tenuivirus

Summary

Summary: A genus of RNA plant viruses as yet unassigned to any family. Plant hosts are all in the family Poaceae. Each species is transmitted by a particular species of planthopper. The type species is Rice stripe virus.

Top Publications

  1. Yang X, Tan S, Teh Y, Yuan Y. Structural implications into dsRNA binding and RNA silencing suppression by NS3 protein of Rice Hoja Blanca Tenuivirus. RNA. 2011;17:903-11 pubmed publisher
    Rice Hoja Blanca Tenuivirus (RHBV), a negative strand RNA virus, has been identified to infect rice and is widely transmitted by the insect vector...
  2. Kang L, Ma X, Cai L, Liao S, Sun L, Zhu H, et al. Superinfection of Laodelphax striatellus with Wolbachia from Drosophila simulans. Heredity (Edinb). 2003;90:71-6 pubmed
    ..This study implies a novel way to generate insect lines capable of driving desired genes into Wolbachia-infected populations to start population replacement...
  3. Du P, Wu J, Zhang J, Zhao S, Zheng H, Gao G, et al. Viral infection induces expression of novel phased microRNAs from conserved cellular microRNA precursors. PLoS Pathog. 2011;7:e1002176 pubmed publisher
  4. Jiang L, Qian D, Zheng H, Meng L, Chen J, Le W, et al. RNA-dependent RNA polymerase 6 of rice (Oryza sativa) plays role in host defense against negative-strand RNA virus, Rice stripe virus. Virus Res. 2012;163:512-9 pubmed publisher
  5. Yao M, Zhang T, Zhou T, Zhou Y, Zhou X, Tao X. Repetitive prime-and-realign mechanism converts short capped RNA leaders into longer ones that may be more suitable for elongation during rice stripe virus transcription initiation. J Gen Virol. 2012;93:194-202 pubmed publisher
  6. Xiong R, Wu J, Zhou Y, Zhou X. Identification of a movement protein of the tenuivirus rice stripe virus. J Virol. 2008;82:12304-11 pubmed publisher
    Rice stripe virus (RSV) is the type member of the genus Tenuivirus. RSV has four single-stranded RNAs and causes severe disease in rice fields in different parts of China...
  7. Xiong R, Wu J, Zhou Y, Zhou X. Characterization and subcellular localization of an RNA silencing suppressor encoded by Rice stripe tenuivirus. Virology. 2009;387:29-40 pubmed publisher
    Rice stripe virus (RSV) is a single-stranded (ss) RNA virus belonging to the genus Tenuivirus. RSV is present in many East Asian countries and causes severe diseases in rice fields, especially in China...
  8. Yan F, Zhang H, Adams M, Yang J, Peng J, Antoniw J, et al. Characterization of siRNAs derived from rice stripe virus in infected rice plants by deep sequencing. Arch Virol. 2010;155:935-40 pubmed publisher
    ..Here, we characterized siRNAs derived from rice stripe virus (RSV), a member of the genus Tenuivirus with four genomic RNAs and an ambisense coding strategy...
  9. Liang D, Qu Z, Ma X, Hull R. Detection and localization of Rice stripe virus gene products in vivo. Virus Genes. 2005;31:211-21 pubmed
    The genome of the Tenuivirus, Rice stripe virus (RSV) comprises four RNAs, the smallest three of which each contain two open reading frames (ORFs) arranged in an ambisense manner...

More Information

Publications81

  1. Du Z, Xiao D, Wu J, Jia D, Yuan Z, Liu Y, et al. p2 of rice stripe virus (RSV) interacts with OsSGS3 and is a silencing suppressor. Mol Plant Pathol. 2011;12:808-14 pubmed publisher
    ..Five genes that have been demonstrated to be targets of TAS3-derived ta-siRNAs were up-regulated in RSV-infected rice. The implications of these findings are discussed...
  2. Xu Y, Huang L, Fu S, Wu J, Zhou X. Population diversity of rice stripe virus-derived siRNAs in three different hosts and RNAi-based antiviral immunity in Laodelphgax striatellus. PLoS ONE. 2012;7:e46238 pubmed publisher
    ..striatellus. We propose that a common small RNA-mediated virus defense mechanism exists in both helipterum insects and plants, but the vsiRNAs are generated differentially in different hosts...
