Fri Oct 20 16:04:16 2017

Togribase

TOspovirus aGRIcultural DataBASE

Abstract

Analysis of the Tomato spotted wilt virus Ambisense S RNA-Encoded Hairpin Structure in Translation.
Geerts-Dimitriadou C, Lu YY, Geertsema C, Goldbach R, Kormelink R.
PLoS One. 2012;7(2):e31013. Epub 2012 Feb 21.

Pepper necrotic spot virus, a new tospovirus infecting solanaceous crops in Peru.
Torres R, Larenas J, Fribourg C, Romero J.
Arch Virol. 2012 Jan 5. [Epub ahead of print]

Antiviral escape strategies developed by bunyaviruses pathogenic for humans.
Le May N, Bouloy M.
Front Biosci (Schol Ed). 2012 Jan 1;4:1065-77.

Sequence determination and analysis of the NSs genes of two tospoviruses.
Hallwass M, Leastro MO, Lima MF, Inoue-Nagata AK, Resende RO.
Arch Virol. 2012 Mar;157(3):591-6. Epub 2011 Dec 21.

Antagonistic plant defense system regulated by phytohormones assists interactions among vector insect, thrips and a tospovirus.
Abe H, Tomitaka Y, Shimoda T, Seo S, Sakurai T, Kugimiya S, Tsuda S, Kobayashi M.
Plant Cell Physiol. 2012 Jan;53(1):204-12. Epub 2011 Dec 15.

Status of tobacco viruses in Serbia and molecular characterization of tomato spotted wilt virus isolates.
Stanković I, Bulajić A, Vučurović A, Ristić D, Milojević K, Berenji J, Krstić B.
Acta Virol. 2011;55(4):337-47.

Modified expression of alternative oxidase in transgenic tomato and petunia affects the level of tomato spotted wilt virus resistance.
Ma H, Song C, Borth W, Sether D, Melzer M, Hu J.
BMC Biotechnol. 2011 Oct 20;11:96.

Nucleocapsid protein gene mediated resistance against groundnut bud necrosis virus in tomato using sense and antisense constructs.
Raja P, Jain RK.
Acta Virol. 2011;55(3):283-4. .

Investigations on the RNA binding and phosphorylation of groundnut bud necrosis virus nucleocapsid protein.
Bhat AS, Savithri HS.
Arch Virol. 2011 Dec;156(12):2163-72. Epub 2011 Sep 24.

Complete genome sequence of a tomato spotted wilt virus isolate from China and comparison to other TSWV isolates of different geographic origin.
Hu ZZ, Feng ZK, Zhang ZJ, Liu YB, Tao XR.
Arch Virol. 2011 Oct;156(10):1905-8. Epub 2011 Jul 30.

An RNA-dependent RNA polymerase gene of a distinct Brazilian tospovirus.
de Oliveira AS, Bertran AG, Inoue-Nagata AK, Nagata T, Kitajima EW, Oliveira Resende R.
Virus Genes. 2011 Dec;43(3):385-9. Epub 2011 Jul 1.

Detection, discrimination and absolute quantitation of Tomato spotted wilt virus isolates using real time RT-PCR with TaqMan(®)MGB probes.
Debreczeni DE, Ruiz-Ruiz S, Aramburu J, López C, Belliure B, Galipienso L, Soler S, Rubio L.
J Virol Methods. 2011 Sep;176(1-2):32-7. Epub 2011 May 27.

Epidemiology of spotted wilt disease of peanut caused by Tomato spotted wilt virus in the southeastern U.S.
Culbreath AK, Srinivasan R.
Virus Res. 2011 Aug;159(2):101-9. Epub 2011 Apr 28.

Infection with a plant virus modifies vector feeding behavior.
Stafford CA, Walker GP, Ullman DE.
Proc Natl Acad Sci U S A. 2011 Jun 7;108(23):9350-5. Epub 2011 May 23.

Molecular characterization of a new Tospovirus infecting soybean.
Zhou J, Kantartzi SK, Wen RH, Newman M, Hajimorad MR, Rupe JC, Tzanetakis IE.
Virus Genes. 2011 Oct;43(2):289-95. Epub 2011 May 22.

An optimized mRFP-based bimolecular fluorescence complementation system for the detection of protein-protein interactions in planta.
Zilian E, Maiss E.
J Virol Methods. 2011 Jun;174(1-2):158-65. Epub 2011 Apr 5.

Using small RNA sequences to diagnose, sequence, and investigate the infectivity characteristics of vegetable-infecting viruses.
Hagen C, Frizzi A, Kao J, Jia L, Huang M, Zhang Y, Huang S.
Arch Virol. 2011 Jul;156(7):1209-16. Epub 2011 Mar 30.

Molecular characterization of the RNA-dependent RNA polymerase from groundnut ringspot virus (genus Tospovirus, family Bunyaviridae).
Bertran AG, Oliveira AS, Nagata T, Resende RO.
Arch Virol. 2011 Aug;156(8):1425-9. Epub 2011 Mar 26. Erratum in: Arch Virol. 2011 Aug;156(8):1431-2.

Onion thrips (Thysanoptera: Thripidae): a global pest of increasing concern in onion.
Diaz-Montano J, Fuchs M, Nault BA, Fail J, Shelton AM.
J Econ Entomol. 2011 Feb;104(1):1-13. Review.

A natural M RNA reassortant arising from two species of plant- and insect-infecting bunyaviruses and comparison of its sequence and biological properties to parental species.
Webster CG, Reitz SR, Perry KL, Adkins S.
Virology. 2011 May 10;413(2):216-25. Epub 2011 Mar 6.

Complete genome sequences of three tomato spotted wilt virus isolates from tomato and pepper plants in Korea and their phylogenetic relationship to other TSWV isolates.
Lee JS, Cho WK, Kim MK, Kwak HR, Choi HS, Kim KH.
Arch Virol. 2011 Apr;156(4):725-8. Epub 2011 Feb 13.

Importance and genetic diversity of vegetable-infecting tospoviruses in India.
Kunkalikar SR, Poojari S, Arun BM, Rajagopalan PA, Chen TC, Yeh SD, Naidu RA, Zehr UB, Ravi KS.
Phytopathology. 2011 Mar;101(3):367-76.

Complete genomic sequence of watermelon bud necrosis virus.
Li JT, Yeh YC, Yeh SD, Raja JA, Rajagopalan PA, Liu LY, Chen TC.
Arch Virol. 2011 Feb;156(2):359-62. Epub 2010 Dec 24. .

IXth International Symposium on Thysanoptera and Tospoviruses. 31st August - 4th September 2009, Sea World Resort, Queensland, Australia. Abstracts.
Persley D, Wilson C, Thomas J, Sharman M, Tree D.
J Insect Sci. 2010;10:166. .

Evolution and structure of Tomato spotted wilt virus populations: evidence of extensive reassortment and insights into emergence processes.
Tentchev D, Verdin E, Marchal C, Jacquet M, Aguilar JM, Moury B.
J Gen Virol. 2011 Apr;92(Pt 4):961-73. Epub 2010 Dec 15.

Complete nucleotide sequence of capsicum chlorosis virus isolated from Phalaenopsis orchid and the prediction of the unexplored genetic information of tospoviruses.
Zheng YX, Chen CC, Jan FJ.
Arch Virol. 2011 Mar;156(3):421-32. Epub 2010 Dec 14.

Tomato necrotic ringspot virus, a new tospovirus isolated in Thailand.
Seepiban C, Gajanandana O, Attathom T, Attathom S.
Arch Virol. 2011 Feb;156(2):263-74. Epub 2010 Nov 23.

Explaining loss caused by tomato spotted wilt virus on tobacco with boreal winter weather: a Bayesian approach.
Mila AL.
Phytopathology. 2011 Apr;101(4):462-9.

