Ding SW, Voinnet O. Antiviral immunity directed by small RNAs[J]. Cell, 2007, 130(3):413-426.
[2]
Qu F, Ye X, Morris TJ. Arabidopsis DRB4, AGO1, AGO7, and RDR6 participate in a DCL4-initiated antiviral RNA silencing pathway negatively regulated by DCL1[J]. Proc Natl Acad Sci USA, 2008, 105(38):14732-14737.
[3]
Ramegowda V, Senthil-kumar M, Udayakumar M, et al. A high-throughput virus-induced gene silencing protocol identifies genes involved in multi-stress tolerance[J]. BMC Plant Biology, 2013, 13(12):193.
[4]
Senthil-Kumar M, Mysore KS. Virus-induced gene silencing can persist for more than 2 years and also be transmitted to progeny seedlings in Nicotiana benthamiana and tomato[J]. Plant Biotechnol J, 2011, 9(7):797-806.
[5]
Yang Y, Wu Y, Pirrello J, et al. Silencing Sl-EBF1 and Sl-EBF2 expression causes constitutive ethylene response phenotype, accelerated plant senescence, and fruit ripening in tomato[J]. J Exp Bot, 2010, 61(3):697-708.
[6]
Hsieh MH, Pan ZJ, Lai PH, et al. Virus-induced gene silencing unravels multiple transcription factors involved in floral growth and development in Phalaenopsis orchids[J]. J Exp Bot, 2013, 64(12):3869-3884.
[7]
Morales AMAP, O’Rourke JA, Mortel MVD, et al. Transcriptome analyses and virus induced gene silencing identify genes in the Rpp4-mediated Asian soybean rust resistance pathway[J]. Funct Plant Biol, 2013, 40(10):1029-1047.
[8]
Mantelin S, Peng HC, Li B, et al. The receptor-like kinase SlSERK1 is required for Mi-1-mediated resistance to potato aphids in tomato[J]. Plant J, 2011, 67(3):459-471.
[9]
Manmathan H, Shaner D, Snelling J, et al. Virus-induced gene silencing of Arabidopsis thaliana gene homologues in wheat identifies genes conferring improved drought tolerance[J]. J Exp Bot, 2013, 64(5):1381-1392.
[10]
Bao H, Chen XY, Lv SL, et al. Virus-induced gene silencing reveals control of reactive oxygen species accumulation and salt tolerance in tomato by γ-aminobutyric acid metabolic pathway[J]. Plant Cell Environ, 2015, 38(3):600-613.
[11]
Li C, Zhang ZC, Ghebremariam KM, et al. A novel method for the evaluation of virus-induced gene silencing efficiency[J]. Genet Mol Res, 2014, 13(4):9443-9452.
[12]
Yan HX, Fu DQ, Zhu BZ, et al. Sprout vacuum-infiltration:a simple and efficient agroinoculation method for virus-induced gene silencing in diverse solanaceous species[J]. Plant Cell Rep, 2012, 31(9):1713-1722.
[13]
Velásquez AC, Chakravarthy S, Martin GB. Virus-induced gene silencing(VIGS)in Nicotiana benthamiana and tomato[J]. J Vis Exp, 2009, 28:1292.
[14]
Liu Y, Schiff M, Marathe R, et al. Tobacco Rar1, EDS1 and NPR1/NIM1 like genes are required for N-mediated resistance to tobacco mosaic virus[J]. Plant J, 2002, 30(4):415-429.
[15]
Liu H, Fu D, Zhu B, et al. Virus-induced gene silencing in eggplant(Solanum melongena)[J]. J Integr Plant Biol, 2012, 54(6):422-429.
[16]
Holzberg S, Brosio P, Gross C, et al. Barley stripe mosaic virusinduced gene silencing in a monocot plant[J]. Plant J, 2002, 30(3):315-327.
[17]
Sasaki S, Yamagishi N, Yoshikawa N. Efficient virus-induced gene silencing in apple, pear and Japanese pear using Apple latent spherical virus vectors[J]. Plant Methods, 2011, 7(1):15.