  3. Ma Y, Wu W, Chen H, Liu Q, Jia D, Mao Q, et al. An insect cell line derived from the small brown planthopper supports replication of rice stripe virus, a tenuivirus. J Gen Virol. 2013;94:1421-5 pubmed publisher
    ..planthopper (SBPH; Laodelphax striatellus) was established to study replication of rice stripe virus (RSV), a tenuivirus. The SBPH cell line, which had been subcultured through 30 passages, formed monolayers of epithelial-like cells...
  4. Li S, Xiong R, Wang X, Zhou Y. Five proteins of Laodelphax striatellus are potentially involved in the interactions between rice stripe virus and vector. PLoS ONE. 2011;6:e26585 pubmed publisher
    Rice stripe virus (RSV) is the type member of the genus Tenuivirus, which relies on the small brown planthopper (Laodelphax striatellus Fallén) for its transmission in a persistent, circulative-propagative manner...
  5. Takahashi M, Goto C, Ishikawa K, Matsuda I, Toriyama S, Tsuchiya K. Rice stripe virus 23.9 K protein aggregates and forms inclusion bodies in cultured insect cells and virus-infected plant cells. Arch Virol. 2003;148:2167-79 pubmed
    The genome of Rice stripe virus (RSV, genus Tenuivirus) contains seven open reading frames (ORFs). Little is known about the products of four of these ORFs, including the 23.9 K protein encoded by the virus-sense ORF of RNA3...
  6. Zhang C, Pei X, Wang Z, Jia S, Guo S, Zhang Y, et al. The Rice stripe virus pc4 functions in movement and foliar necrosis expression in Nicotiana benthamiana. Virology. 2012;425:113-21 pubmed publisher
    ..The overall data suggested manifold roles of the pc4 during the RSV infection in its experimental host N. benthamiana...
  7. Li S, Li X, Sun L, Zhou Y. Analysis of rice stripe virus whole-gene expression in rice and in the small brown planthopper by real-time quantitative PCR. Acta Virol. 2012;56:75-9 pubmed
    Rice stripe virus (RSV) is a typical member of the Tenuivirus genus, which is transmitted mainly by the small brown planthopper (SBPH) in a persistent, circulative-propagative manner...
  8. Yuan Z, Chen H, Chen Q, Omura T, Xie L, Wu Z, et al. The early secretory pathway and an actin-myosin VIII motility system are required for plasmodesmatal localization of the NSvc4 protein of Rice stripe virus. Virus Res. 2011;159:62-8 pubmed publisher
    ..Taken together, our data reveal that the targeting of NSvc4 to PD exploits the early secretory pathway and the actin-myosin VIII motility system in the leaves of a non-host plant, N. benthamiana...
  9. Zhang F, Guo H, Zheng H, Zhou T, Zhou Y, Wang S, et al. Massively parallel pyrosequencing-based transcriptome analyses of small brown planthopper (Laodelphax striatellus), a vector insect transmitting rice stripe virus (RSV). BMC Genomics. 2010;11:303 pubmed publisher
    ..To investigate its transcriptome and determine the differences between viruliferous and naïve L. striatellus, we employed 454-FLX high-throughput pyrosequencing to generate EST databases of this insect...
  10. Chomchan P, Li S, Shirako Y. Rice grassy stunt tenuivirus nonstructural protein p5 interacts with itself to form oligomeric complexes in vitro and in vivo. J Virol. 2003;77:769-75 pubmed
    We investigated the interaction of Rice grassy stunt tenuivirus (RGSV) nonstructural protein p5, a protein of 22 kDa encoded on vRNA 5, with all 12 RGSV proteins by using a GAL4 transcription activator-based yeast two-hybrid system...
  11. Hemmes H, Lakatos L, Goldbach R, Burgy n J, Prins M. The NS3 protein of Rice hoja blanca tenuivirus suppresses RNA silencing in plant and insect hosts by efficiently binding both siRNAs and miRNAs. RNA. 2007;13:1079-89 pubmed publisher
    ..Negative strand RNA viruses such as the plant virus Rice hoja blanca tenuivirus (RHBV) replicate in plants and in their insect transmission vector...