A silencing suppressor protein (NSs) of a tospovirus enhances baculovirus replication in permissive and semipermissive insect cell lines.
Oliveira VC, Bartasson L, de Castro ME, Corrêa JR, Ribeiro BM, Resende RO.
Virus Res. 2011 Jan;155(1):259-67. Epub 2010 Oct 29.

Evolutionary analysis of tomato Sw-5 resistance-breaking isolates of Tomato spotted wilt virus.
López C, Aramburu J, Galipienso L, Soler S, Nuez F, Rubio L.
J Gen Virol. 2011 Jan;92(Pt 1):210-5. Epub 2010 Sep 29.

Population genetic analysis of Tomato spotted wilt virus on peanut in North Carolina and Virginia.
Kaye AC, Moyer JW, Parks EJ, Carbone I, Cubeta MA.
Phytopathology. 2011 Jan;101(1):147-53.

Determination of MHC binding peptides and epitopes from non-structural movement (NSm) protein of groundnut bud necrosis virus.
Sarika, Akram M, Iquebal MA, Naimuddin K.
Curr Drug Discov Technol. 2010 Jun 1;7(2):117-22.

Diverging affinity of tospovirus RNA silencing suppressor proteins, NSs, for various RNA duplex molecules.
Schnettler E, Hemmes H, Huismann R, Goldbach R, Prins M, Kormelink R.
J Virol. 2010 Nov;84(21):11542-54. Epub 2010 Aug 25.

Evaluation of onion cultivars for resistance to onion thrips (Thysanoptera: Thripidae) and Iris yellow spot virus.
Diaz-Montano J, Fuchs M, Nault BA, Shelton AM.
J Econ Entomol. 2010 Jun;103(3):925-37.

Resistance to a DNA and a RNA virus in transgenic plants by using a single chimeric transgene construct.
Lin CY, Ku HM, Tsai WS, Green SK, Jan FJ.
Transgenic Res. 2011 Apr;20(2):261-70. Epub 2010 Jun 18.

Genome organisation and sequence comparison suggest intraspecies incongruence in M RNA of Watermelon bud necrosis virus.
Kumar R, Mandal B, Geetanjali AS, Jain RK, Jaiwal PK.
Arch Virol. 2010 Aug;155(8):1361-5. Epub 2010 May 18.

Serological relationship between Melon yellow spot virus and Watermelon silver mottle virus and differential detection of the two viruses in cucurbits.
Chen TC, Lu YY, Cheng YH, Li JT, Yeh YC, Kang YC, Chang CP, Huang LH, Peng JC, Yeh SD.
Arch Virol. 2010 Jul;155(7):1085-95. Epub 2010 May 18.

Biological and molecular characterization of Capsicum chlorosis virus infecting chilli and tomato in India.
Kunkalikar SR, Sudarsana P, Rajagopalan P, Zehr UB, Ravi KS.
Arch Virol. 2010 Jul;155(7):1047-57. Epub 2010 May 5.

Temporal dynamics of iris yellow spot virus and its vector, Thrips tabaci (Thysanoptera: Thripidae), in seeded and transplanted onion fields.
Hsu CL, Hoepting CA, Fuchs M, Shelton AM, Nault BA.
Environ Entomol. 2010 Apr;39(2):266-77.

Emerging viral diseases of tomato crops.
Hanssen IM, Lapidot M, Thomma BP.
Mol Plant Microbe Interact. 2010 May;23(5):539-48. Review.

NSs encoded by groundnut bud necrosis virus is a bifunctional enzyme.
Lokesh B, Rashmi PR, Amruta BS, Srisathiyanarayanan D, Murthy MR, Savithri HS.
PLoS One. 2010 Mar 18;5(3):e9757. Erratum in: PLoS One. 2010;5(4). doi: 10.1371/annotation/82e3c2dd-e7e5-4267-88e5-19d77d5e58e7.

A distinct tospovirus causing necrotic streak on Alstroemeria sp. in Colombia.
Hassani-Mehraban A, Botermans M, Verhoeven JT, Meekes E, Saaijer J, Peters D, Goldbach R, Kormelink R.
Arch Virol. 2010 Mar;155(3):423-8. Epub 2010 Feb 12.

Structure and genome organization of the large RNA of iris yellow spot virus (genus Tospovirus, family Bunyaviridae).
Bag S, Druffel KL, Pappu HR.
Arch Virol. 2010 Feb;155(2):275-9. Epub 2009 Dec 18.

Potatovirus X and Tobacco mosaic virus-based vectors compatible with the Gateway cloning system.
Lacorte C, Ribeiro SG, Lohuis D, Goldbach R, Prins M.
J Virol Methods. 2010 Mar;164(1-2):7-13. Epub 2009 Nov 10.

Comparative analysis of expression profiles in shoots and roots of tomato systemically infected by Tomato spotted wilt virus reveals organ-specific transcriptional responses.
Catoni M, Miozzi L, Fiorilli V, Lanfranco L, Accotto GP.
Mol Plant Microbe Interact. 2009 Dec;22(12):1504-13.

Complete nucleotide sequence of four RNA segments of fig mosaic virus.
Elbeaino T, Digiaro M, Martelli GP.
Arch Virol. 2009;154(11):1719-27. Epub 2009 Sep 24.

RNAi-mediated transgenic Tospovirus resistance broken by intraspecies silencing suppressor protein complementation.
Hassani-Mehraban A, Brenkman AB, van den Broek NJ, Goldbach R, Kormelink R.
Mol Plant Microbe Interact. 2009 Oct;22(10):1250-7.

A single tube, quantitative real-time RT-PCR assay that detects four potato viruses simultaneously.
Mortimer-Jones SM, Jones MG, Jones RA, Thomson G, Dwyer GI.
J Virol Methods. 2009 Nov;161(2):289-96. Epub 2009 Jul 9.

Identification of domains of the Tomato spotted wilt virus NSm protein involved in tubule formation, movement and symptomatology.
Li W, Lewandowski DJ, Hilf ME, Adkins S.
Virology. 2009 Jul 20;390(1):110-21. Epub 2009 May 29.

Requirements for ER-arrest and sequential exit to the golgi of Tomato spotted wilt virus glycoproteins.
Ribeiro D, Goldbach R, Kormelink R.
Traffic. 2009 Jun;10(6):664-72.

Nucleotide sequence and genome organization of the medium RNA of Iris yellow spot virus from the United States.
Bag S, Druffel KL, Salewsky T, Pappu HR.
Arch Virol. 2009;154(4):715-8. Epub 2009 Mar 15.

Variation in Tomato spotted wilt virus titer in Frankliniella occidentalis and its association with frequency of transmission.
Rotenberg D, Krishna Kumar NK, Ullman DE, Montero-Astúa M, Willis DK, German TL, Whitfield AE.
Phytopathology. 2009 Apr;99(4):404-10.

Transgenic resistance by N gene of a Peanut bud necrosis virus isolate of characteristic phylogeny.
Venkatesan S, Raja JA, Maruthasalam S, Kumar KK, Ramanathan A, Sudhakar D, Balasubramanian P.
Virus Genes. 2009 Jun;38(3):445-54. Epub 2009 Mar 3.

Bell and banana pepper exhibit mature-plant resistance to tomato spotted wilt Tospovirus transmitted by Frankliniella fusca (Thysanoptera: Thripidae).
Beaudoin AL, Kahn ND, Kennedy GG.
J Econ Entomol. 2009 Feb;102(1):30-5.

Global status of tospovirus epidemics in diverse cropping systems: successes achieved and challenges ahead.
Pappu HR, Jones RA, Jain RK.
Virus Res. 2009 May;141(2):219-36. Epub 2009 Feb 2. Review.

