12, 66. (in Chinese)
doi: 10.3969/j.issn.1004-3268.2006.08.002
[5]   钱余芹,许莉,陆熹.浅谈黄瓜绿斑驳花叶病毒病防控[J].上海农业科技,2013(2):64-65. DOI:10.3969/j.issn.1001-0106.2013.02.046
QIAN Y Q, XU L, LU X. Discussion on prevention and control of cucumber green mottle mosaic virus[J]. Shanghai Agricultural Science and Technology, 2013(2): 64-65. (in Chinese)
doi: 10.3969/j.issn.1001-0106.2013.02.046
[6]   王佳莹,张吉红,崔俊霞.宁波海关全国邮检首次截获黄瓜绿斑驳花叶病毒[J].植物检疫,2019,33(3):62.
WANG J Y, ZHANG J H, CUI J X, et al. Ningbo Customs District’s national postal inspection intercepts cucumber green mottle mosaic virus for the first time[J]. Plant Quarantine, 2019, 33(3): 62. (in Chinese)
[7]   马光恕,廉华.瓜类作物病毒病的研究进展[J].黑龙江农业科学,2001(1):44-47. DOI:10.3969/j.issn.1002-2767.2001.01.018
MA G S, LIAN H. The research advance of virus diseases in the Cucurbitaceae[J]. Heilongjiang Agricultural Sciences, 2001(1): 44-47. (in Chinese with English abstract)
doi: 10.3969/j.issn.1002-2767.2001.01.018
[8]   秦碧霞,蔡健和,刘志明,等.侵染观赏南瓜的黄瓜绿斑驳花叶病毒的初步鉴定[J].植物检疫,2005,19(4):198-200. DOI:10.3969/j.issn.1005-2755.2005.04.002
QIN B X, CAI J H, LIU Z M, et al. Preliminary identification of a cucumber green mottle mosaic virus infecting pumpkin[J]. Plant Quarantine, 2005, 19(4): 198-200. (in Chinese with English abstract)
doi: 10.3969/j.issn.1005-2755.2005.04.002
[9]   李桂芬,马洁,陈红运,等.黄瓜绿斑驳花叶病毒多克隆抗体制备及检测应用[J].河南农业科学,2007(11):76-78. DOI:10.15933/j.cnki.1004-3268.2007.11.019
LI G F, MA J, CHEN H Y, et al. Preparation and detection application of polyclonal antibody to cucumber green mottle mosaic virus[J]. Journal of Henan Agricultural Sciences, 2007(11): 76-78. (in Chinese)
doi: 10.15933/j.cnki.1004-3268.2007.11.019
[10]   严婉荣,赵志祥,肖彤斌,等.海南辣椒、樱桃番茄病毒病调查及病原dot-ELISA鉴定[J].广东农业科学,2021,48(1):119-125. DOI:10.16768/j.issn.1004-874X.2021.01.015
YAN W R, ZHAO Z X, XIAO T B, et al. Investigation and dot-ELISA pathogen identification of virus diseases in pepper and cherry tomato in Hainan[J]. Guangdong Agricultural Sciences, 2021, 48(1): 119-125. (in Chinese with English abstract)
doi: 10.16768/j.issn.1004-874X.2021.01.015
[11]   黄静,廖富荣,林石明,等.黄瓜绿斑驳花叶病毒的鉴定及分子检测[J].中国农学通报,2007,23(4):318-322. DOI:10.3969/j.issn.1000-6850.2007.04.074
HUANG J, LIAO F R, LIN S M, et al. Identification and detection of cucumber green mottle mosaic virus[J]. Chinese Agricultural Science Bulletin, 2007, 23(4): 318-322. (in Chinese with English abstract)
doi: 10.3969/j.issn.1000-6850.2007.04.074
[12]   邓丛良,黄峰,吕玉峰,等.实时荧光RT-PCR方法检测黄瓜绿斑驳花叶病毒[J].植物检疫,2009,23(4):29-31. DOI:10.3969/j.issn.1005-2755.2009.04.009
DENG C L, HUANG F, LÜ Y F, et al. Detection of cucumber green mottle mosaic virus by real time reverse transcriptase polymerase chain reaction[J]. Plant Quarantine, 2009, 23(4): 29-31. (in Chinese with English abstract)
doi: 10.3969/j.issn.1005-2755.2009.04.009
[13]   黄芸萍,严蕾艳,张华峰,等.干热处理对葫芦砧木种子发芽及子叶生长的影响[J].中国瓜菜,2014,27(3):36-38. DOI:10.16861/j.cnki.zggc.2014.03.012
HUANG Y P, YAN L Y, ZHANG H F, et al. Effects of dry heat treatment on seed germination and cotyledon growth of Lagenaria rootstock[J]. China Cucurbits and Vegetables, 2014, 27(3): 36-38. (in Chinese with English abstract)
doi: 10.16861/j.cnki.zggc.2014.03.012
[14]   宋顺华,宫国义,耿丽华,等.干热处理对葫芦科种子质量的影响及对黄瓜绿斑驳花叶病毒的防治效果[J].中国蔬菜,2018(2):58-63.
