Molecular Identification of Tomato Mosaic Virus and Tomato Chlorosis Virus in Guangxi

doi:10.11924/j.issn.1000-6850.casb2022-0787

Abstract

Abstract:

To clarify the pathogens of the tomato leaves exhibiting curling, mottle and mosaic symptoms in Guangxi, four samples suspected of virus infection were collected, and small RNA deep sequencing (sRNA), reverse transcription-polymerase chain reaction (RT-PCR), sequence analysis and phylogenetic trees construction were applied for the viruses detection and genetic and evolutionary analysis. The results showed that 41 contigs from sRNA were annotated as tomato mosaic virus (ToMV) and tomato chlorosis virus (ToCV), respectively. The results of sRNA were also confirmed by RT-PCR, and all the samples were mix-infected by ToMV and ToCV. Nearly complete genome sequences of ToMV and ToCV RNA2 Guangxi isolates were obtained by multiple DNA fragments splicing. The length of the nearly complete genome sequence of ToMV was 6383 bp, named as ToMV-GX. The nearly complete genome sequence of ToCV RNA2 was 8031 bp, named as ToCV-GX. Phylogenetic analysis showed that the ToMV-GX isolate clustered with the ToMV isolates from Shanxi, Inner Mongolia and Hohhot in a big branch, indicating their close evolutionary relationship. ToCV-GX isolates clustered with the ToCV isolates from Taiwan and Guangdong in a big branch, indicating their close evolutionary relationship. The above results showed that ToMV and ToCV were the pathogens that infected tomato showing curling, mottle and mosaic symptoms, and this was the first report of ToMV and ToCV co-infected tomato in Guangxi.

Key words: tomato chlorosis virus, tomato mosaic virus, Guangxi, small RNA deep sequencing, genetic and evolutionary analysis

LI Zhanbiao, MO Cuiping, CHEN Jinqing, QIN Bixia, CUI Lixian, XIE Huiting, JIANG Yaqin, TANG Yafei, CAI Jianhe. Molecular Identification of Tomato Mosaic Virus and Tomato Chlorosis Virus in Guangxi[J]. Chinese Agricultural Science Bulletin, 2023, 39(28): 92-98.