Expressing a whitefly GroEL protein in Nicotiana benthamiana plants confers tolerance to tomato yellow leaf curl virus and cucumber mosaic virus, but not to grapevine virus A or tobacco mosaic virus.
Edelbaum D, Gorovits R, Sasaki S, Ikegami M, Czosnek H.
Arch Virol. 2009;154(3):399-407. Epub 2009 Jan 29.

Tomato spotted wilt virus nucleocapsid protein interacts with both viral glycoproteins Gn and Gc in planta.
Ribeiro D, Borst JW, Goldbach R, Kormelink R.
Virology. 2009 Jan 5;383(1):121-30. Epub 2008 Oct 29.

A member of a new Tospovirus species isolated in Italy from wild buckwheat (Polygonum convolvulus).
Ciuffo M, Tavella L, Pacifico D, Masenga V, Turina M.
Arch Virol. 2008;153(11):2059-68. Epub 2008 Oct 25.

Effects of Temperature and Host on the Generation of Tomato Spotted Wilt Virus Defective Interfering RNAs.
Inoue-Nagata AK, Kormelink R, Nagata T, Kitajima EW, Goldbach R, Peters D.
Phytopathology. 1997 Nov;87(11):1168-73.

Interaction of Tomato Spotted Wilt Tospovirus (TSWV) Glycoproteins with a Thrips Midgut Protein, a Potential Cellular Receptor for TSWV.
Bandla MD, Campbell LR, Ullman DE, Sherwood JL.
Phytopathology. 1998 Feb;88(2):98-104.

Comparison of ambisense m RNA of watermelon silver mottle virus with other tospoviruses.
Chu FH, Yeh SD.
Phytopathology. 1998 Apr;88(4):351-8.

Molecular and serological characterization of iris yellow spot virus, a new and distinct tospovirus species.
Cortês I, Livieratos IC, Derks A, Peters D, Kormelink R.
Phytopathology. 1998 Dec;88(12):1276-82.

Increase of tospoviral diversity in Brazil with the identification of two new tospovirus species, one from chrysanthemum and one from zucchini.
Bezerra IC, de O Resende R, Pozzer L, Nagata T, Kormelink R, De Avila AC.
Phytopathology. 1999 Sep;89(9):823-30.

Tomato Spotted Wilt Tospovirus Adapts to the TSWV N Gene-Derived Resistance by Genome Reassortment.
Qiu W, Moyer JW.
Phytopathology. 1999 Jul;89(7):575-82.

Application of Phage Display in Selecting Tomato spotted wilt virus-Specific Single-Chain Antibodies (scFvs) for Sensitive Diagnosis in ELISA.
Griep RA, Prins M, van Twisk C, Keller HJ, Kerschbaumer RJ, Kormelink R, Goldbach RW, Schots A.
Phytopathology. 2000 Feb;90(2):183-90.

Nucleocapsid Gene-Mediated Transgenic Resistance Provides Protection Against Tomato spotted wilt virus Epidemics in the Field.
Herrero S, Culbreath AK, Csinos AS, Pappu HR, Rufty RC, Daub ME.
Phytopathology. 2000 Feb;90(2):139-47.

Melon yellow spot virus: A Distinct Species of the Genus Tospovirus Isolated from Melon.
Kato K, Handa K, Kameya-Iwaki M.
Phytopathology. 2000 Apr;90(4):422-6.

A new tomato-infecting tospovirus from iran.
Hassani-Mehraban A, Saaijer J, Peters D, Goldbach R, Kormelink R.
Phytopathology. 2005 Aug;95(8):852-8.

Serological and Molecular Characterization of Peanut chlorotic fan-spot virus, a New Species of the Genus Tospovirus.
Chu FH, Chao CH, Peng YC, Lin SS, Chen CC, Yeh SD.
Phytopathology. 2001 Sep;91(9):856-63.

A novel mite-transmitted virus with a divided RNA genome closely associated with pigeonpea sterility mosaic disease.
Kumar PL, Jones AT, Reddy DV.
Phytopathology. 2003 Jan;93(1):71-81.

A one-step reverse transcription-polymerase chain reaction system for the simultaneous detection and identification of multiple tospovirus infections.
Uga H, Tsuda S.
Phytopathology. 2005 Feb;95(2):166-71.

Synergistic Interaction Between Tomato chlorosis virus and Tomato spotted wilt virus Results in Breakdown of Resistance in Tomato.
García-Cano E, Resende RO, Fernández-Muñoz R, Moriones E.
Phytopathology. 2006 Nov;96(11):1263-9.

Completion of the Genome Sequence of Watermelon silver mottle virus and Utilization of Degenerate Primers for Detecting Tospoviruses in Five Serogroups.
Chu FH, Chao CH, Chung MH, Chen CC, Yeh SD.
Phytopathology. 2001 Apr;91(4):361-8.

Identification of Common Epitopes on a Conserved Region of NSs Proteins Among Tospoviruses of Watermelon silver mottle virus Serogroup.
Chen TC, Huang CW, Kuo YW, Liu FL, Yuan CH, Hsu HT, Yeh SD.
Phytopathology. 2006 Dec;96(12):1296-304.

Serological Comparison and Molecular Characterization for Verification of Calla lily chlorotic spot virus as a New Tospovirus Species Belonging to Watermelon silver mottle virus Serogroup.
Lin YH, Chen TC, Hsu HT, Liu FL, Chu FH, Chen CC, Lin YZ, Yeh SD.
Phytopathology. 2005 Dec;95(12):1482-8.

A predictive model for spotted wilt epidemics in peanut based on local weather conditions and the tomato spotted wilt virus risk index.
Olatinwo RO, Paz JO, Brown SL, Kemerait RC, Culbreath AK, Beasley JP, Hoogenboom G.
Phytopathology. 2008 Oct;98(10):1066-74.

Replication of Tomato spotted wilt virus After Ingestion by Adult Thrips setosus is Restricted to Midgut Epithelial Cells.
Ohnishi J, Knight LM, Hosokawa D, Fujisawa I, Tsuda S.
Phytopathology. 2001 Dec;91(12):1149-55.

A soluble form of the Tomato spotted wilt virus (TSWV) glycoprotein G(N) (G(N)-S) inhibits transmission of TSWV by Frankliniella occidentalis.
Whitfield AE, Kumar NK, Rotenberg D, Ullman DE, Wyman EA, Zietlow C, Willis DK, German TL.
Phytopathology. 2008 Jan;98(1):45-50.

Biological and molecular analyses of the acibenzolar-S-methyl-induced systemic acquired resistance in flue-cured tobacco against Tomato spotted wilt virus.
Mandal B, Mandal S, Csinos AS, Martinez N, Culbreath AK, Pappu HR.
Phytopathology. 2008 Feb;98(2):196-204.

Role of the NSs protein in the zoonotic capacity of Orthobunyaviruses.
Hart TJ, Kohl A, Elliott RM.
Zoonoses Public Health. 2009 Aug;56(6-7):285-96.

The N protein of Tomato spotted wilt virus (TSWV) is associated with the induction of programmed cell death (PCD) in Capsicum chinense plants, a hypersensitive host to TSWV infection.
Lovato FA, Inoue-Nagata AK, Nagata T, de Avila AC, Pereira LA, Resende RO.
Virus Res. 2008 Nov;137(2):245-52. Epub 2008 Sep 5.

Tomato spotted wilt virus glycoproteins induce the formation of endoplasmic reticulum- and Golgi-derived pleomorphic membrane structures in plant cells.
Ribeiro D, Foresti O, Denecke J, Wellink J, Goldbach R, Kormelink RJ.
J Gen Virol. 2008 Aug;89(Pt 8):1811-8.

Herbivore benefits from vectoring plant virus through reduction of period of vulnerability to predation.
Belliure B, Janssen A, Sabelis MW.
Oecologia. 2008 Jul;156(4):797-806. Epub 2008 Apr 8.