SONG S H, GONG G Y, GENG L H, et al. Influence of dry heat treatment on seed quality of cucurbit crops and control effect on cucumber green mottle mosaic virus[J]. China Vegetables, 2018(2): 58-63. (in Chinese with English abstract)
[15]   KIM S M, NAM S H, LEE J M, et al. Destruction of cucumber green mottle mosaic virus by heat treatment and rapid detection of virus inactivation by RT-PCR[J]. Molecules and Cells, 2003, 16(3): 338-342.
[16]   周贤达,睢祥琨,陈路路,等.砧木(葫芦)种子干热灭菌消毒处理研究[J].中国瓜菜,2013,26(2):38-39. DOI:10.16861/j.cnki.zggc.2013.02.014
ZHOU X D, SUI X K, CHEN L L, et al. Research on dry heat sterilization and disinfection of rootstock (cucurbit) seeds[J]. China Cucurbits and Vegetables, 2013, 26(2): 38-39. (in Chinese)
doi: 10.16861/j.cnki.zggc.2013.02.014
[17]   蔡明,李明福,江东.日本、韩国黄瓜绿斑驳花叶病毒发生及防控策略[J].植物检疫,2010,24(4):65-68. DOI:10.19662/j.cnki.issn.1005-2755.2010.04.022
CAI M, LI M F, JIANG D. Occurrence and control strategy of cucumber green mottle mosaic virus in Japan and Korea[J]. Plant Quarantine, 2010, 24(4): 65-68. (in Chinese)
doi: 10.19662/j.cnki.issn.1005-2755.2010.04.022
[18]   古勤生.防治监控黄瓜绿斑驳花叶病毒,确保瓜类安全生产[J].中国瓜菜,2007(1):47-48. DOI:10.16861/j.cnki.zggc.2007.01.024
GU Q S. Controlling and monitoring cucumber green mottle mosaic virus to ensure safe production of melons[J]. China Cucurbits and Vegetables, 2007(1): 47-48. (in Chinese)
doi: 10.16861/j.cnki.zggc.2007.01.024
[19]   周华众,向子钧,匡辉.黄瓜绿斑驳花叶病毒病的发生特点及综合控制技术[J].湖北植保,2009(4):52. DOI:10.3969/j.issn.1005-6114.2009.04.025
ZHOU H Z, XIANG Z J, KUANG H. Occurrence characteristics and comprehensive control techniques of cucumber green mottle mosaic virus disease[J]. Hubei Plant Protection, 2009(4): 52. (in Chinese)
doi: 10.3969/j.issn.1005-6114.2009.04.025
[20]   KUBOTA M, HAGIWARA N, SHIRAKAWA T. Disinfection of seeds of cucurbit crops infested with Acidovorax citrulli with dry heat treatment[J]. Journal of Phytopathology, 2012, 160(7/8): 364-368. DOI:10.1111/j.1439-0434.2012.01913.x
doi: 10.1111/j.1439-0434.2012.01913.x
[21]   马凯慧,王毓洪,严蕾艳,等.葫芦种子干热处理对黄瓜绿斑驳花叶病毒及发芽率的影响[J].长江蔬菜,2013(24):50-51. DOI:10.3865/j.issn.1001-3547.2013.24.019
MA K H, WANG Y H, YAN L Y, et al. Effects of dry heat treatments on CGMMV and germination of bottle gourd seeds[J]. Journal of Changjiang Vegetables, 2013(24): 50-51. (in Chinese with English abstract)
doi: 10.3865/j.issn.1001-3547.2013.24.019
[22]   宋顺华,耿丽华.干热处理对几种不同葫芦科瓜菜种子活力的影响[J].种子,2020,39(11):51-54. DOI:10.16590/j.cnki.1001-4705.2020.11.051
SONG S H, GENG L H. Effects of dry heat treatment on seed vigor of several cucurbitaceous vegetables[J]. Seed, 2020, 39(11): 51-54. (in Chinese with English abstract)
doi: 10.16590/j.cnki.1001-4705.2020.11.051
[23]   冯兰香,谢丙炎,杨宇红,等.检疫性黄瓜绿斑驳花叶病毒的检测和防疫控制[J].中国蔬菜,2007(9):34-38. DOI:10.3969/j.issn.1000-6346.2007.09.015