Figures/Tables 6

References 25

[1]	HANSSEN I M, LAPIDOT M, THOMMA B P. Emerging viral diseases of tomato crops[J]. Molecular plant-microbe interactions, 2010, 23(5):539-548. doi: 10.1094/MPMI-23-5-0539 pmid: 20367462
[2]	ONG S N, TAHERI S, OTHMAN R Y, et al. Viral disease of tomato crops (Solanum lycopesicum L.): An overview[J]. Journal of plant diseases and protection, 2020, 127(6):725-739. doi: 10.1007/s41348-020-00330-0
[3]	刘勇, 李凡, 李月月, 等. 侵染我国主要蔬菜作物的病毒种类、分布与发生趋势[J]. 中国农业科学. 2019, 52(2):239-261. doi: 10.3864/j.issn.0578-1752.2019.02.005
[4]	REDDICK B B. Isolation and partial characterization of a tobamovirus from flowering dogwood in Tennessee[J]. Plant disease, 1989, 73(2):174-176. doi: 10.1094/PD-73-0174 URL
[5]	BOBEN J, KRAMBERGER P, PETROVI N, et al. Detection and quantification of Tomato mosaic virus in irrigation waters[J]. European journal of plant pathology, 2007, 118(1):59-71. doi: 10.1007/s10658-007-9112-1 URL
[6]	JACOBI V, CASTELLO J D, FLACHMANN M. Isolation of tomato mosaic virus from red spruce[J]. Plant disease, 1992, 76(5):518. doi: 10.1094/PD-76-0518 URL
[7]	WISLER G C, LI R H, LIU H Y, et al. Tomato chlorosis virus: A new whitefly-transmitted, phloem-limited, bipartite closterovirus of tomato[J]. Phytopathology, 1998, 88(5):402-409. doi: 10.1094/PHYTO.1998.88.5.402 pmid: 18944918
[8]	WINTERMANTEL W M, WISLER G C. Vector specificity, host range, and genetic diversity of tomato chlorosis virus[J]. Plant disease, 2006, 90(6):814-819. doi: 10.1094/PD-90-0814 pmid: 30781245
[9]	LANDEO-RIOS Y M, NAVAS-CASTILLO J, MORIONES E, et al. Genetic diversity and silencing suppression activity of the p22 protein of tomato chlorosis virus isolates from tomato and sweet pepper[J]. Virology journal, 2015, 51(2):283-289.
[10]	苏琴, 崔丽贤, 陈起民, 等. 侵染广西番茄的番茄黄化曲叶病毒的分子鉴定[J]. 植物保护, 2021, 47(5):146-151.
[11]	BANKEVICH A, NURK S, ANTIPOV D, et al. SPAdes: A new genome assembly algorithm and its applications to single-cell sequencing[J]. Journal of computational biology, 2012, 19(5).
[12]	洪雪玉, 陈剑平. 长线形病毒科成员编码蛋白的功能[J]. 浙江农业学报, 2004(1):51-56.
[13]	范怀忠, 孙芥菲, 高乔婉, 等. 广东番茄花叶病毒的鉴定[J]. 华南农学院学报, 1982(3):66-72.
[14]	周雪平, 钱秀红, 刘勇, 等. 侵染番茄的番茄花叶病毒的研究[J]. 中国病毒学, 1996(3):268-276.
[15]	廖富荣, 郭木金, 林石明, 等. 进境番茄种子中番茄花叶病毒的检测与鉴定[J]. 植物保护, 2011, 37(5):124-128.
[16]	TSAI W S, SHIH S L, GREEN S K, et al. First report of the occurrence of tomato chlorosis virus and tomato infectious chlorosis virus in Taiwan[J]. Plant disease, 2004, 88(3).
[17]	赵汝娜, 王蓉, 师迎春, 等. 侵染甜椒的番茄褪绿病毒的分子鉴定[J]. 植物保护, 2014, 40(1):128-130.
[18]	赵黎明, 李刚, 刘永杰, 等. 侵染番茄的番茄褪绿病毒山东泰安分离物的分子鉴定和序列分析[J]. 植物保护, 2014, 40(5):34-39.
[19]	尹跃艳, 卢训, 李婷婷, 等. 云南番茄褪绿病毒和菜豆金色花叶病毒属病毒复合侵染番茄的分子鉴定[J]. 植物保护学报, 2018, 45(4):919-920.
[20]	孙国珍, 高利利, 陆文利, 等. 河北省设施番茄褪绿病毒分子检测和鉴定研究[J]. 北方园艺, 2015(9):95-98.
[21]	金凤媚, 薛俊, 宋建, 等. 天津地区番茄褪绿病毒的分子检测与基因组部分序列分析[J]. 华北农学报, 2016, 31(2):23-27. doi: 10.7668/hbnxb.2016.02.005
[22]	王雪忠, 张战泓, 郑立敏, 等. 番茄褪绿病毒在湖南省首次发生[J]. 中国蔬菜, 2018(8):27-31.
[23]	汤亚飞, 何自福, 佘小漫, 等. 侵染广东番茄的番茄褪绿病毒分子鉴定[J]. 植物保护, 2017, 43(2):133-137.
[24]	吴淑华, 李廷芳, 赵文浩, 等. 江苏省番茄黄化曲叶病毒和褪绿病毒复合侵染的分子检测[J]. 园艺学报, 2016, 43(1):89-99. doi: 10.16420/j.issn.0513-353x.2015-0584
[25]	胡荣. 我国番茄ToCV和TYLCV复合侵染及其序列分子变异研究[D]. 长沙: 湖南大学, 2020.

引物名称	引物序列(5ʹ-3ʹ)	产物大小/bp	引物用途
ToCV-F487	CGCTCGGCAAGTCAGACTGTG	487	RT-PCR检测
ToCV-R487	TTGTCTACCGCTCCAGGGAGG	487	RT-PCR检测
ToMV-F744	GCAGACACTCACACCACCACG	744	RT-PCR检测
ToMV-R744	CCGTCATCATTGCTTCGTGTC	744	RT-PCR检测
ToCV-F440	GAAATACTAGTCCAGGTGTTTCCTG	440	ToCV RNA2序列拼接
ToCV-R440	CGACTGTCAGTACCAACTTGCTG	440	ToCV RNA2序列拼接
ToCV-F316	CGGAGACCCCATCATGTTAT	316	ToCV RNA2序列拼接
ToCV-R316	CCCAAGGACGAACAGACGGC	316	ToCV RNA2序列拼接
ToCV-F690	GGCATCCTAGAACTGTCAATGG	690	ToCV RNA2序列拼接
ToCV-R690	CCACCTGCCAAGGTTCTCTA	690	ToCV RNA2序列拼接
ToCV-F300	GGTGACGGTGGGGGATGTGG	300	ToCV RNA2序列拼接
ToCV-R300	TTCCGTCACCCGACGTAACG	300	ToCV RNA2序列拼接
ToCV-F403	CCAACCAATGACGGTGTTTC	403	ToCV RNA2序列拼接
ToCV-R403	GCCAACCTGTCAGGATACGC	403	ToCV RNA2序列拼接
ToCV-F688	GAGACGCCGGAGTTCCGCAC	688	ToCV RNA2序列拼接
ToCV-R688	CATAAGACGATACATCACCGCAC	688	ToCV RNA2序列拼接