Tomato plant and leaf age effects on the probing and settling behavior of Frankliniella fusca and Frankliniella occidentalis (Thysanoptera: Thripidae).
Joost PH, Riley DG.
Environ Entomol. 2008 Feb;37(1):213-23.

Characterization of tomato zonate spot virus, a new tospovirus in China.
Dong JH, Cheng XF, Yin YY, Fang Q, Ding M, Li TT, Zhang LZ, Su XX, McBeath JH, Zhang ZK.
Arch Virol. 2008;153(5):855-64. Epub 2008 Mar 5.

A rapid and efficient inoculation method for Tomato spotted wilt tospovirus.
Mandal B, Csinos AS, Martinez-Ochoa N, Pappu HR.
J Virol Methods. 2008 Apr;149(1):195-8. Epub 2008 Feb 13.

Biological and molecular characterization of tospoviruses in Thailand.
Chiemsombat P, Gajanandana O, Warin N, Hongprayoon R, Bhunchoth A, Pongsapich P.
Arch Virol. 2008;153(3):571-7. Epub 2008 Jan 10.

Molecular differences in the mitochondrial cytochrome oxidase I (mtCOI) gene and development of a species-specific marker for onion thrips, Thrips tabaci Lindeman, and melon thrips, T. palmi Karny (Thysanoptera: Thripidae), vectors of tospoviruses (Bunyaviridae).
Asokan R, Krishna Kumar NK, Kumar V, Ranganath HR.
Bull Entomol Res. 2007 Oct;97(5):461-70.

Role of insecticides in reducing thrips injury to plants and incidence of tomato spotted wilt virus in Virginia market-type peanut.
Herbert DA Jr, Malone S, Aref S, Brandenburg RL, Jordan DL, Royals BM, Johnson PD.
J Econ Entomol. 2007 Aug;100(4):1241-7.

The glycoprotein gene of Chrysanthemum stem necrosis virus and Zucchini lethal chlorosis virus and molecular relationship with other tospoviruses.
Nagata T, Carvalho KR, Sodré Rde A, Dutra LS, Oliveira PA, Noronha EF, Lovato FA, Resende Rde O, De Avila AC, Inoue-Nagata AK.
Virus Genes. 2007 Dec;35(3):785-93. Epub 2007 Jun 15.

The nucleoprotein of Tomato spotted wilt virus as protein tag for easy purification and enhanced production of recombinant proteins in plants.
Lacorte C, Ribeiro SG, Lohuis D, Goldbach R, Prins M.
Protein Expr Purif. 2007 Sep;55(1):17-22. Epub 2007 Mar 28.

Evidence that the nonstructural protein of Tomato spotted wilt virus is the avirulence determinant in the interaction with resistant pepper carrying the TSW gene.
Margaria P, Ciuffo M, Pacifico D, Turina M.
Mol Plant Microbe Interact. 2007 May;20(5):547-58.

Nucleotide sequence of the S and M RNA segments of a Groundnut bud necrosis virus isolate from Vigna radiata in India.
Saritha RK, Jain RK.
Arch Virol. 2007;152(6):1195-200. Epub 2007 Mar 26.

The cytoplasmic domain of tomato spotted wilt virus Gn glycoprotein is required for Golgi localisation and interaction with Gc.
Snippe M, Smeenk L, Goldbach R, Kormelink R.
Virology. 2007 Jul 5;363(2):272-9. Epub 2007 Feb 28.

Evidence for plant viruses in the region of Argentina Islands, Antarctica.
Polischuk V, Budzanivska I, Shevchenko T, Oliynik S.
FEMS Microbiol Ecol. 2007 Feb;59(2):409-17.

Multiple virus resistance at a high frequency using a single transgene construct.
Bucher E, Lohuis D, van Poppel PM, Geerts-Dimitriadou C, Goldbach R, Prins M.
J Gen Virol. 2006 Dec;87(Pt 12):3697-701.

Hantavirus N protein exhibits genus-specific recognition of the viral RNA panhandle.
Mir MA, Brown B, Hjelle B, Duran WA, Panganiban AT.
J Virol. 2006 Nov;80(22):11283-92. Epub 2006 Sep 13.

Tomato spotted wilt virus Gc and N proteins interact in vivo.
Snippe M, Willem Borst J, Goldbach R, Kormelink R.
Virology. 2007 Jan 20;357(2):115-23. Epub 2006 Sep 11.

Molecular and biological comparison of two Tomato yellow ring virus (TYRV) isolates: challenging the Tospovirus species concept.
Hassani-Mehraban A, Saaijer J, Peters D, Goldbach R, Kormelink R.
Arch Virol. 2007 Jan;152(1):85-96. Epub 2006 Aug 21.

At-4/1, an interactor of the Tomato spotted wilt virus movement protein, belongs to a new family of plant proteins capable of directed intra- and intercellular trafficking.
Paape M, Solovyev AG, Erokhina TN, Minina EA, Schepetilnikov MV, Lesemann DE, Schiemann J, Morozov SY, Kellmann JW.
Mol Plant Microbe Interact. 2006 Aug;19(8):874-83.

Incidence of thrips and tomato spotted wilt Tospovirus in fluecured tobacco protected from early season insect pest infestations.
McPherson RM.
J Econ Entomol. 2006 Jun;99(3):764-70.

Viral suppressors of RNA interference impair RNA silencing induced by a Semliki Forest virus replicon in tick cells.
Garcia S, Billecocq A, Crance JM, Prins M, Garin D, Bouloy M.
J Gen Virol. 2006 Jul;87(Pt 7):1985-9.

First report of occurrence of two viruses on pea field in Iran.
Esfandiari N, Kohi Habibi M, Mosahebi GH, Mozafari J.
Commun Agric Appl Biol Sci. 2005;70(3):411-6.

The complete nucleotide sequence of a capsicum chlorosis virus isolate from Lycopersicum esculentum in Thailand.
Knierim D, Blawid R, Maiss E.
Arch Virol. 2006 Sep;151(9):1761-82. Epub 2006 Apr 10.

Host plant, temperature, and photoperiod effects on ovipositional preference of Frankliniella occidentalis and Frankliniella fusca (Thysanoptera: Thripidae).
Chaisuekul C, Riley DG.
J Econ Entomol. 2005 Dec;98(6):2107-13.

Summer weeds as hosts for Frankliniella occidentalis and Frankliniella fusca (Thysanoptera: Thripidae) and as reservoirs for tomato spotted wilt Tospovirus in North Carolina.
Kahn ND, Walgenbach JF, Kennedy GG.
J Econ Entomol. 2005 Dec;98(6):1810-5.

[Some biologic characteristics of two tomato spotted wilt virus isolates].
Shepelevych VV.
Mikrobiol Z. 2005 Sep-Oct;67(5):97-102. Ukrainian.

Tomato spotted wilt virus particle assembly and the prospects of fluorescence microscopy to study protein-protein interactions involved.
Snippe M, Goldbach R, Kormelink R.
Adv Virus Res. 2005;65:63-120. .

Rift Valley fever virus.
Flick R, Bouloy M.
Curr Mol Med. 2005 Dec;5(8):827-34. Review.

Management of spotted wilt vectored by Frankliniella fusca (Thysanoptera: Thripidae) in Virginia market-type peanut.
Hurt CA, Brandenburg RL, Jordan DL, Kennedy GG, Bailey JE.
J Econ Entomol. 2005 Oct;98(5):1435-40.

Sequence diversity of the nucleoprotein gene of iris yellow spot virus (genus Tospovirus, family Bunyaviridae) isolates from the western region of the United States.
Pappu HR, du Toit LJ, Schwartz HF, Mohan SK.
Arch Virol. 2006 May;151(5):1015-23. Epub 2005 Nov 30.