  12. Wei T, Yang J, Liao F, Liao F, Gao F, Lu L, et al. Genetic diversity and population structure of rice stripe virus in China. J Gen Virol. 2009;90:1025-34 pubmed publisher
    ..Our data suggest that the most recent outbreak of RSV in eastern China was not due to the invasion of new RSV subtype(s). The evolutionary processes contributing to the observed genetic diversity and population structure are discussed...
  13. Zhang C, Liu X, Wu K, Zheng L, Ding Z, Li F, et al. Rice grassy stunt virus nonstructural protein p5 serves as a viral suppressor of RNA silencing and interacts with nonstructural protein p3. Arch Virol. 2015;160:2769-79 pubmed publisher
    Rice grassy stunt virus (RGSV), a member of the genus Tenuivirus, causes serious rice disease in Southeast Asian countries...
  14. Jimenez J, Carvajal Yepes M, Leiva A, Cruz M, Romero L, Bolaños C, et al. Complete Genome Sequence of Rice hoja blanca tenuivirus Isolated from a Susceptible Rice Cultivar in Colombia. Genome Announc. 2018;6: pubmed publisher
    We describe here the complete genome of Rice hoja blanca tenuivirus The sequenced isolate was obtained by insect vector transmission from a symptomatic rice sample grown in Colombia...
  15. Liu W, Gray S, Huo Y, Li L, Wei T, Wang X. Proteomic Analysis of Interaction between a Plant Virus and Its Vector Insect Reveals New Functions of Hemipteran Cuticular Protein. Mol Cell Proteomics. 2015;14:2229-42 pubmed publisher
    ..used the yeast two-hybrid system to study proteomic interactions of a plant virus (Rice stripe virus, RSV, genus Tenuivirus) with its vector insect, small brown planthopper (Laodelphax striatellus). Sixty-six proteins of L...
  16. Munoz M, Bolaños I, Arrieta Espinoza G, Espinoza A. Expression of the rice hoja blanca virus (RHBV) non-structural protein 3 (NS3) in Escherichia coli and its in situ localization in RHBV-infected rice tissues. Rev Biol Trop. 2004;52:765-75 pubmed
  17. Zhao S, Zhang G, Dai X, Hou Y, Li M, Liang J, et al. Processing and intracellular localization of rice stripe virus Pc2 protein in insect cells. Virology. 2012;429:148-54 pubmed publisher
    Rice stripe virus (RSV) belongs to the genus Tenuivirus and its genome consists of four single-stranded RNAs encoding seven proteins. Here, we have analyzed the processing and membrane association of Pc2 encoded by vcRNA2 in insect cells...
  18. Wang B, Jiang L, Zhang Y, Zhang W, Wang Q, Liu S, et al. Genetic dissection of the resistance to Rice stripe virus present in the indica rice cultivar 'IR24'. Genome. 2011;54:611-9 pubmed publisher
    ..6-kb region. The de novo markers developed for this purpose will be useful as marker-assisted selection tools in efforts to introduce qSTV11-i into breeding programmes aiming to improve the level of RSV resistance. ..
  19. Satoh K, Kondoh H, Sasaya T, Shimizu T, Choi I, Omura T, et al. Selective modification of rice (Oryza sativa) gene expression by rice stripe virus infection. J Gen Virol. 2010;91:294-305 pubmed publisher
  20. Xiong G, Liu X, Qiu P, Wu X, Du Z, Zhang J, et al. Rice grassy stunt virus p5 interacts with two protein components of the plant-specific CBL-CIPK Ca+2 signaling network of rice. Virus Genes. 2017;53:446-453 pubmed publisher
    Rice grassy stunt virus (RGSV) is a tenuivirus posing a threat to rice production in many South, Southeast, and East Asian countries. To date, no host factor interacting with RGSV has been reported...
  21. Lu G, Li J, Zhou Y, Zhou X, Tao X. Model-based structural and functional characterization of the Rice stripe tenuivirus nucleocapsid protein interacting with viral genomic RNA. Virology. 2017;506:73-83 pubmed publisher
    Rice stripe tenuivirus (RSV) is a filamentous, negative-strand RNA virus causing severe diseases on rice in Asian countries. The viral particle is composed predominantly of a nucleocapsid protein (NP) and genomic RNA...