引物名称	引物序列(5ʹ-3ʹ)	产物大小/bp	引物用途
ToCV-F487	CGCTCGGCAAGTCAGACTGTG	487	RT-PCR检测
ToCV-R487	TTGTCTACCGCTCCAGGGAGG	487	RT-PCR检测
ToMV-F744	GCAGACACTCACACCACCACG	744	RT-PCR检测
ToMV-R744	CCGTCATCATTGCTTCGTGTC	744	RT-PCR检测
ToCV-F440	GAAATACTAGTCCAGGTGTTTCCTG	440	ToCV RNA2序列拼接
ToCV-R440	CGACTGTCAGTACCAACTTGCTG	440	ToCV RNA2序列拼接
ToCV-F316	CGGAGACCCCATCATGTTAT	316	ToCV RNA2序列拼接
ToCV-R316	CCCAAGGACGAACAGACGGC	316	ToCV RNA2序列拼接
ToCV-F690	GGCATCCTAGAACTGTCAATGG	690	ToCV RNA2序列拼接
ToCV-R690	CCACCTGCCAAGGTTCTCTA	690	ToCV RNA2序列拼接
ToCV-F300	GGTGACGGTGGGGGATGTGG	300	ToCV RNA2序列拼接
ToCV-R300	TTCCGTCACCCGACGTAACG	300	ToCV RNA2序列拼接
ToCV-F403	CCAACCAATGACGGTGTTTC	403	ToCV RNA2序列拼接
ToCV-R403	GCCAACCTGTCAGGATACGC	403	ToCV RNA2序列拼接
ToCV-F688	GAGACGCCGGAGTTCCGCAC	688	ToCV RNA2序列拼接
ToCV-R688	CATAAGACGATACATCACCGCAC	688	ToCV RNA2序列拼接

病毒分离物	地理来源	寄主	GenBank登录号	相似性/%
ToCV-XS	中国	番茄	KY618797	93.3
ToCV-GD01	中国	番茄	KT962275	93.3
ToCV-TN11	中国	番茄	MF795557	93.2
ToCV-SDSG	中国	番茄	KC709510	80.6
ToCV-SH-SNU	中国	温室植物	MW490608	80.5
ToCV-BJ	中国	番茄	KC887999	80.5
ToCV-Nanjing	中国	番茄	KJ815045	80.4
ToCV-KGS	日本	番茄	LC711109	80.5
ToCV-Mie1806	日本	番茄	LC528263	80.6
ToCV-NS	韩国	番茄	MG813911	80.7
ToCV-HS	韩国	番茄	KP137099	80.5
ToCV_tomato_BR	巴西	番茄	MT673879	80.2
ToCV-BR	巴西	灯笼椒	MT279195	80.2
ToCV-Oleo	巴西	黄瓜	MN172420	80.4
ToCV-PAK2	巴基斯坦	番茄	MN869007	80.5
ToCV-DSMZ PV-1023	西班牙	番茄	OK058523	80.8
ToCV-P1-1-2	西班牙	番茄	KJ200309	80.5
ToCV- Kas	土耳其	番茄	KY419528	80.5
ToCV-Merkez	土耳其	番茄	KY419527	80.7
ToCV-Gr535	希腊	番茄	EU284744.1	80.4
ToCV- Florida	美国	番茄	AY903448	80.4

病毒分离物	地理来源	寄主	GenBank登录号	相似性/%
ToCV-XS	中国	番茄	KY618797	93.3
ToCV-GD01	中国	番茄	KT962275	93.3
ToCV-TN11	中国	番茄	MF795557	93.2
ToCV-SDSG	中国	番茄	KC709510	80.6
ToCV-SH-SNU	中国	温室植物	MW490608	80.5
ToCV-BJ	中国	番茄	KC887999	80.5
ToCV-Nanjing	中国	番茄	KJ815045	80.4
ToCV-KGS	日本	番茄	LC711109	80.5
ToCV-Mie1806	日本	番茄	LC528263	80.6
ToCV-NS	韩国	番茄	MG813911	80.7
ToCV-HS	韩国	番茄	KP137099	80.5
ToCV_tomato_BR	巴西	番茄	MT673879	80.2
ToCV-BR	巴西	灯笼椒	MT279195	80.2
ToCV-Oleo	巴西	黄瓜	MN172420	80.4
ToCV-PAK2	巴基斯坦	番茄	MN869007	80.5
ToCV-DSMZ PV-1023	西班牙	番茄	OK058523	80.8
ToCV-P1-1-2	西班牙	番茄	KJ200309	80.5
ToCV- Kas	土耳其	番茄	KY419528	80.5
ToCV-Merkez	土耳其	番茄	KY419527	80.7
ToCV-Gr535	希腊	番茄	EU284744.1	80.4
ToCV- Florida	美国	番茄	AY903448	80.4