[18]
Ahn CS, Pai HS. Physiological function of IspE, a plastid MEP pathway gene for isoprenoid biosynthesis, in organelle biogenesis and cell morphogenesis in Nicotiana benthamiana[J]. Plant Mol Biol, 2008, 66(5):503-517.
[19]
Kon T, Yoshikawa N. Induction and maintenance of DNA methylation in plant promoter sequences by apple latent spherical virus-induced transcriptional gene silencing[J]. Front Microbiol, 2014, 5:595.
[20]
Kanazawa A, Inaba J, Kasai M, et al. RNA-mediated epigenetic modifications of an endogenous gene targeted by a viral vector:a potent gene silencing system to produce a plant that does not carry a transgene but has altered traits[J]. Plant Signal Behav, 2011, 6(8):1090-1093.
[21]
Burch-Smith TM, Anderson JC, Martin GB, et al. Applications and advantages of virus-induced gene silencing for gene function studies in plants[J]. Plant J, 2004, 39(5):734-746.
[22]
Becker A, Lange M. VIGS-genomics goes functional[J]. Trends Plant Sci, 2010, 15(1):1-4.
[23]
Kumagai MH, Donson J, della-Cioppa G, et al. Cytoplasmic inhibition of carotenoid biosynthesis with virus-derived RNA[J]. Proc Natl Acad Sci USA, 1995, 92(5):1679-1683.
[24]
Liu Y, Schiff M, Dinesh-Kumar SP. Virus-induced gene silencing in tomato[J]. Plant J, 2002, 31(6):777-786.
[25]
Molnar A, Melnyk CW, Bassett A, et al. Small silencing RNAs in plants are mobile and direct epigenetic modification in recipient cells[J]. Science, 2010, 328(5980):872-875.
[26]
Vainstein A, Marton I, Zuker A, et al. Permanent genome modifications in plant cells by transient viral vectors[J]. Trends Biotechnol, 2011, 29(8):363-369.
[27]
Alvarado V, Scholthof HB. Plant responses against invasive nucleic acids:RNA silencing and its suppression by plant viral pathogens[J]. Semin Cell Dev Biol, 2009, 20(9):1032-1040.
[28]
Senthil-Kumar M, Anand A, Uppalapati SR, et al. Virus-induced gene silencing and its applications[J]. CAB Rev PAVSNNR, 2008, 3(11):1-18.
[29]
Lindbo JA, Silva-Rosales L, Proebsting WM, et al. Induction of a highly specific antiviral state in transgenic plants:implications for regulation of gene expression and virus resistance[J]. Plant Cell, 1993, 5(12):1749-1759.
[30]
Ruiz MT, Voinnet O, Baulcombe DC. Initiation and maintenance of virus-induced gene silencing[J]. Plant Cell, 1998, 10(6):937-946.
[31]
Llave C. Virus-derived small interfering RNAs at the core of plant-virus interactions[J]. Trends Plant Sci, 2010, 15(12):701-707.
[32]
Molnar A, Melnyk CW, Baulcombe DC. Silencing signals in plants:a long journey for small RNAs[J]. Genome Biol, 2011, 12(1):215.
[33]
Jones L, Hamilton AJ, Voinnet O, et al. RNA-DNA interactions and DNA methylation in post-transcriptional gene silencing[J]. Plant Cell, 1999, 11(12):2291-2301.
[34]
Donaire L, Barajas D, Martínez-García B, et al. Structural and genetic requirements for the biogenesis of Tobacco rattle virus-derived small interfering RNAs[J]. J Virol, 2008, 82(11):5167-5177.
[35]
Brodersen P, Sakvarelidze-Achard L, Bruun-Rasmussen M, et al. Widespread translational inhibition by plant miRNAs and siRNAs[J]. Science, 2008, 320(5880):1185-1190.
[36]
Scofield SR, Nelson RS. Resources for virus-induced gene silencing in the grasses[J]. Plant Physiol, 2009, 149:152-157.
[37]
Di Stilio VS. Empowering plant evo-devo:virus induced gene silencing validates new and emerging model systems[J]. Bioessays, 2011, 33(9):711-718.