Nucleotide sequence of melon yellow spot virus M RNA segment and characterization of non-viral sequences in subgenomic RNA.
Okuda M, Kato K, Hanada K, Iwanami T.
Arch Virol. 2006 Jan;151(1):1-11. Epub 2005 Aug 26.

Tobacco plants respond to the constitutive expression of the tospovirus movement protein NS(M) with a heat-reversible sealing of plasmodesmata that impairs development.
Rinne PL, van den Boogaard R, Mensink MG, Kopperud C, Kormelink R, Goldbach R, van der Schoot C.
Plant J. 2005 Sep;43(5):688-707.

The tubule-forming NSm protein from Tomato spotted wilt virus complements cell-to-cell and long-distance movement of Tobacco mosaic virus hybrids.
Lewandowski DJ, Adkins S.
Virology. 2005 Nov 10;342(1):26-37. Epub 2005 Aug 19.

Specific and common changes in Nicotiana benthamiana gene expression in response to infection by enveloped viruses.
Senthil G, Liu H, Puram VG, Clark A, Stromberg A, Goodin MM.
J Gen Virol. 2005 Sep;86(Pt 9):2615-25.

Immunodiagnosis of groundnut and watermelon bud necrosis viruses using polyclonal antiserum to recombinant nucleocapsid protein of Groundnut bud necrosis virus.
Jain RK, Pandey AN, Krishnareddy M, Mandal B.
J Virol Methods. 2005 Dec;130(1-2):162-4. Epub 2005 Aug 10.

Tospovirus-thrips interactions.
Whitfield AE, Ullman DE, German TL.
Annu Rev Phytopathol. 2005;43:459-89. Review.

Detection and localization of Rice stripe virus gene products in vivo.
Liang D, Qu Z, Ma X, Hull R.
Virus Genes. 2005 Oct;31(2):211-21.

Matrix attachment regions increase the efficiency and stability of RNA-mediated resistance to tomato spotted wilt virus in transgenic tobacco.
Levin JS, Thompson WF, Csinos AS, Stephenson MG, Weissinger AK.
Transgenic Res. 2005 Apr;14(2):193-206.

Purification and serological analyses of tospoviral nucleocapsid proteins expressed by Zucchini yellow mosaic virus vector in squash.
Chen TC, Hsu HT, Jain RK, Huang CW, Lin CH, Liu FL, Yeh SD.
J Virol Methods. 2005 Nov;129(2):113-24.

Phage display-selected single-chain antibodies confer high levels of resistance against Tomato spotted wilt virus.
Prins M, Lohuis D, Schots A, Goldbach R.
J Gen Virol. 2005 Jul;86(Pt 7):2107-13.

Tomato spotted wilt virus glycoprotein G(C) is cleaved at acidic pH.
Whitfield AE, Ullman DE, German TL.
Virus Res. 2005 Jun;110(1-2):183-6.

Tomato spotted wilt virus S-segment mRNAs have overlapping 3'-ends containing a predicted stem-loop structure and conserved sequence motif.
van Knippenberg I, Goldbach R, Kormelink R.
Virus Res. 2005 Jun;110(1-2):125-31.

Tomato spotted wilt virus transcriptase in vitro displays a preference for cap donors with multiple base complementarity to the viral template.
van Knippenberg I, Lamine M, Goldbach R, Kormelink R.
Virology. 2005 Apr 25;335(1):122-30.

Thrips and tospoviruses come of age: mapping determinants of insect transmission.
Ullman DE, Whitfield AE, German TL.
Proc Natl Acad Sci U S A. 2005 Apr 5;102(14):4931-2. Epub 2005 Mar 28. .

Impact of early-season thrips management on reducing the risks of spotted wilt virus and suppressing aphid populations in Flue-cured tobacco.
McPherson RM, Stephenson MG, Lahue SS, Mullis SW.
J Econ Entomol. 2005 Feb;98(1):129-34.

Viral genetic determinants for thrips transmission of Tomato spotted wilt virus.
Sin SH, McNulty BC, Kennedy GG, Moyer JW.
Proc Natl Acad Sci U S A. 2005 Apr 5;102(14):5168-73. Epub 2005 Mar 7.

The use of fluorescence microscopy to visualise homotypic interactions of tomato spotted wilt virus nucleocapsid protein in living cells.
Snippe M, Borst JW, Goldbach R, Kormelink R.
J Virol Methods. 2005 Apr;125(1):15-22. Epub 2005 Jan 18.

Expression of a viral polymerase-bound host factor turns human cell lines permissive to a plant- and insect-infecting virus.
de Medeiros RB, Figueiredo J, Resende Rde O, De Avila AC.
Proc Natl Acad Sci U S A. 2005 Jan 25;102(4):1175-80. Epub 2005 Jan 18.

The molecular population genetics of the Tomato spotted wilt virus (TSWV) genome.
Tsompana M, Abad J, Purugganan M, Moyer JW.
Mol Ecol. 2005 Jan;14(1):53-66.

Tactics for management of thrips (Thysanoptera: Thripidae) and tomato spotted wilt virus in tomato.
Riley DG, Pappu HR.
J Econ Entomol. 2004 Oct;97(5):1648-58.

Sequence analysis of the glycoproteins of Tomato chlorotic spot virus and Groundnut ringspot virus and comparison with other tospoviruses.
Lovato FA, Nagata T, de Oliveira Resende R, de Avila AC, Inoue-Nagata AK.
Virus Genes. 2004 Dec;29(3):321-8.

Proteomics computational analyses suggest that the carboxyl terminal glycoproteins of Bunyaviruses are class II viral fusion protein (beta-penetrenes).
Garry CE, Garry RF.
Theor Biol Med Model. 2004 Nov 15;1:10.

Expression and characterization of a soluble form of tomato spotted wilt virus glycoprotein GN.
Whitfield AE, Ullman DE, German TL.
J Virol. 2004 Dec;78(23):13197-206.

Specificity of accumulation and transmission of tomato spotted wilt virus (TSWV) in two genera, Frankliniella and Thrips (Thysanoptera: Thripidae).
Inoue T, Sakurai T, Murai T, Maeda T.
Bull Entomol Res. 2004 Dec;94(6):501-7.

Thysanoptera: diversity and interactions.
Mound LA.
Annu Rev Entomol. 2005;50:247-69. Review.

Development of immunocapture reverse transcription loop-mediated isothermal amplification for the detection of tomato spotted wilt virus from chrysanthemum.
Fukuta S, Ohishi K, Yoshida K, Mizukami Y, Ishida A, Kanbe M.
J Virol Methods. 2004 Oct;121(1):49-55.

Expression of a modified nucleocapsid-protein of Tomato spotted wilt virus (TSWV) confers resistance against TSWV and Groundnut ringspot virus (GRSV) by blocking systemic spread.
Schwach F, Adam G, Heinze C.
Mol Plant Pathol. 2004 Jul 1;5(4):309-16.

[Pathogenesis and induced virus resistance in tobacco plants affected by tomato spotted wilt virus].
Kovalenko OH, Shepelevych VV.
Mikrobiol Z. 2004 Mar-Apr;66(2):81-5. Ukrainian.

The plant virus Tomato Spotted Wilt Tospovirus activates the immune system of its main insect vector, Frankliniella occidentalis.
Medeiros RB, Resende Rde O, de Avila AC.
J Virol. 2004 May;78(10):4976-82.

In vitro transcription of Tomato spotted wilt virus is independent of translation.
van Knippenberg I, Goldbach R, Kormelink R.
J Gen Virol. 2004 May;85(Pt 5):1335-8.

Tospovirus transmission depends on thrips ontogeny.
Moritz G, Kumm S, Mound L.
Virus Res. 2004 Mar;100(1):143-9.