  22. Sun F, Fang P, Li J, Du L, Lan Y, Zhou T, et al. RNA-seq-based digital gene expression analysis reveals modification of host defense responses by rice stripe virus during disease symptom development in Arabidopsis. Virol J. 2016;13:202 pubmed
    ..Rice stripe virus (RSV) is the type species of the genus Tenuivirus and infects rice and Arabidopsis plants...
  23. Liu X, Jin J, Qiu P, Gao F, Lin W, Xie G, et al. Rice Stripe Tenuivirus Has a Greater Tendency To Use the Prime-and-Realign Mechanism in Transcription of Genomic than in Transcription of Antigenomic Template RNAs. J Virol. 2018;92: pubmed publisher
    ..Here, the mRNA 5' ends of Rice stripe tenuivirus (RSV) and Rice grassy stunt tenuivirus (RGSV) and those of their host rice were determined by high-..
  24. Yao M, Liu X, Li S, Xu Y, Zhou Y, Zhou X, et al. Rice stripe tenuivirus NSvc2 glycoproteins targeted to the golgi body by the N-terminal transmembrane domain and adjacent cytosolic 24 amino acids via the COP I- and COP II-dependent secretion pathway. J Virol. 2014;88:3223-34 pubmed publisher
    The NSvc2 glycoproteins encoded by Rice stripe tenuivirus (RSV) share many characteristics common to the glycoproteins found among Bunyaviridae...
  25. Chomchan P, Miranda G, Shirako Y. Detection of rice grassy stunt tenuivirus nonstructural proteins p2, p5 and p6 from infected rice plants and from viruliferous brown planthoppers. Arch Virol. 2002;147:2291-300 pubmed
    ..5 and 6 are equivalent to RNAs 1, 2, 3 and 4, respectively, of Rice stripe virus, the type species of the genus Tenuivirus. The RGSV 36-kDa nucleocapsid protein (N) is encoded on the complementary strand of RNA 5...
  26. Mahmoud A, Royer M, Granier M, Ammar E, Peterschmitt M. High genetic identity between RNA 3 segments of an Old World isolate and a New World isolate of Maize stripe virus. Arch Virol. 2007;152:1583-6 pubmed
  27. Zhou Y, Yuan Y, Yuan F, Wang M, Zhong H, Gu M, et al. RNAi-directed down-regulation of RSV results in increased resistance in rice (Oryza sativa L.). Biotechnol Lett. 2012;34:965-72 pubmed publisher
    ..The excellent agronomic traits of these two varieties, such as high yield and good quality were maintained. Suppression of virus genes using RNAi is therefore a practical and effective strategy for controlling viral infection in crops. ..
  28. Ammar E, Khlifa E, Mahmoud A, Abol Ela S, Peterschmitt M. Evidence for multiplication of the leafhopper-borne maize yellow stripe virus in its vector using ELISA and dot-blot hybridization. Arch Virol. 2007;152:489-94 pubmed
    ..chinai nymphs that hatched from eggs laid by females that had acquired MYSV from diseased plants. The implications of our findings for MYSV classification are discussed. ..
  29. He D, Zhan J, Cheng Z, Xie L. Viruliferous rate of small brown planthopper is a good indicator of rice stripe disease epidemics. Sci Rep. 2016;6:21376 pubmed publisher
    ..Of the two main climatic factors, temperature plays a more important role than rainfall in RSV epidemics. ..
  30. Li J, Andika I, Shen J, Lv Y, Ji Y, Sun L, et al. Characterization of rice black-streaked dwarf virus- and rice stripe virus-derived siRNAs in singly and doubly infected insect vector Laodelphax striatellus. PLoS ONE. 2013;8:e66007 pubmed publisher
    ..The results of this study suggest that reovirus replication in its insect vector potentially induces an RNAi-mediated antiviral response. ..
