Abstract
The Cucumber mosaic virus (CMV) 2b protein has multiple activities as a viral suppressor of RNA silencing (VSR). Here, we characterized the 2b protein (IA2b) of a CMV-IA isolate. This IA2b protein has two nuclear localization signals, and when it was fused with GFP, the protein was found to be preferentially localized in the nucleus. A transgenic tobacco line, 2b8, expressing the IA2b gene showed an enhanced expression of an agroinfiltrated sense transgene, which indicated that IA2b has VSR activity. When 2b8 plants were crossed with plants showing sense-transgene-induced post-transcriptional gene silencing (S-PTGS), the IA2b protein caused the disappearance of small interfering RNAs (siRNAs) and the S-PTGS phenotype was converted to the overexpression phenotype. When 2b8 plants were crossed with plants showing inverted repeat-induced post-transcriptional gene silencing (IR-PTGS), the IA2b protein did not suppress the accumulation of siRNAs processed from hairpin RNAs and the silencing phenotype was maintained. When a tobacco plant showing an overexpressed phenotype of a sense transgene was crossed with IR-PTGS plants targeting the same transgene, the primary siRNAs that were produced by the IR-PTGS construct triggered the production of the secondary siRNAs through the RNA-dependent RNA polymerase6 (RDR6)-dependent pathway. The IA2b protein suppressed the secondary siRNA formation but not the primary siRNA production from hairpin RNAs, resulting in the silencing phenotype from IR-PTGS being maintained. These results indicate that IA2b suppresses RDR6-dependent siRNA production and does not interfere with the silencing step by siRNA-guided RNA degradation.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Baumberger N, Baulcombe DC (2005) Arabidopsis ARGONAUTE1 is an RNA slicer that selectively recruits microRNAs and short interfering RNAs. Proc Natl Acad Sci USA 102:11928–11933
Chen HY, Yang J, Lin C, Yuan YA (2008) Structural basis for RNA-silencing suppression by Tomato aspermy virus protein 2b. EMBO Rep 9:754–760
Chuang CF, Meyerowitz EM (2000) Specific and heritable genetic interference by double-stranded RNA in Arabidopsis thaliana. Proc Natl Acad Sci U S A 97:4985–4990
Csorba T, Kontra L, Burgyán J (2015) Viral silencing suppressors: tools forged to fine-tune host-pathogen coexistence. Virology 479–480:85–103
Curaba J, Chen X (2008) Biochemical activities of Arabidopsis RNA-dependent RNA polymerase6. J Biol Chem 283:3059–3066
Devert A, Fabre N, Floris M, Canard B, Robaglia C, Crété P (2015) Primer-dependent and primer-independent initiation of double stranded RNA synthesis by purified Arabidopsis RNA-dependent RNA polymerases RDR2 and RDR6. PLoS One 10:e0120100
Dong K, Wang Y, Zhang Z, Chai LX, Tong X, Xu J, Li D, Wang XB (2016) Two amino acids near the N-terminus of Cucumber mosaic virus 2b play critical roles in the suppression of RNA silencing and viral infectivity. Mol Plant Pathol 17:173–183
Du ZY, Chen FF, Liao QS, Zhang HR, Chen YF, Chen JS (2007) 2b ORFs encoded by subgroup IB strains of cucumber mosaic virus induce differential virulence on Nicotiana species. J Gen Virol 88:2596–2604
Du Z, Chen A, Chen W, Liao Q, Zhang H, Bao Y, Roossinck MJ, Carr JP (2014) Nuclear-cytoplasmic partitioning of Cucumber mosaic virus protein 2b determines the balance between its roles as avirulence determinant and an RNA-silencing suppressor. J Virol 88:5228–5241