FENG L X, XIE B Y, YANG Y H, et al. Detection and epidemic prevention and control of quarantine cucumber green mottle mosaic virus[J]. China Vegetables, 2007(9): 34-38. (in Chinese)
doi: 10.3969/j.issn.1000-6346.2007.09.015
[24]   韩群营,黄明生,曾学军,等.大棚嫁接小西瓜上的黄瓜绿斑驳花叶病毒病发生规律与防控对策[J].植物检疫,2013,27(3):90-92. DOI:10.19662/j.cnki.issn1005-2755.2013.03.020
HAN Q Y, HUANG M S, ZENG X J, et al. Greenhouse grafted watermelon cucumber green mottle mosaic virus disease occurrence regularity and control measures[J]. Plant Quarantine, 2013, 27(3): 90-92. (in Chinese with English abstract)
doi: 10.19662/j.cnki.issn1005-2755.2013.03.020
[25]   李连文.西瓜绿斑驳花叶病毒病的防控[J].辽宁农业职业技术学院学报,2008,10(2):15-16. DOI:10.3969/j.issn.1671-0517.2008.02.008
LI L W. Prevention and control of watermelon green mottle mosaic virus disease[J]. Journal of Liaoning Agricultural College, 2008, 10(2): 15-16. (in Chinese)
doi: 10.3969/j.issn.1671-0517.2008.02.008
[26]   王付彬,杨兰英,马井玉.山东省黄瓜绿斑驳花叶病毒病发生规律及防控措施[J].农业科技通讯,2014(9):275-276. DOI:10.3969/j.issn.1000-6400.2014.09.105
WANG F B, YANG L Y, MA J Y. Occurrence and control measures of cucumber green mottle mosaic virus disease in Shandong Province[J]. Bulletin of Agricultural Science and Technology, 2014(9): 275-276. (in Chinese)
doi: 10.3969/j.issn.1000-6400.2014.09.105
[27]   宋顺华,吴萍,宫国义,等.黄瓜绿斑驳花叶病的发生及防控策略[J].北方园艺,2014(8):105-108.
SONG S H, WU P, GONG G Y, et al. Occurrence and control measures of cucumber green mottle mosaic virus[J]. Northern Horticulture, 2014(8): 105-108. (in Chinese with English abstract)
[28]   李云明,施海萍,顾云琴,等.吗胍·乙酸铜防治黄瓜绿斑驳花叶病毒病的效果[J].浙江农业科学,2014(12):1860-1861. DOI:10.16178/j.issn.0528-9017.2014.12.030
LI Y M, SHI H P, GU Y Q, et al. Effect of moroxydine hydrochloride on the control of cucumber green mottle mosaic virus disease[J]. Journal of Zhejiang Agricultural Sciences, 2014(12): 1860-1861. (in Chinese)
doi: 10.16178/j.issn.0528-9017.2014.12.030
[29]   叶建人,施海萍,蔡美艳.棚栽嫁接西瓜黄瓜绿斑驳花叶病毒病监测与综合防控技术规范[J].农业科技通讯,2015(11):228-229. DOI:10.3969/j.issn.1000-6400.2015.11.088
YE J R, SHI H P, CAI M Y. Technical specifications for monitoring and comprehensive prevention and control of cucumber green mottle mosaic virus disease of watermelon grafted in shed[J]. Bulletin of Agricultural Science and Technology, 2015(11): 228-229. (in Chinese)
doi: 10.3969/j.issn.1000-6400.2015.11.088
[30]   李俊香,古勤生.四种化学诱抗剂防治黄瓜绿斑驳花叶病毒病的试验初报[J].中国蔬菜,2015(7):40-44. DOI:10.3969/j.issn.1000-6346.2015.07.009
LI J X, GU Q S. Preliminary report about using 4 chemical inducers to control cucumber green mottle mosaic virusdisease[J]. China Vegetables, 2015(7): 40-44. (in Chinese with English abstract)
doi: 10.3969/j.issn.1000-6346.2015.07.009