  31. Wei T, Hanxin L, Wu Z, Lin Q, Xie L. [Sequence aanlysis of intergenic region of rice stripe virus RNA4: evidence for mixed infection and genomic variation]. Wei Sheng Wu Xue Bao. 2003;43:577-85 pubmed
    ..In this paper, the relationship between the lowest free energy of the unstable hairpin structures and the different pathogenesis among some isolates was also discussed in this paper. ..
  32. Garry C, Garry R. Proteomics computational analyses suggest that the carboxyl terminal glycoproteins of Bunyaviruses are class II viral fusion protein (beta-penetrenes). Theor Biol Med Model. 2004;1:10 pubmed
    ..Comparisons of divergent viral fusion proteins can reveal features essential for virion:cell fusion, and suggest drug and vaccine strategies...
  33. Qu Z, Shen D, Deng K, Lu Y, Li C, Hull R. [Cloning and sequencing analysis of rice stripe virus genome segment 4 of Chinese isolate Y]. Wei Sheng Wu Xue Bao. 1999;39:36-42 pubmed
    ..Our results indicated that the Chinese isolate is closely related to the Japanese isolate T...
  34. Cho S, Jeong R, Yoon Y, Lee S, Shin D, Kang H, et al. One-step multiplex reverse transcription-polymerase chain reaction for the simultaneous detection of three rice viruses. J Virol Methods. 2013;193:674-8 pubmed publisher
    ..The one-step mRT-PCR assay proved to be a sensitive and rapid method for detecting the three rice viruses. This method could be used to facilitate better control of rice viruses...
  35. Zhang X, Wang X, Zhou G. A one-step real time RT-PCR assay for quantifying rice stripe virus in rice and in the small brown planthopper (Laodelphax striatellus Fallen). J Virol Methods. 2008;151:181-7 pubmed publisher
    ..This quantitative detection assay provides a valuable tool for diagnosis and molecular studies of RSV biology...
  36. Huang L, Rao L, Zhou X, Wu J. Genetic variability and evolution of rice stripe virus. J Zhejiang Univ Sci B. 2013;14:875-85 pubmed publisher
    Rice stripe virus (RSV) is the type member of the genus Tenuivirus. RSV is known to have four segmented, single-stranded RNA molecules and causes rice stripe disease in the rice fields of China, Japan, and Korea...
  37. Lin H, Wei T, Wu Z, Lin Q, Xie L. [Sequence analysis of RAN4 of a severe isolate of rice stripe virus in China]. Wei Sheng Wu Xue Bao. 2001;41:25-30 pubmed
    ..Finally, the molecular epidemiology and gene functions of Rice stripe virus were discussed in this paper...
  38. Zhang S, Li L, Wang X, Zhou G. Transmission of Rice stripe virus acquired from frozen infected leaves by the small brown planthopper (Laodelphax striatellus Fallen). J Virol Methods. 2007;146:359-62 pubmed
    ..67%) became infected, compared to 7 of 30 plants (23.33%) became infected when a single insect fed on fresh infected leaves. All rice plants expressing stripe symptoms were identified with the virus by RT-PCR...
  39. Lu L, Du Z, Qin M, Wang P, Lan H, Niu X, et al. Pc4, a putative movement protein of Rice stripe virus, interacts with a type I DnaJ protein and a small Hsp of rice. Virus Genes. 2009;38:320-7 pubmed publisher
    ..Interactions between Pc4 and the two proteins were confirmed using coimmunoprecipitation. Implications of the findings that pc4 interacted with two chaperone proteins were discussed...
  40. Zhang H, Qu Z, Xu X, Zhang X, Bai F, Wan Y, et al. Selection and expression of peptides which can change the conformation of p20 protein of rice stripe virus. Acta Virol. 2002;46:11-7 pubmed
    ..It also provided a tool (i) to confirm the inhibition of the function of P20 protein by the fusion peptides in vivo, and (ii) to detect the function of P20 protein and the interaction between the virus and its vector...
  41. Zhao S, Dai X, Liang J, Liang C. Surface display of rice stripe virus NSvc2 and analysis of its membrane fusion activity. Virol Sin. 2012;27:100-8 pubmed publisher
    ..Thus, RSV NSvc2 is probably different from the phlebovirus counterparts, which could suggest different functions. RSV might enter insect cells other than by fusion with plasma or endosome membrane...