The two envelope membrane glycoproteins of Tomato spotted wilt virus show differences in lectin-binding properties and sensitivities to glycosidases.
Naidu RA, Ingle CJ, Deom CM, Sherwood JL.
Virology. 2004 Feb 5;319(1):107-17.

Proteomics as a tool to improve investigation of substantial equivalence in genetically modified organisms: the case of a virus-resistant tomato.
Corpillo D, Gardini G, Vaira AM, Basso M, Aime S, Accotto GP, Fasano M.
Proteomics. 2004 Jan;4(1):193-200.

Selection of tomato plants resistant to a local Polish isolate of tomato spotted wilt virus (TSWV).
Czech AS, Szklarczyk M, Gajewski Z, Zukowska E, Michalik B, Kobyłko T, Strzałka K.
J Appl Genet. 2003;44(4):473-80.

[Changes in ultrastructure and protein metabolism of tobacco plants infected by tomato spotted wilt virus].
Kovalenko OH, Shepelevich VV.
Tsitol Genet. 2003 May-Jun;37(3):24-9. Ukrainian.

Association of L protein and in vitro tomato spotted wilt virus RNA-dependent RNA polymerase activity.
Chapman EJ, Hilson P, German TL.
Intervirology. 2003;46(3):177-81.

Characterisation of the feeding behaviour of western flower thrips in terms of electrical penetration graph (EPG) waveforms.
Kindt F, Joosten NN, Peters D, Tjallingii WF.
J Insect Physiol. 2003 Mar;49(3):183-91.

The partial sequence of RNA 1 of the ophiovirus Ranunculus white mottle virus indicates its relationship to rhabdoviruses and provides candidate primers for an ophiovirus-specific RT-PCR test.
Vaira AM, Accotto GP, Costantini A, Milne RG.
Arch Virol. 2003 Jun;148(6):1037-50.

Epidemiology and management of tomato spotted wilt in peanut.
Culbreath AK, Todd JW, Brown SL.
Annu Rev Phytopathol. 2003;41:53-75. Epub 2003 Apr 3. Review.

Peptide-mediated broad-spectrum plant resistance to tospoviruses.
Rudolph C, Schreier PH, Uhrig JF.
Proc Natl Acad Sci U S A. 2003 Apr 15;100(8):4429-34. Epub 2003 Apr 7.

Detection of Tomato spotted wilt virus in its vector Frankliniella occidentalis by reverse transcription-polymerase chain reaction.
Mason G, Roggero P, Tavella L.
J Virol Methods. 2003 Apr;109(1):69-73.

Seasonal dispersal patterns of Frankliniella fusca (Thysanoptera: Thripidae) and tomato spotted wilt virus occurrence in central and eastern North Carolina.
Groves RL, Walgenbach JF, Moyer JW, Kennedy GG.
J Econ Entomol. 2003 Feb;96(1):1-11.

Population dynamics of Frankliniella spp. and tomato spotted wilt incidence as influenced by cultural management tactics in tomato.
Stavisky J, Funderburk J, Brodbeck BV, Olson SM, Andersen PC.
J Econ Entomol. 2002 Dec;95(6):1216-21.

An unusual large intergenic region in the S-RNA of a Bulgarian tomato spotted wilt virus isolate.
Heinze C, Willingmann P, Schwach F, Adam G.
Arch Virol. 2003 Jan;148(1):199-205.

Negative-strand tospoviruses and tenuiviruses carry a gene for a suppressor of gene silencing at analogous genomic positions.
Bucher E, Sijen T, De Haan P, Goldbach R, Prins M.
J Virol. 2003 Jan;77(2):1329-36.

Genetic organisation of Iris yellow spot virus M RNA: indications for functional homology between the G(C) glycoproteins of tospoviruses and animal-infecting bunyaviruses.
Cortez I, Aires A, Pereira AM, Goldbach R, Peters D, Kormelink R.
Arch Virol. 2002 Dec;147(12):2313-25.

Purified tomato spotted wilt virus particles support both genome replication and transcription in vitro.
van Knippenberg I, Goldbach R, Kormelink R.
Virology. 2002 Nov 25;303(2):278-86.

Identification of a novel RNA silencing suppressor, NSs protein of Tomato spotted wilt virus.
Takeda A, Sugiyama K, Nagano H, Mori M, Kaido M, Mise K, Tsuda S, Okuno T.
FEBS Lett. 2002 Dec 4;532(1-2):75-9.

The route of tomato spotted wilt virus inside the thrips body in relation to transmission efficiency.
Kritzman A, Gera A, Raccah B, van Lent JW, Peters D.
Arch Virol. 2002 Nov;147(11):2143-56.

Expression of the movement protein of Tomato spotted wilt virus in its insect vector Frankliniella occidentalis.
Storms MM, Nagata T, Kormelink R, Goldbach RW, van Lent JW.
Arch Virol. 2002 Apr;147(4):825-31.

The detection of Tomato spotted wilt virus (TSWV) in individual thrips using real time fluorescent RT-PCR (TaqMan).
Boonham N, Smith P, Walsh K, Tame J, Morris J, Spence N, Bennison J, Barker I.
J Virol Methods. 2002 Mar;101(1-2):37-48.

Factors determining vector competence and specificity for transmission of Tomato spotted wilt virus.
Nagata T, Inoue-Nagata AK, van Lent J, Goldbach R, Peters D.
J Gen Virol. 2002 Mar;83(Pt 3):663-71.

Visual representation by atomic force microscopy (AFM) of tomato spotted wilt virus ribonucleoproteins.
Kellmann JW, Liebisch P, Schmitz KP, Piechulla B.
Biol Chem. 2001 Nov;382(11):1559-62.

Sequence diversity of NS(M) movement protein of tospoviruses.
Silva MS, Martins CR, Bezerra IC, Nagata T, de Avila AC, Resende RO.
Arch Virol. 2001 Jul;146(7):1267-81.

RT-PCR for detecting five distinct Tospovirus species using degenerate primers and dsRNA template.
Okuda M, Hanada K.
J Virol Methods. 2001 Aug;96(2):149-56.

In vivo analysis of the TSWV cap-snatching mechanism: single base complementarity and primer length requirements.
Duijsings D, Kormelink R, Goldbach R.
EMBO J. 2001 May 15;20(10):2545-52.

Variability of the N-protein and the intergenic region of the S RNA of tomato spotted wilt tospovirus (TSWV).
Heinze C, Letschert B, Hristova D, Yankulova M, Kauadjouor O, Willingmann P, Atanassov A, Adam G.
New Microbiol. 2001 Apr;24(2):175-87.

Comparison of the S RNA segments among Japanese isolates and Taiwanese isolates of Watermelon silver mottle virus.
Okuda M, Taba S, Tsuda S, Hidaka S, Kameya-Iwaki M, Hanada K.
Arch Virol. 2001;146(2):389-94.

Identification and characterization of a novel tospovirus species using a new RT-PCR approach.
Cortez I, Saaijer J, Wongjkaew KS, Pereira AM, Goldbach R, Peters D, Kormelink R.
Arch Virol. 2001;146(2):265-78.

Constitutive expression of interferon-induced human MxA protein in transgenic tobacco plants does not confer resistance to a variety of RNA viruses.
Frese M, Prins M, Ponten A, Goldbach RW, Haller O, Zeltz P.
Transgenic Res. 2000 Dec;9(6):429-38.

GST fusion proteins cause false positives during selection of viral movement protein specific single chain antibodies.
Zhang MY, Schillberg S, Zimmermann S, Liao YC, Breuer G, Fischer R.
J Virol Methods. 2001 Feb;91(2):139-47.

Tomato spotted wilt virus glycoproteins exhibit trafficking and localization signals that are functional in mammalian cells.
Kikkert M, Verschoor A, Kormelink R, Rottier P, Goldbach R.
J Virol. 2001 Jan;75(2):1004-12.