Duan CG, Fang YY, Zhou BJ, Zhao JH, Hou WN, Zhu H, Ding SW, Guo HS (2012) Suppression of Arabidopsis ARGONAUTE1-mediated slicing, transgene-induced RNA silencing, and DNA methylation by distinct domains of the Cucumber mosaic virus 2b protein. Plant Cell 24:259–274
Fang YY, Zhao JH, Liu SW, Wang S, Duan CG, Guo HS (2016) CMV2b-AGO interaction is required for the suppression of RDR-dependent antiviral silencing in Arabidopsis. Front Microbiol 7:1329
Gazzani S, Lawrenson T, Woodward C, Headon D, Sablowski R (2004) A link between mRNA turnover and RNA interference in Arabidopsis. Science 306:1046–1048
González I, Matínez L, Rakitina DV, Lewsey MG, Atencio FA, Llave C, Kalinina NO, Carr JP, Palukaitis P, Canto T (2010) Cucumber mosaic virus 2b protein subcellular targets and interactions: their significance to RNA silencing suppressor activity. Mol Plant Microbe Interact 23:294–303
González I, Rakitina D, Semashko M, Taliansky M, Praveen S, Palukaitis P, Carr JP, Kalinina N, Canto T (2012) RNA binding is more critical to the suppression of silencing function of Cucumber mosaic virus 2b protein than nuclear localization. RNA 18:771–782
Goto K, Kobori T, Kosaka Y, Natsuaki T, Masuta C (2007) Characterization of silencing suppressor 2b of Cucumber mosaic virus based on examination of its small RNA-binding abilities. Plant Cell Physiol 48:1050–1060
Hamada T, Kodama H, Takeshita K, Utsumi H, Iba K (1998) Characterization of transgenic tobacco with an increased α-linolenic acid level. Plant Physiol 118:591–598
Hamera S, Song X, Su L, Chen X, Fang R (2011) Cucumber mosaic virus suppressor 2b binds to AGO4-related small RNAs and impairs AGO4 activity. Plant J 69:104–115
Harvey JJW, Lewsey MG, Patel K, Westwood J, Heimstädt S, Carr JP, Baulcombe DC (2011) An antiviral defense role of AGO2 in plants. PLoS One 6:e14639
Herr AJ, Molnàr A, Jones A, Baulcombe DC (2006) Defective RNA processing enhances RNA silencing and influences flowering of Arabidopsis. Proc Natl Acad Sci U S A 103:14994–15001
Hirai S, Oka S, Adachi E, Kodama H (2007) The effects of spacer sequences on silencing efficiency of plant RNAi vectors. Plant Cell Rep 26:651–659
Hirai S, Takahashi K, Abiko T, Kodama H (2010) Loss of sense-transgene induced gene silencing by sequential introduction of the same transgene sequences in tobacco. FEBS J 277:1695–1703
Ho T, Wang H, Pallett D, Dalmay T (2007) Evidence for targeting common siRNA hotspots and GC preference by plant Dicer-like proteins. FEBS Lett 581:3267–3272
Inaba J, Kim BM, Shimura H, Masuta C (2011) Virus-induced necrosis is a consequence of direct protein-protein interaction between a viral RNA-silencing suppressor and a host catalase. Plant Physiol 156:2026–2036
Johansen W, Wilson RC (2008) Viral suppressor proteins show varying abilities and effectiveness to suppress transgene-induced post-transcriptional gene silencing of endogenous Chalcone synthase in transgenic Arabidopsis. Plant Cell Rep 27:911–921
Jouannet V, Moreno AB, Elmayan T, Vaucheret H, Crespi MD, Maizel A (2012) Cytoplasmic Arabidopsis AGO7 accumulates in membrane-associated siRNA bodies and is required for ta-siRNA biogenesis. EMBO J 31:1704–1713
Klahre U, Crété P, Leuenberger SA, Iglesias VA, Meins F Jr (2002) High molecular weight RNAs and small interfering RNAs induce systemic posttranscriptional gene silencing in plants. Proc Natl Acad Sci USA 99:11981–11986