  42. Kwon T, Lee J, Park S, Hwang U, Cho J, Kwak D, et al. Fine mapping and identification of candidate rice genes associated with qSTV11(SG), a major QTL for rice stripe disease resistance. Theor Appl Genet. 2012;125:1033-46 pubmed publisher
    ..Sequencing of these genes showed that there were several amino acid substitutions between susceptible and resistant varieties. Putative functions of these candidate genes for qSTV11 (SG) are discussed...
  43. Deng J, Li S, Hong J, Ji Y, Zhou Y. Investigation on subcellular localization of Rice stripe virus in its vector small brown planthopper by electron microscopy. Virol J. 2013;10:310 pubmed publisher
    ..In this study, transmission electron microscopy and immuno-gold labeling technique were used to investigate the subcellular localization of the ribonucleoproteins (RNPs) of RSV in the digestive tract, muscles, ovary and testes of SBPH...
  44. Wu G, Lu Y, Zheng H, Lin L, Yan F, Chen J. Transcription of ORFs on RNA2 and RNA4 of Rice stripe virus terminate at an AUCCGGAU sequence that is conserved in the genus Tenuivirus. Virus Res. 2013;175:71-7 pubmed publisher
    Rice stripe virus, the type member of the genus Tenuivirus, has four genomic RNAs...
  45. Park H, Choi M, Kwak D, Lee B, Lee J, Kim M, et al. Suppression of NS3 and MP is important for the stable inheritance of RNAi-mediated rice stripe virus (RSV) resistance obtained by targeting the fully complementary RSV-CP gene. Mol Cells. 2012;33:43-51 pubmed publisher
    ..Furthermore, the agronomic trait was stably transmitted to the T4 generation of transgenic plants...
  46. Kormelink R, Garcia M, Goodin M, Sasaya T, Haenni A. Negative-strand RNA viruses: the plant-infecting counterparts. Virus Res. 2011;162:184-202 pubmed publisher
    ..RNA plant viruses classified within the families Bunyaviridae, Rhabdoviridae, Ophioviridae and floating genera Tenuivirus and Varicosavirus...
  47. Zhang Y, Wang Q, Jiang L, Liu L, Wang B, Shen Y, et al. Fine mapping of qSTV11(KAS), a major QTL for rice stripe disease resistance. Theor Appl Genet. 2011;122:1591-604 pubmed publisher
    ..These results provide a basis for the cloning of qSTV11(KAS), and the markers may be used for molecular breeding of RSV resistant rice varieties...
  48. Shimizu T, Nakazono Nagaoka E, Uehara Ichiki T, Sasaya T, Omura T. Targeting specific genes for RNA interference is crucial to the development of strong resistance to rice stripe virus. Plant Biotechnol J. 2011;9:503-12 pubmed publisher
    ..Our results indicate that not all RNAi constructs against viral RNAs are equally effective in preventing RSV infection and that it is important to identify the viral 'Achilles heel' for RNAi attack in the engineering of plants...
  49. Schnettler E, de Vries W, Hemmes H, Haasnoot J, Kormelink R, Goldbach R, et al. The NS3 protein of rice hoja blanca virus complements the RNAi suppressor function of HIV-1 Tat. EMBO Rep. 2009;10:258-63 pubmed publisher
    ..This cross-kingdom suppression of RNAi in mammalian cells by a plant viral RSS indicates the significance of the antiviral RNAi response in mammalian cells and the usefulness of well-defined RSS proteins...
  50. Kim K, Choi D, Kim S, Kwak D, Choi J, Lee S, et al. A systems approach for identifying resistance factors to Rice stripe virus. Mol Plant Microbe Interact. 2012;25:534-45 pubmed publisher
  51. Zhou Y, Lin X, Zhang Y, Huang Y, Zhang C, Yang Q, et al. Identification and biochemical characterization of Laodelphax striatellus neutral ceramidase. Insect Mol Biol. 2013;22:366-75 pubmed publisher
    ..striatellus. These results suggest that LsnCer is a bona fide?nCDase that may have a role in adaption of L.?striatellus to environmental stresses...