[31]   蔡明,江冬,张丽英,等.黄瓜绿斑驳花叶病毒种子处理试验研究[J].植物检疫,2011,25(1):62-63. DOI:10.19662/j.cnki.issn1005-2755.2011.01.018
CAI M, JIANG D, ZHANG L Y, et al. Study on CGMMV seed treatment[J]. Plant Quarantine, 2011, 25(1): 62-63. (in Chinese with English abstract)
doi: 10.19662/j.cnki.issn1005-2755.2011.01.018
[32]   卫甜,李宏伟,苏建坤,等.黄瓜绿斑驳花叶病毒病生防菌株的分离与筛选[J].园艺学报,2016,43(12):2391-2400. DOI:10.16420/j.issn.0513-353x.2016-0401
WEI T, LI H W, SU J K, et al. Screening bacteria for biological control of cucumber green mottle mosaic virus disease[J]. Acta Horticulturae Sinica, 2016, 43(12): 2391-2400. (in Chinese with English abstract)
doi: 10.16420/j.issn.0513-353x.2016-0401
[33]   刘学端,肖启明.植物源农药防治烟草花叶病机理初探[J].中国生物防治,1997,13(3):128-131.
LIU X D, XIAO Q M. Mechanisms of plant pesticide MH 11-4 on the control of tobacco mosaic disease[J]. Chinese Journal of Biological Control, 1997, 13(3): 128-131. (in Chinese with English abstract)
[34]   VERMA H N, KHAN M M A A. Management of plant virus diseases by Pseuderanthemum bicolor leaf extract[J]. Journal of Plant Diseases and Protection, 1984, 91(3): 266-272.
[35]   刘莉莉.鸦胆子素D对黄瓜绿斑驳花叶病毒病的抑制作用[D].福州:福建农林大学.2010:32-42.
LIU L L. Inhibitory effect of bruceine D on CGMMV[D]. Fuzhou: Fujian Agriculture and Forestry University, 2010: 32-42. (in Chinese with English abstract)
[36]   ALI M E, WALIULLAH S, NISHIGUCHI M. Molecular analysis of an attenuated strain of cucumber green mottle mosaic virus using in vitro infectious cDNA clone: pathogenicity and suppression of RNA silencing[J]. Journal of Plant Biochemistry and Biotechnology, 2015, 25(1): 79-86. DOI:10.1007/s13562-015-0312-z
doi: 10.1007/s13562-015-0312-z
[37]   DARYONO B S, NATSUAKI K T. Application of random amplified polymorphic DNA markers for detection of resistant cultivars of melon (Cucumis melo) against cucurbit viruses[J]. Acta Horticulturae, 2002(588): 321-329. DOI:10.17660/ActaHortic.2002.588.52
doi: 10.17660/ActaHortic.2002.588.52
[38]   SKÁLOVÁ D, DZIECHCIARKOVÁ M, LEBEDA A, et al. Interspecific hybridization of Cucumis anguria and C. zeyheri via embryo-rescue[J]. Biologia Plantarum, 2008, 52(4): 775-778. DOI:10.1007/s10535-008-0151-z
doi: 10.1007/s10535-008-0151-z
[39]   钟敏,赵绪生,何乙坤,等.黄瓜绿斑驳病毒人工诱变方法的研究[J].北方园艺,2014(24):108-111.
ZHONG M, ZHAO X S, HE Y K, et al. Study on the artificial mutagenesis method for cucumber green mottle mosaic virus[J]. Northern Horticulture, 2014(24): 108-111. (in Chinese with English abstract)
[40]   张圣平,顾兴芳,王烨,等.温室黄瓜新品种中农33号的选育[J].中国蔬菜,2018(11):68-71.
ZHANG S P, GU X F, WANG Y, et al. A new greenhouse cucumber variety—‘Zhongnong No. 33’[J]. China Vegetables, 2018(11): 68-71. (in Chinese with English abstract)
[41]   刘锦,许帅,闫志勇,等.黄瓜绿斑驳花叶病毒弱毒突变体的筛选及交叉保护效果测定[C]//中国植物病理学会2017年学术年会论文集.山东,泰安:中国植物病理学会,2017:281.
