Abstract:Virus-induced gene silencing (VIGS) has been widely used in plant gene functional analysis. In the present study, in order to obtain VIGS candidate Cucumber mosaic virus CMV strain, (CMV) pseudo-recombinants between RNA2 from different CMV strains and CMV Fny strain (CMV-Fny) RNA1 and RNA3 were researched. Results of pseudo-recombinants CMV infection indicated that CMV -F1Tsh2F3 consisting of CMV-Fny genomic RNA1, RNA3 and RNA2 of CMV-TshR2 induced slightly mosaic symptom on tabacco (Nicotiana benthamiana), while the other CMV pseudo-recombinants caused host plants to produce stunt or leaf curf at 7 days post-inoculation(dpi). In order to obtain the Agrobacterium-mediated CMV infectious cDNA clones, genomic RNA1~3 of CMV was cloned into binary expression vector pCB301. Agro-infiltration results of CMV infectious clones under the control of duplicated Cauliflower mosaic virus 35S promoter indicated that the pCB301-CMV phenotype on the host plants was identical to that induced by CMV in vitro trancripts RNAs. The seedlings of N. bethamiana could be infected by pCB301-F1Tsh2VIGSF3 systematically and expressed slightly mosaic symptom at 7 dpi, even though F1Tsh2VIGSF3 lacking 3' end 95 nucleotides of 2b gene. Western blot results indicated that coat protein (CP) of pCB301-F1Tsh2VIGSF3 was lower than that of pCB301-F1Tsh2F3. Chlorosis and yellowing symptom appeared on the whole N. benthamiana plants infected by pCB301-F1TshR2VIGS-Su351F3 at 10 dpi, and qRT-PCR analysis showed that the magnesium chelatase subunit gene of Sulphur mRNA levle of host plants was reduced by more than 80% compared with the CMV-infected control. Chlorosis and yellowing symptom on N. benthamiana induced by inoculation of 3 or 5 passages F1TshR2VIGS-Su351F3 was the same as that caused by infection with pCB301-F1TshR2VIGS-Su351F3, and so CMV-F1TshR2VIGS-Su351F3 existed stably in the host plants. In order to confirm whether CMV-VIGS could knock down other plant functional genes, the seedlings of N.tabacum cv. Xanthi NN was infiltrated with pCB301-F1TshR2VIGS-Beclinl337F3. The data suggested that the upper leaves on autophagy related gene of Beclin1-silenced hosts infected by Tobacco mosaic virus(TMV) produced necrosis symptom, and the Beclin1 mRNA levle of hosts infected by pCB301-F1TshR2VIGS-Beclinl337F3 was reduced by 70% compared with the control plants. Agrobacterium-mediated infectious cDNA clones of CMV and its VIGS vector supply a foundation for constructing CMV-VIGS vector in other host plants.
[1]Baulcombe David.RNA silencing in plants[J].Nature, 2004, 431(7006):356-363[2]Burch-Smith Tessa M, Anderson Jeffrey C, Martin Gregory B, Dinesh-Kumar S P.Applications and advantages of virus-induced gene silencing for gene function studies in plants[J].The Plant journal : for cell and molecular biology, 2004, 39(5):734-746[3]ChangJun Huang, YaJuan Qian, ZhengHe Li, XuePing Zhou.Virus-induced gene silencing and its application in plant functional genomics[J].Science China Life sciences, 2012, 55(2):99-108[4] Palukaitis P, García-Arenal F.Cucumoviruses[M]. Adv Virus Res, 2003, 62:241-323[5]廖乾生, 杜志游, 张华荣, 朱丽萍, 吴鹏, 陈集双.黄瓜花叶病毒株系引起心叶烟坏死反应与相关[J].