The broad-spectrum tospovirus resistance gene Sw-5 of tomato is a homolog of the root-knot nematode resistance gene Mi.
Brommonschenkel SH, Frary A, Frary A, Tanksley SD.
Mol Plant Microbe Interact. 2000 Oct;13(10):1130-8.

Peptide-derived broad-reacting antisera against tospovirus NSs-protein.
Heinze C, Roggero P, Sohn M, Vaira AM, Masenga V, Adam G.
J Virol Methods. 2000 Sep;89(1-2):137-46.

Real-time RT-PCR fluorescent detection of tomato spotted wilt virus.
Roberts CA, Dietzgen RG, Heelan LA, Maclean DJ.
J Virol Methods. 2000 Jul;88(1):1-8.

A single chimeric transgene derived from two distinct viruses confers multi-virus resistance in transgenic plants through homology-dependent gene silencing.
Jan FJ, Fagoaga C, Pang SZ, Gonsalves D.
J Gen Virol. 2000 Aug;81(Pt 8):2103-9.

Phylogenetic studies of tospoviruses (family: Bunyaviridae) based on intergenic region sequences of small and medium genomic RNAs.
Pappu SS, Bhat AI, Pappu HR, Deom CM, Culbreath AK.
Arch Virol. 2000;145(5):1035-45.

Immunoprecipitation of a 50-kDa protein: a candidate receptor component for tomato spotted wilt tospovirus (Bunyaviridae) in its main vector, Frankliniella occidentalis.
Medeiros RB, Ullman DE, Sherwood JL, German TL.
Virus Res. 2000 Apr;67(2):109-18.

Genetic mapping of the Tsw locus for resistance to the Tospovirus Tomato spotted wilt virus in Capsicum spp. and its relationship to the Sw-5 gene for resistance to the same pathogen in tomato.
Jahn M, Paran I, Hoffmann K, Radwanski ER, Livingstone KD, Grube RC, Aftergoot E, Lapidot M, Moyer J.
Mol Plant Microbe Interact. 2000 Jun;13(6):673-82.

Tomato spotted wilt virus-positive steps towards negative success.
Adkins S.
Mol Plant Pathol. 2000 May 1;1(3):151-7.

Simplified, rapid method for cloning of virus-binding polypeptides (putative receptors) via the far-western screening of a cDNA expression library using purified virus particles.
Medeiros RB, Rasochova L, German TL.
J Virol Methods. 2000 May;86(2):155-66.

[Tomato spotted wilt tospovirus: plant-infecting bunyaviridae].
Tsuda S.
Uirusu. 1999 Dec;49(2):119-30. Review. Japanese. .

A CAPS marker to assist selection of tomato spotted wilt virus (TSWV) resistance in pepper.
Moury B, Pflieger S, Blattes A, Lefebvre V, Palloix A.
Genome. 2000 Feb;43(1):137-42.

The movement protein NSm of tomato spotted wilt tospovirus (TSWV): RNA binding, interaction with the TSWV N protein, and identification of interacting plant proteins.
Soellick T, Uhrig JF, Bucher GL, Kellmann JW, Schreier PH.
Proc Natl Acad Sci U S A. 2000 Feb 29;97(5):2373-8.

A minimum length of N gene sequence in transgenic plants is required for RNA-mediated tospovirus resistance.
Jan FJ, Fagoaga C, Pang SZ, Gonsalves D.
J Gen Virol. 2000 Jan;81(Pt 1):235-42.

Analysis of the intergenic region of tomato spotted wilt Tospovirus medium RNA segment.
Bhat AI, Pappu SS, Pappu HR, Deom CM, Culbreath AK.
Virus Res. 1999 Jun;61(2):161-70.

Tomato spotted wilt virus in ornamental plants, vegetables and weeds in the Czech Republic.
Mertelík J, Mokrá V.
Acta Virol. 1998 Nov;42(5):347-51. Review.

Alfalfa mosaic virus RNAs serve as cap donors for tomato spotted wilt virus transcription during coinfection of Nicotiana benthamiana.
Duijsings D, Kormelink R, Goldbach R.
J Virol. 1999 Jun;73(6):5172-5.

Functional expression in bacteria and plants of an scFv antibody fragment against tospoviruses.
Franconi R, Roggero P, Pirazzi P, Arias FJ, Desiderio A, Bitti O, Pashkoulov D, Mattei B, Bracci L, Masenga V, Milne RG, Benvenuto E.
Immunotechnology. 1999 Mar;4(3-4):189-201.

Tissue tropism related to vector competence of Frankliniella occidentalis for tomato spotted wilt tospovirus.
Nagata T, Inoue-Nagata AK, Smid HM, Goldbach R, Peters D.
J Gen Virol. 1999 Feb;80 ( Pt 2):507-15.

Tomato spotted wilt virus particle morphogenesis in plant cells.
Kikkert M, Van Lent J, Storms M, Bodegom P, Kormelink R, Goldbach R.
J Virol. 1999 Mar;73(3):2288-97.

Characterization of the large (L) RNA of peanut bud necrosis tospovirus.
Gowda S, Satyanarayana T, Naidu RA, Mushegian A, Dawson WO, Reddy DV.
Arch Virol. 1998;143(12):2381-90.

Homotypic interaction and multimerization of nucleocapsid protein of tomato spotted wilt tospovirus: identification and characterization of two interacting domains.
Uhrig JF, Soellick TR, Minke CJ, Philipp C, Kellmann JW, Schreier PH.
Proc Natl Acad Sci U S A. 1999 Jan 5;96(1):55-60.

Sequence characteristics of natural populations of tomato spotted wilt tospovirus infecting flue-cured tobacco in Georgia.
Pappu H, Pappu S, Jain R, Bertrand P, Culbreath A, McPherson R, Csinos A.
Virus Genes. 1998;17(2):169-77.

Watermelon bud necrosis tospovirus is a distinct virus species belonging to serogroup IV.
Jain RK, Pappu HR, Pappu SS, Reddy MK, Vani A.
Arch Virol. 1998;143(8):1637-44.

Molecular characterization of tomato spotted Wilt virus defective interfering RNAs and detection of truncated L proteins.
Inoue-Nagata AK, Kormelink R, Sgro JY, Nagata T, Kitajima EW, Goldbach R, Peters D.
Virology. 1998 Sep 1;248(2):342-56.

Characterization of the nucleic acid binding properties of tomato spotted wilt virus nucleocapsid protein.
Richmond KE, Chenault K, Sherwood JL, German TL.
Virology. 1998 Aug 15;248(1):6-11.

Early events of tomato spotted wilt transcription and replication in protoplasts.
Steinecke P, Heinze C, Oehmen E, Adam G, Schreier PH.
New Microbiol. 1998 Jul;21(3):263-8.

Tomato spotted wilt Tospovirus genome reassortment and genome segment-specific adaptation.
Qiu WP, Geske SM, Hickey CM, Moyer JW.
Virology. 1998 Apr 25;244(1):186-94.

Peanut yellow spot virus is a member of a new serogroup of Tospovirus genus based on small (S) RNA sequence and organization.
Satyanarayana T, Gowda S, Reddy KL, Mitchell SE, Dawson WO, Reddy DV.
Arch Virol. 1998;143(2):353-64.

The emerging problem of tospovirus infection and nonconventional methods of control.
Prins M, Goldbach R.
Trends Microbiol. 1998 Jan;6(1):31-5. Review.

Map-based cloning of the tomato genomic region that spans the Sw-5 tospovirus resistance gene in tomato.
Brommonschenkel SH, Tanksley SD.
Mol Gen Genet. 1997 Sep;256(2):121-6.

Cladistic analysis of Tospovirus using molecular characters.
Dewey RA, Semorile LC, Grau O, Crisci JV.
Mol Phylogenet Evol. 1997 Aug;8(1):11-32.