  52. Shimizu T, Ogamino T, Hiraguri A, Nakazono Nagaoka E, Uehara Ichiki T, Nakajima M, et al. Strong resistance against Rice grassy stunt virus is induced in transgenic rice plants expressing double-stranded RNA of the viral genes for nucleocapsid or movement proteins as targets for RNA interference. Phytopathology. 2013;103:513-9 pubmed publisher
    Rice grassy stunt virus (RGSV), a member of the genus Tenuivirus, causes significant economic losses in rice production in South, Southeast, and East Asian countries...
  53. Wei T, Wang H, Lin H, Wu Z, Lin Q, Xie L. [Sequence analysis of RNA3 of Rice stripe virus isolates found in China: evidence for reassortment in Tenuivirus]. Sheng Wu Hua Xue Yu Sheng Wu Wu Li Xue Bao (Shanghai). 2003;35:97-103 pubmed
    ..The results may provide another evidence for reassortment variation in Tenuivirus.
  54. Lijun C, Xizhi M, Lin K, Kejing D, Shouyuan Z, Changben L. Detecting Rice stripe virus (RSV) in the small brown planthopper (Laodelphax striatellus) with high specificity by RT-PCR. J Virol Methods. 2003;112:115-20 pubmed
    ..Duplex RT-PCR conditions were established for the simultaneous detection of RSV and actin. This approach can be used for the early detection of RSV in L. striatellus and the subsequent rice stripe disease forecasting...
  55. Ding X, Jiang L, Liu S, Wang C, Chen L, Cheng Z, et al. [QTL analysis for rice stripe disease resistance gene using recombinant inbred lines (RILs) derived from crossing of Kinmaze and DV85]. Yi Chuan Xue Bao. 2004;31:287-92 pubmed
    ..At these two loci, the DV85 alleles increased the resistance to RSV, while at qStv1, the Kinmaze alleles increased the resistance to RSV...
  56. Liang D, Ma X, Qu Z, Hull R. Nucleic acid binding property of the gene products of rice stripe virus. Virus Genes. 2005;31:203-9 pubmed
    GST fusion proteins of the six gene products from RNAs 2,3 and 4 of the tenuivirus, Rice stripe virus (RSV), were used to study the nucleic acid binding activities in vitro...
  57. Hao Z, Wang L, He Y, Liang J, Tao R. Expression of defense genes and activities of antioxidant enzymes in rice resistance to rice stripe virus and small brown planthopper. Plant Physiol Biochem. 2011;49:744-51 pubmed publisher
    ..The antioxidant enzymes superoxide dismutase, peroxidase, catalase, hydrogen peroxide, and malondialdehyde coordinately participate in the resistance to RSV in Tai06-1, and that oxidative damage is less in Tai06-1 than in Xiushui63...
  58. Wu X, Zuo S, Chen Z, Zhang Y, Zhu J, Ma N, et al. Fine mapping of qSTV11TQ, a major gene conferring resistance to rice stripe disease. Theor Appl Genet. 2011;122:915-23 pubmed publisher
    ..in Theor Appl Genet 101:59-63, 2000) and the reliability of the markers used on both sides of qSTV11(TQ) for marker-assisted breeding of resistance to rice stripe disease are discussed...
  59. Traoré M, Traoré V, Galzi Pinel A, Fargette D, Konate G, Traore A, et al. Abiotic transmission of Rice yellow mottle virus through soil and contact between plants. Pak J Biol Sci. 2008;11:900-4 pubmed
    ..Although guttation fluid is highly infectious its contribution to virus infectivity in irrigation water is negligible as field-irrigation water was not found to be an infectious source for RYMV...
  60. Schnettler E, Hemmes H, Goldbach R, Prins M. The NS3 protein of rice hoja blanca virus suppresses RNA silencing in mammalian cells. J Gen Virol. 2008;89:336-40 pubmed
    The NS3 protein of the tenuivirus rice hoja blanca virus (RHBV) has previously been shown to represent the viral RNA interference (RNAi) suppressor and is active in both plant and insect cells by binding short interfering RNAs (siRNAs) in ..