LIU J, XU S, YAN Z Y, et al. Screening of attenuated mutants of cucumber green mottle mosaic virus and determination of cross-protection effect[C]// Proceedings of the Annual Meeting of Chinese Society for Plant Pathology (2017). Tai’an, Shandong: Chinese Society for Plant Pathology, 2017: 281. (in Chinese with English abstract)
[42]   PARK S M, LEE J S, JEGAL S, et al.Transgenic watermelon rootstock resistant to CGMMV (cucumber green mottle mosaic virus) infection[J]. Plant Cell Reports, 2005, 24(6): 350-356. DOI:10.1007/s00299-005-0946-8
doi: 10.1007/s00299-005-0946-8
[43]   郑海刚,陈启建.诱导提取的dsRNA粗提液对黄瓜绿斑驳花叶病毒的抑制作用[J].福建农林大学学报(自然科学版),2011,40(4):‍346-350. DOI:‍10.13323/j.cnki.j.fafu(nat.sci.).2011.04.011
ZHENG H G, CHEN Q J. Inhibition of crude extracts of extracted dsRNA by induction on the cucumber green mottle mosaic virus[J]. Journal of Fujian Agriculture and Forestry University (Natural Science Edition), 2011, 40(4): 346-350. (in Chinese with English abstract)
doi: ?10.13323/j.cnki.j.fafu(nat.sci.).2011.04.011
[44]   EMRAN A M, TABEI Y, KOBAYASHI K, et al. Molecular analysis of transgenic melon plants showing virus resistance conferred by direct repeat of movement gene of cucumber green mottle mosaic virus[J]. Plant Cell Reports, 2012, 31(8): 1371-1377. DOI:10.1007/s00299-012-1237-9
doi: 10.1007/s00299-012-1237-9
[45]   LIN C Y, KU H M, CHIANG Y H, et al. Development of transgenic watermelon resistant to cucumber mosaic virus and watermelon mosaic virus by using a single chimeric transgene construct[J]. Transgenic Research, 2012, 21: 983-993. DOI:10.1007/s11248-011-9585-8
doi: 10.1007/s11248-011-9585-8
[46]   吴剑,宋宝安.中国抗植物病毒药剂研究进展[J].中国科学:化学,2016,46(11):1165-1179. DOI:10.1360/N032016-00126
WU J, SONG B A. Research progress of anti-virus agents for plants in China[J]. Scientia Sinica Chimica, 2016, 46(11): 1165-1179. (in Chinese with English abstract)
doi: 10.1360/N032016-00126
[47]   LIU M, LIANG Z L, ARANDA M A, et al. A cucumber green mottle mosaic virus vector for virus-induced gene silencing in cucurbit plants[J]. Plant Methods, 2020,16(1): 9. DOI:10.1186/s13007-020-0560-3
doi: 10.1186/s13007-020-0560-3
[48]   LIANG C Q, HAO J J, LI J Q, et al. Artificial microRNA-mediated resistance to cucumber green mottle mosaic virus in Nicotiana benthamiana [J]. Planta, 2019, 250(5): 1591-1601. DOI:10.1007/s00425-019-03252-w
doi: 10.1007/s00425-019-03252-w
[1] SHAN Ying, LIU Ziqi, SHI Xingfen, LI Guowei, CHEN Cong, LUO Hao, LIU Yajie, FANG Weihuan, LI Xiaoliang. Molecular characteristic analysis of porcine epidemic diarrhea virus S gene in Zhejiang and surrounding areas[J]. Journal of Zhejiang University (Agriculture and Life Sciences), 2018, 44(5): 610-618.
[2] LEI Ximei, YANG Yongle, XU Shuya, ZHAO Pengwei, WANG Bin, HUANG Yaowei. Research progress on serological and clinical diagnostic assays of porcine epidemic diarrhea virus[J]. Journal of Zhejiang University (Agriculture and Life Sciences), 2018, 44(2): 149-156.
[3] SHANG Hai- li,ZHOU Xue- ping,WU Jian-xiang. Polyclonal antibody- based dot-ELISA and immunocapture- RT- PCR for Cucumber green mottle mosaic virus detection"[J]. Journal of Zhejiang University (Agriculture and Life Sciences), 2010, 36(5): 485-490.