Nontarget DNA sequences reduce the transgene length necessary for RNA-mediated tospovirus resistance in transgenic plants.
Pang SZ, Jan FJ, Gonsalves D.
Proc Natl Acad Sci U S A. 1997 Jul 22;94(15):8261-6.

A protoplast system for studying tomato spotted wilt virus infection.
Kikkert M, van Poelwijk F, Storms M, Kassies W, Bloksma H, van Lent J, Kormelink R, Goldbach R.
J Gen Virol. 1997 Jul;78 ( Pt 7):1755-63.

Multiplication of tomato spotted wilt virus in primary cell cultures derived from two thrips species.
Nagata T, Storms MM, Goldbach R, Peters D.
Virus Res. 1997 May;49(1):59-66.

Completion of the impatiens necrotic spot virus genome sequence and genetic comparison of the L proteins within the family Bunyaviridae.
van Poelwijk F, Prins M, Goldbach R.
J Gen Virol. 1997 Mar;78 ( Pt 3):543-6.

Serological comparison of tospoviruses with polyclonal antibodies produced against the main structural proteins of tomato spotted wilt virus.
Feldhoff A, Kikkert M, Kormelink R, Krczal G, Goldbach R, Peters D.
Arch Virol. 1997;142(4):781-93.

Characterization of RNA-mediated resistance to tomato spotted wilt virus in transgenic tobacco plants expressing NS(M) gene sequences.
Prins M, Kikkert M, Ismayadi C, de Graauw W, de Haan P, Goldbach R.
Plant Mol Biol. 1997 Jan;33(2):235-43.

The complete nucleotide sequence and genome organization of the M RNA segment of peanut bud necrosis tospovirus and comparison with other tospoviruses.
Satyanarayana T, Mitchell SE, Reddy DV, Kresovich S, Jarret R, Naidu RA, Gowda S, Demski JW.
J Gen Virol. 1996 Sep;77 ( Pt 9):2347-52.

An improved method for the detection of Tospoviruses using the polymerase chain reaction.
Mumford RA, Barker I, Wood KR.
J Virol Methods. 1996 Mar;57(1):109-15.

A polyclonal antiserum against a recombinant viral protein combines specificity with versatility.
Vaira AM, Vecchiati M, Masenga V, Accotto GP.
J Virol Methods. 1996 Feb;56(2):209-19.

Clustering of Argentinean tospoviruses with existing species in the genus by sequence analysis of a 450-nucleotide RNA region of the N gene.
Dewey R, Semorille L, Crisci J, Grau O.
Virus Genes. 1996;13(3):255-62.

Detection of Tospovirus species by RT-PCR of the N-gene and restriction enzyme digestions of the products.
Dewey RA, Semorile LC, Grau O.
J Virol Methods. 1996 Jan;56(1):19-26.

Peanut bud necrosis tospovirus S RNA: complete nucleotide sequence, genome organization and homology to other tospoviruses.
Satyanarayana T, Mitchell SE, Reddy DV, Brown S, Kresovich S, Jarret R, Naidu RA, Demski JW.
Arch Virol. 1996;141(1):85-98.

Sequence analysis of the 5' ends of tomato spotted wilt virus N mRNAs.
van Poelwijk F, Kolkman J, Goldbach R.
Arch Virol. 1996;141(1):177-84.

The nonstructural NSm protein of tomato spotted wilt virus induces tubular structures in plant and insect cells.
Storms MM, Kormelink R, Peters D, Van Lent JW, Goldbach RW.
Virology. 1995 Dec 20;214(2):485-93.

An RNA-dependent RNA polymerase activity associated with virions of tomato spotted wilt virus, a plant- and insect-infecting bunyavirus.
Adkins S, Quadt R, Choi TJ, Ahlquist P, German T.
Virology. 1995 Feb 20;207(1):308-11.

Completion of the La Crosse virus genome sequence and genetic comparisons of the L proteins of the Bunyaviridae.
Roberts A, Rossier C, Kolakofsky D, Nathanson N, Gonzalez-Scarano F.
Virology. 1995 Jan 10;206(1):742-5.

Broad resistance to tospoviruses in transgenic tobacco plants expressing three tospoviral nucleoprotein gene sequences.
Prins M, de Haan P, Luyten R, van Veller M, van Grinsven MQ, Goldbach R.
Mol Plant Microbe Interact. 1995 Jan-Feb;8(1):85-91.

Resistance to tospoviruses in Nicotiana benthamiana transformed with the N gene of tomato spotted wilt virus: correlation between transgene expression and protection in primary transformants.
Vaira AM, Semeria L, Crespi S, Lisa V, Allavena A, Accotto GP.
Mol Plant Microbe Interact. 1995 Jan-Feb;8(1):66-73.

Expression and subcellular location of the NSM protein of tomato spotted wilt virus (TSWV), a putative viral movement protein.
Kormelink R, Storms M, Van Lent J, Peters D, Goldbach R.
Virology. 1994 Apr;200(1):56-65.

The detection of tomato spotted wilt virus using the polymerase chain reaction.
Mumford RA, Barker I, Wood KR.
J Virol Methods. 1994 Mar;46(3):303-11.

Detection of the L protein of tomato spotted wilt virus.
van Poelwijk F, Boye K, Oosterling R, Peters D, Goldbach R.
Virology. 1993 Nov;197(1):468-70.

Non-viral sequences at the 5' ends of Dugbe nairovirus S mRNAs.
Jin H, Elliott RM.
J Gen Virol. 1993 Oct;74 ( Pt 10):2293-7.

Different mechanisms protect transgenic tobacco against tomato spotted wilt and impatiens necrotic spot Tospoviruses.
Pang SZ, Slightom JL, Gonsalves D.
Biotechnology (N Y). 1993 Jul;11(7):819-24.

Rapid fixation and embedding method for immunocytochemical studies of tomato spotted wilt tospovirus (TSWV) in plant and insect tissues.
Westcot DM, Ullman DE, Sherwood JL, Cantone FA, German TL.
Microsc Res Tech. 1993 Apr 15;24(6):514-20.

Classification of tospoviruses based on phylogeny of nucleoprotein gene sequences.
de Avila AC, de Haan P, Kormelink R, Resende Rde O, Goldbach RW, Peters D.
J Gen Virol. 1993 Feb;74 ( Pt 2):153-9.

Distinct levels of relationships between tospovirus isolates.
de Avila AC, de Haan P, Smeets ML, Resende Rde O, Kormelink R, Kitajima EW, Goldbach RW, Peters D.
Arch Virol. 1993;128(3-4):211-27.

Cell-to-cell movement of plant viruses. Insights from amino acid sequence comparisons of movement proteins and from analogies with cellular transport systems.
Mushegian AR, Koonin EV.
Arch Virol. 1993;133(3-4):239-57. Review.

Serological comparison of tospovirus isolates from Taiwan and India with impatiens necrotic spot virus and different tomato spotted wilt virus isolates.
Adam G, Yeh SD, Reddy DV, Green SK.
Arch Virol. 1993;130(3-4):237-50.

Defective interfering L RNA segments of tomato spotted wilt virus retain both virus genome termini and have extensive internal deletions.
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Characterization of RNA-mediated resistance to tomato spotted wilt virus in transgenic tobacco plants.
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The nucleotide sequence of the S RNA of Impatiens necrotic spot virus, a novel tospovirus.
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FEBS Lett. 1992 Jul 13;306(1):27-32.

Nucleotide sequence and coding strategy of the Uukuniemi virus L RNA segment.
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The M RNA of impatiens necrotic spot Tospovirus (Bunyaviridae) has an ambisense genomic organization.
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Tospoviruses: diagnosis, molecular biology, phylogeny, and vector relationships.
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Nucleotide sequence of the 3' non-coding region and N gene of the S RNA of a serologically distinct tospovirus.
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