  61. Jiang Y, Sun L, Jiang M, Li K, Song Y, Zhu C. Production of marker-free and RSV-resistant transgenic rice using a twin T-DNA system and RNAi. J Biosci. 2013;38:573-81 pubmed
    ..The resistant transgenic plants displayed lower levels of the transgene transcripts and specific small interfering RNAs, suggesting that RNAi induced the viral resistance. ..
  62. Jonson M, Choi H, Kim J, Choi I, Kim K. Sequence and phylogenetic analysis of the RNA1 and RNA2 segments of Korean Rice stripe virus isolates and comparison with those of China and Japan. Arch Virol. 2009;154:1705-8 pubmed publisher
    ..Taken together, our results suggest that the RSV population in Korea consists of mixtures of RNA1-RNA4 genome segments originating from distinctive ancestors, most likely due to either reassortment or recombination events among isolates...
  63. Gutiérrez A, Carabalí S, Giraldo O, Martínez C, Correa F, Prado G, et al. Identification of a Rice stripe necrosis virus resistance locus and yield component QTLs using Oryza sativa x O. glaberrima introgression lines. BMC Plant Biol. 2010;10:6 pubmed publisher
    ..Chromosome segment substitution lines from interspecific crosses represent a powerful and useful genetic resource for QTL detection and breeding programs...
  64. Shen M, Xu Y, Jia R, Zhou X, Ye K. Size-independent and noncooperative recognition of dsRNA by the Rice stripe virus RNA silencing suppressor NS3. J Mol Biol. 2010;404:665-79 pubmed publisher
    ..Analysis of dsRNA-binding mutants suggests that silencing of the suppression activity of NS3 is mechanistically related to its dsRNA binding ability...
  65. Zhao W, Yang P, Kang L, Cui F. Different pathogenicities of Rice stripe virus from the insect vector and from viruliferous plants. New Phytol. 2016;210:196-207 pubmed publisher
    ..This study not only presented a convenient method to mechanically inoculate RSV into plants, but also provided insights into the different pathogenic mechanisms of RSV from the insect vector and from viruliferous plants. ..
  66. Hiraguri A, Netsu O, Shimizu T, Uehara Ichiki T, Omura T, Sasaki N, et al. The nonstructural protein pC6 of rice grassy stunt virus trans-complements the cell-to-cell spread of a movement-defective tomato mosaic virus. Arch Virol. 2011;156:911-6 pubmed publisher
    ..These results suggest that pC6 has a role similar to that of pC4 in viral cell-to-cell movement...
  67. Guo W, Wu G, Yan F, Lu Y, Zheng H, Lin L, et al. Identification of novel Oryza sativa miRNAs in deep sequencing-based small RNA libraries of rice infected with Rice stripe virus. PLoS ONE. 2012;7:e46443 pubmed publisher
    ..In addition, 23 pn-miRNAs that were newly produced from 19 known miRNA precursors were also identified. This is first report of novel rice miRNAs produced from new precursors related to RSV infection...
  68. Ma J, Song Y, Wu B, Jiang M, Li K, Zhu C, et al. Production of transgenic rice new germplasm with strong resistance against two isolations of Rice stripe virus by RNA interference. Transgenic Res. 2011;20:1367-77 pubmed publisher
    ..Genetic analysis demonstrated that transgene and virus resistance was stably inherited in the T2 progeny plants...
  69. Bucher E, Sijen T, de Haan P, Goldbach R, Prins M. Negative-strand tospoviruses and tenuiviruses carry a gene for a suppressor of gene silencing at analogous genomic positions. J Virol. 2003;77:1329-36 pubmed
    ..Suppression of RNA silencing was also observed when the NS3 protein of the Rice hoja blanca tenuivirus, a nonenveloped negative-strand virus, was expressed...
  70. Heydarnejad J, Barclay W, Izadpanah K, Hunter F, Gooding M. Molecular characterization of Iranian wheat stripe virus shows its taxonomic position as a distinct species in the genus Tenuivirus. Arch Virol. 2006;151:217-27 pubmed
    ..by reverse transcription (RT) followed by polymerase chain reaction (PCR) using a primer complementary to tenuivirus conserved terminal sequences...
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    ..The prospects for transferring these QTLs in susceptible maize cultivars and combining them with other resistances to virus diseases by conventional or marker-assisted breeding are promising...