[38]
Pacak A, Geisler K, J?rgensen B, et al. Investigations of Barley stripe mosaic virus as a gene silencing vector in barley roots and in Brachypodium distachyon and oat[J]. Plant Methods, 2010, 6:26.
[39]
Yuan C, Li C, Yan L, et al. A high throughput barley stripe mosaic virus vector for virus induced gene silencing in monocots and dicots[J]. PLoS One, 2011, 6(10):e26468.
[40]
Huang CJ, Qian YJ, Li ZH, et al. Virus-induced gene silencing and its application in plant functional genomics[J]. Sci China Life Sci, 2012, 55(2):99-108.
[41]
van der Linde K, Kastner C, Kumlehn J, et al. Systemic virus-induced gene silencing allows functional characterization of maize genes during biotrophic interaction with Ustilago maydis[J]. New Phytol, 2011, 189(2):471-483.
[42]
Kandoth PK, Heinz R, Yeckel G, et al. A virus-induced gene silencing method to study soybean cyst nematode parasitism in Glycine max[J]. BMC Res Notes, 2013, 6:255.
[43]
Ramegowda V, Mysore KS, Senthil-Kumar M. Virus-induced gene silencing is a versatile tool for unraveling the functional relevance of multiple abiotic-stress-responsive genes in crop plants[J]. Front Plant Sci, 2014, 5:323.
[44]
Broderick SR, Jones ML. An optimized protocol to increase virus-induced gene silencing efficiency and minimize viral symptoms in Petunia[J]. Plant Mol Biol Rep, 2014, 32(1):219-233.
[45]
Vaghchhipawala Z, Rojas CM, Senthil-Kumar M, et al. Agroinoculation and Agroinfiltration:simple tools for complex gene function analyses[J]. Methods Mol Biol, 2011, 678:65-76.
[46]
Anand A, Vaghchhipawala Z, Ryu CM, et al. Identification and characterization of plant genes involved in Agrobacterium-mediated plant transformation by virus-induced gene silencing[J]. Mol Plant Microbe Interact, 2007, 20(1):41-52.
[47]
Todd AT, Liu E, Polvi SL, et al. A functional genomics screen identifies diverse transcription factors that regulate alkaloid biosynthesis in Nicotiana benthamiana[J]. Plant J, 2010, 62(4):589-600.
[48]
Unver T, Budak H. Virus-induced gene silencing, a post transcriptional gene silencing method[J]. Int J Plant Genomics, 2009, 198680.
[49]
Liou MR, Huang YW, Hu CC, et al. A dual gene-silencing vector system for monocot and dicot plants[J]. Plant Biotechnol J, 2014, 12(3):330-343.
[50]
Yamagishi N, Yoshikawa N. Virus-induced gene silencing in soybean seeds and the emergence stage of soybean plants with Apple latent spherical virus vectors[J]. Plant Mol Biol, 2009, 71(1-2):15-24.
[51]
Bruun-Rasmussen M, Madsen CT, Jessing S, et al. Stability of Barley stripe mosaic virus-induced gene silencing in barley[J]. Mol Plant Microbe Interact, 2007, 20(11):1323-1331.
[52]
Renner T, Bragg J, Driscoll HE, et al. Virus-induced gene silencing in the culinary ginger(Zingiber officinale):an effective mechanism for down-regulating gene expression in tropical monocots[J]. Mol Plant, 2009, 2(5):1084-1094.
[53]
Senthil-Kumar M, Mysore KS. New dimensions for VIGS in plant functional genomics[J]. Trends Plant Sci, 2011, 16(12):656-665.
[54]
Kanazawa A, Inaba J, Shimura H, et al. Virus-mediated efficient induction of epigenetic modifications of endogenous gene with phenotypic changes in plants[J]. Plant J, 2011, 65(1):156-168.
[55]
Nagamatsu A, Masuta C, Senda M, et al. Functional analysis of soybean genes involved in flavonoid biosynthesis by virus-induced gene silencing[J]. Plant Biotechnol J, 2007, 5(6):778-790.