生物化学与生物物理进展, 2007, 34(8):824-829[6]Liao QianSheng, Du ZhiYou, Zhang HuaRong, Zhu LiPing, Wu Peng, Chen JiShuang.Necrosis pathotype induced on Nicotiana glutinosa by infection of CMV-CB7 related to RNA2[J].Progress in Biochemistry and Biophysics, 2007, 34(8):824-829[7]Diaz-Pendon Juan A, Li Feng, Li Wan-Xiang, Ding Shou-Wei.Suppression of antiviral silencing by cucumber mosaic virus 2b protein in Arabidopsis is associated with drastically reduced accumulation of three classes of viral small interfering RNAs[J].The Plant cell, 2007, 19(6):2053-2063[8]Wang Xian-Bing, Jovel Juan, Udomporn Petchthai, Wang Ying, Wu Qingfa, Li Wan-Xiang, Gasciolli Virginie, Vaucheret Herve, Ding Shou-Wei.The 21-nucleotide,but not 22-nucleotide,viral secondary small interfering RNAs direct potent antiviral defense by two cooperative argonautes in Arabidopsis thaliana [J][J].The Plant cell, 2011, 23(4):1625-1638[9]Mathew Lewsey, Monique Surette, Fiona C Robertson, Heiko Ziebell, Sun Hee Choi, Ki Hyun Ryu, Tomas Canto, Peter Palukaitis, Tina Payne, John A Walsh, John P Car.The role of the Cucumber mosaic virus 2b protein in viral movement and symptom induction[J].Molecular plant-microbe interactions, 2009, 22(6):642-654[10]Shungo Otagaki, Makoto Arai, Akiko Takahashi, Kazunori Goto, Jin-Sung Hong,.Rapid induction of transcriptional and post-transcriptional gene silencing using a novel Cucumber mosaic virus vector[J].Plant Biotechnol, 2006, 23(1):259-265[11]Kanazawa Akira, Inaba Jun-Ichi, Shimura Hanako, Otagaki Shungo, Tsukahara Sayuri, Matsuzawa Akihiko, Kim Bo Min, Goto Kazunori, Masuta Chikara.Kanazawa Akira, Inaba Jun-Ichi, Shimura Hanako, Otagaki Shungo, Tsukahara Sayuri, Matsuzawa Akihiko, Kim Bo Min, Goto Kazunori, Masuta Chikara. Virus-mediated efficient induction of epigenetic modifications of endogenous genes with phenotypic changes in plants[J].The Plant journal, 2011, 65(1):156-168[12]Kanazawa Akira, Inaba Jun-Ichi, Shimura Hanako, Otagaki Shungo, Tsukahara Sayuri, Matsuzawa Akihiko, Kim Bo Min, Goto Kazunori, Masuta Chikara.Virus-mediated efficient induction of epigenetic modifications of endogenous genes with phenotypic changes in plants[J].The Plant journal, 2011, 65(1):156-168[13] 张震霄.基于黄瓜花叶病毒的病毒诱导基因沉默载体的构建[D].浙江:浙江理工大学生命科学学院, 2009.[14]Zhang Zhen Xiao.Construction of Cucumber mosaic virus based vector for virus-induced gene silencing[D].Zhejiang:College of Life Sciences Zhejiang SCI-Tech University, 2009.[15]刘妮娜, 程晓东, 卢 冉, 廖乾生.番茄坏死株系农杆菌侵染性克隆构建及其表达[J].农业生物技术学报, 2014, 22(8):1027-1034[16]Liu NiNa, Cheng XiaoDong, Lu Ran, Liao QianSheng.Construction of Agrobacterium-mediated infectious clone and its expression of Tomato mosaic virus (ToMV) Strain[J].Journal of Agricultural Biotechnology, 2014, 22(8):1027-1034[17]袁素敬, 梁余培, 陈勇毅, 章康健.高效表达蛋白的细胞模型的建立[J].浙江理工大学学报, 2013, 30(3):372-376[18]Yuan SuJing, LiangYuPei, ChenYongYi, Zhang KangJian.Establishment of A549 cell model expressing smad2 protein efficiently[J]. Journal of Zhejiang Science and Technology University. 2013, 30(3):372-376[J].浙江理工大学学报, 2013, 30(3):372-376[19]Liu Yule, Schiff Michael, Czymmek Kirk, Tallóczy Zsolt, Levine Beth, Dinesh-Kumar S P.Autophagy regulates programmed cell death during the plant innate immune response[J].Cell, 2005, 121(4):567-577[20]Burch-Smith Tessa M, Schiff Michael, Liu Yule, Dinesh-Kumar S P.Efficient virus-induced gene silencing in Arabidopsis[J].Plant physiology, 2006, 142(1):21-27[21] Dominique Robertson.VIGS vectors for gene silencing: many targets, many tools[J]. Annu Rev Plant Biol, 2004, 55:495-519.[J].Annu Rev Plant Biol, 2004, 55(1):495-519[22]Senthil-Kumar Muthappa, Mysore Kirankumar S.New dimensions for VIGS in plant functional genomics[J].Trends in plant science, 2011, 16(12):656-665[23] Hema Ramanna, Xin Shun Ding, Richard S Nelson.Rationale for developing new virus vectors to analyze gene function in grasses through virus-induced gene silencing[M]. Methods Mol Biol, 2013, 975:15-32[24]Bruun-Rasmussen Marianne, Madsen Christian Toft, Jessing Stine, Albrechtsen Merete.Stability of Barley stripe mosaic virus-induced gene silencing in barley[J].Molecular plant-microbe interactions, 2007, 20(11):1323-1331