Kodama H, Hamada T, Horiguchi G, Nishimura M, Iba K (1994) Genetic enhancement of cold tolerance by expression of a gene for chloroplast ω-3 fatty acid desaturase in transgenic tobacco. Plant Physiol 105:601–605
Kumakura N, Takeda A, Fujioka Y, Motose H, Takano R, Watanabe Y (2009) SGS3 and RDR6 interact and colocalize in cytoplasmic SGS3/RDR6-bodies. FEBS Lett 583:1261–1266
Lewsey M, Robertson FC, Canto T, Palukaitis P, Carr JP (2007) Selective targeting of miRNA-regulated plant development by a viral counter-silencing protein. Plant J 50:240–252
Li HW, Lucy AP, Guo HS, Li WX, Ji LH, Wong SM, Ding SW (1999) Strong host resistance targeted against a viral suppressor of the plant gene silencing defence mechanism. EMBO J 18:2683–2691
Lucy AP, Guo HS, Li WX, Ding SW (2000) Suppression of post-transcriptional gene silencing by a plant viral protein localized in the nucleus. EMBO J 19:1672–1680
Maneechoat P, Takeshita M, Uenoyama M, Nakatsukasa M, Kuroda A, Furuya N, Tsuchiya K (2015) A single amino acid at N-terminal region of the 2b protein of cucumber mosaic virus strain m1 has a pivotal role in virus attenuation. Virus Res 197:67–74
Mlotshwa S, Pruss GJ, Peragine A, Endres MW, Li J, Chen X, Poethig RS, Bowman LH, Vance V (2008) DICER-LIKE2 plays a primary role in transitive silencing of transgenes in Arabidopsis. PLoS One 3:e1755
Mourrain P, Béclin C, Elmayan T, Feuerbach F, Godon C, Morel J, Jouette D, Lacombe A, Nikic S, Picault N, Rémoué K, Sanial M, Vo T, Vaucheret H (2000) Arabidopsis SGS2 and SGS3 genes are required for posttranscriptional gene silencing and natural virus resistance. Cell 101:533–542
Nakamura H, Shin MR, Fukagawa T, Arita M, Mikami T, Kodama H (2014) A tobacco calmodulin-related protein suppresses sense transgene-induced RNA silencing but not inverted repeat-induced RNA silencing. Plant Cell Tissue Organ Cult 116:47–53
Napoli C, Lemieux C, Jorgensen R (1990) Introduction of a chimeric chalcone synthase gene into Petunia results in reversible co-suppression of homologous genes in trans. Plant Cell 2:279–289
Nemes K, Gellért Á, Balázs E, Salánki K (2014) Alanine scanning of Cucumber mosaic virus (CMV) 2B protein identifies different positions for cell-to-cell movement and gene silencing suppressor activity. PLoS One 9:e11209
Nishiuchi T, Nakamura T, Abe T, Kodama H, Nishumura M, Iba K (1995) Tissue-specific and light-responsive regulation of the promoter region of the Arabidopsis thaliana chloroplast ω-3 fatty acid desaturase gene (FAD7). Plant Mol Biol 29:599–609
Niwa Y (2003) A synthetic green fluorescence protein gene for plant biotechnology. Plant Biotechnol 20:1–11
Oka S, Hirai S, Choi KS, Kodama H (2008) Preferential spreading of RNA silencing into the 3′ downstream region of the transgene in tobacco. J Plant Biol 51:227–232
Ow DW, Wood KV, DeLuca M, de Wet JR, Helinski DR, Howell SH (1986) Transient and stable expression of the firefly luciferase gene in plant cells and transgenic plants. Science 234:856–859
Qi Y, Zhong X, Itaya A, Ding B (2004) Dissecting RNA silencing in protoplasts uncovers novel effects of viral suppressors on the silencing pathway at the cellular level. Nucleic Acids Res 32:e179
Qu F, Ye X, Hou G, Sato S, Clemente TE, Morris TJ (2005) RDR6 has a broad-spectrum but temperature-dependent antiviral defense role in Nicotiana benthamiana. J Virol 79:15209–15217
Roossinck MJ (2002) Evolutionary history of Cucumber mosaic virus deduced by phylogenetic analyses. J Virol 76:3382–3387
Shen WX, Au PCK, Shi BJ, Smith NA, Dennis ES, Guo HS, Zhou CY, Wang MB (2015) Satellite RNAs interfere with the function of viral RNA silencing suppressors. Front Plant Sci 6:281
Shi BJ, Palukaitis P, Symons RH (2002) Differential virulence by strains of Cucumber mosaic virus is mediated by the 2b gene. Mol Plant Microbe Interact 15:947–955
Shimamura K, Oka S, Shimotori Y, Ohmori T, Kodama H (2007) Generation of secondary small interfering RNA in cell-autonomous and non-cell autonomous RNA silencing in tobacco. Plant Mol Biol 63:803–813
Shin MR, Natsuume M, Matsumoto T, Hanaoka M, Imai M, Iijima K, Oka S, Adachi E, Kodama H (2014) Sense transgene-induced post-transcriptional gene silencing in tobacco compromises the splicing of endogenous counterpart genes. PLoS One 9:e87869
Tomita R, Hamada T, Horiguchi G, Iba K, Kodama H (2004) Transgene overexpression with cognate small interfering RNA in tobacco. FEBS Lett 573:117–120
Vaistij FE, Jones L, Baulcombe DC (2002) Spreading of RNA targeting and DNA methylation in RNA silencing requires transcription of the target gene and a putative RNA-dependent RNA polymerase. Plant Cell 14:857–867
van der Krol AR, Mur LA, Beld M, Mol JNM, Stuitje AR (1990) Flavonoid genes in petunia: addition of a limited number of gene copies may lead to a suppression of a gene expression. Plant Cell 2:291–299
Wang Y, Tzfira T, Gaba V, Citovsky V, Palukaitis P, Gal-On A (2004) Functional analysis of the Cucumber mosaic virus 2b protein: pathogenicity and nuclear localization. J Gen Virol 85:3135–3147
Wang XB, Wu Q, Ito T, Cillo F, Li WX, Chen X, Yu JL, Ding SW (2009) RNAi-mediated viral immunity requires amplification of virus-derived siRNAs in Arabidopsis thaliana. Proc Natl Acad Sci U S A 107:484–489
Wang XB, Jovel J, Udomporn P, Wang Y, Wu Q, Li WX, Gasciolli V, Vaucheret H, Ding SW (2011) The 21-nucleotide, but not 22-nucleotide, viral secondary small interfering RNAs direct potent antiviral defense by two cooperative argonautes in Arabidopsis thaliana. Plant Cell 23:1625–1638
Ye J, Qu J, Zhang JF, Geng YF, Fang RX (2009) A critical domain of Cucumber mosaic virus 2b protein for RNA silencing suppressor activity. FEBS Lett 583:101–106
Yoshikawa M, Peragine A, Park MY, Poethig RS (2005) A pathway for the biogenesis of trans-acting siRNAs in Arabidopsis. Gene Dev 19:2164–2175
Zhang X, Yuan YR, Lin SS, Tuschl T, Patel DJ, Chua NH (2006) Cucumber mosaic virus-encoded 2b suppressor inhibits Arabidopsis Argonaute1 cleavage activity to counter plant defense. Genes Dev 20:3255–3268
Acknowledgements
The authors are grateful to Drs. Keiko T. Natsuaki and Yasuo Niwa for the provision of the IA2b cDNA and sGFP clones, respectively.
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
The Ethical Statement
The authors fully comply with the ethical standards. This research did not involve human participants or animals.
Conflict of Interest
The authors declare that they have no competing interests.
Electronic Supplementary Material
Below is the link to the electronic supplementary material.
ESM 1
(DOC 661 kb)
Rights and permissions
About this article
Cite this article
Koizumi, M., Shimotori, Y., Saeki, Y. et al. Effects of the 2b Protein of Cucumber mosaic virus Subgroup IB Strain IA on Different Transgene-Induced RNA Silencing Pathways. Plant Mol Biol Rep 35, 265–272 (2017). https://doi.org/10.1007/s11105-016-1020-0
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11105-016-1020-0