Access the full text.
Sign up today, get DeepDyve free for 14 days.
M. Okuda, K. Kato, K. Hanada, T. Iwanami (2005)
Nucleotide sequence of melon yellow spot virus M RNA segment and characterization of non-viral sequences in subgenomic RNAArchives of Virology, 151
Scott Adkins (2000)
Tomato spotted wilt virus-positive steps towards negative success.Molecular plant pathology, 1 3
SS Pappu, AI Bhat, HR Pappu, CM Deom, AK Culbreath (2000)
Phylogenetic studies of tospoviruses (Family Bunyaviridae) based on intergenic region sequence of small and medium genomic RNAsArch Virol, 145
O. Maloy, T. Murray (2000)
Encyclopedia of Plant Pathology
(2005)
Molecular characterization of Melon yellow spot virus infecting cucurbits in Thailand
I. Cortez, J. Saaijer, K. Wongjkaew, A.M. Pereira, R. Goldbach, D. Peters, R. Kormelink (2001)
Identification and characterization of a novel tospovirus species using a new RT-PCR approachArchives of Virology, 146
DE Ullman, R Meideros, LR Campbell, AE Whitfield, JL Sherwood, TL German (2002)
Thrips as vectors of TospovirusesAdv Bot Res, 36
T. Nagata, Keisiane Carvalho, Rogeria Sodré, L. Dutra, Priscila Oliveira, E. Noronha, F. Lovato, R. Resende, A. Ávila, A. Inoue-Nagata (2007)
The glycoprotein gene of Chrysanthemum stem necrosis virus and Zucchini lethal chlorosis virus and molecular relationship with other tospovirusesVirus Genes, 35
A. Hassani-Mehraban, J. Saaijer, D. Peters, R. Goldbach, R. Kormelink (2006)
Molecular and biological comparison of two Tomato yellow ring virus (TYRV) isolates: challenging the Tospovirus species conceptArchives of Virology, 152
A. Ávila, P. Haan, R. Kormelink, R. Resende, R. Goldbach, D. Peters (1993)
Classification of tospoviruses based on phylogeny of nucleoprotein gene sequences.The Journal of general virology, 74 ( Pt 2)
A. Granoff, R. Webster (1999)
Encyclopedia of virology
C. Kunrong, Xu Zeyong, Y. Liying, Wang Guo-ping (2006)
Complete Sequence Analysis of Genomic S RNA of Capsicum chlorosis Virus Infecting Peanuts in ChinaVirologica Sinica, 21
AE Whitfield, DE Ullman, TL German (2005)
Tospovirus-thrips interactionsAnu Rev Phytopathol, 43
W. Premachandra, C. Borgemeister, E. Maiss, D. Knierim, H. Poehling (2005)
Ceratothripoides claratris, a New Vector of a Capsicum chlorosis virus Isolate Infecting Tomato in Thailand.Phytopathology, 95 6
A. Whitfield, D. Ullman, T. German (2005)
Tospovirus-thrips interactions.Annual review of phytopathology, 43
H. Hsu, P. Ueng, F. Chu, Zhaohui Ye, S. Yeh (2000)
Serological and Molecular Characterization of a High Temperature-recovered Virus Belonging to Tospovirus Serogroup IVJournal of General Plant Pathology, 66
K. Kato, K. Handa, M. Kameya-Iwaki (2000)
Melon yellow spot virus: A Distinct Species of the Genus Tospovirus Isolated from Melon.Phytopathology, 90 4
AC Avila, P Haan, R Kormelink, R Resende deO, RW Goldbach, D Peters (1993)
Classification of tospoviruses based on the phylogeny of nucleocapsid gene sequencesJ Gen Virol, 74
I. Cortez, Alfredo Aires, A.M. Pereira, R. Goldbach, Dick Peters, R. Kormelink (2002)
Genetic organisation of Iris yellow spot virus M RNA: indications for functional homology between the G(C) glycoproteins of tospoviruses and animal-infecting bunyavirusesArchives of Virology, 147
J. Sherwood, T. German, J. Moyer, D. Ullman (2003)
Tomato spotted wiltThe Plant Health Instructor
D. Reddy, A. Ratna, M. Sudarshana, F. Poul, I. Kumar (1992)
Serological relationships and purification of bud necrosis virus, a tospovirus occurring in peanut (Arachis hypogaea L.) in IndiaAnnals of Applied Biology, 120
J. Cénis, P. Perez, A. Fereres (1993)
Identification of Aphid (Homoptera: Aphididae) Species and Clones by Random Amplified Polymorphic DNAAnnals of The Entomological Society of America, 86
S. Yeh, T. Chang (1995)
Nucleotide sequence of the N gene of watermelon silver mottle virus, a proposed new member of the genus TospovirusPhytopathology, 85
(2002)
Characterization of tospovirus infecting tomatoes in Thailand revealed the presence of serogroup IV-tospovirus but not serogroup I-tomato spotted wilt virus
Sudhir Kumar, K. Tamura, M. Nei (2004)
MEGA3: Integrated software for Molecular Evolutionary Genetics Analysis and sequence alignmentBriefings in bioinformatics, 5 2
Shujun Chang, J. Puryear, J. Cairney (1993)
A simple and efficient method for isolating RNA from pine treesPlant Molecular Biology Reporter, 11
LA McMichael, DM Persley, JE Thomas (2002)
A new tospovirus serogroup IV species infecting capsicum and tomato in Queensland, AustraliaAust Plant Pathol, 31
R. Dewey, L. Semorille, J. Crisci, O. Grau (1996)
Clustering of Argentinean tospoviruses with existing species in the genus by sequence analysis of a 450-nucleotide RNA region of the N gene.Virus genes, 13 3
(2005)
Virus taxonomy: eight report of the international committe on taxonomy of viruses
D. Knierim, R. Blawid, E. Maiss (2006)
The complete nucleotide sequence of a capsicum chlorosis virus isolate from Lycopersicum esculentum in ThailandArchives of Virology, 151
(2002)
Tospoviruses: a new emerging important virus in Asia
T. Satyanarayana, S. Gowda, K. Reddy, S. Mitchell, W. Dawson, D. Reddy (1998)
Peanut yellow spot virus is a member of a new serogroup of Tospovirus genus based on small (S) RNA sequence and organizationArchives of Virology, 143
Twenty-eight isolates of tospoviruses associated with tomato, pepper, cucurbits, peanut, and Physalis plants collected from fields in different regions of Thailand were characterized. On the basis of N gene and protein sequence relationships, three tospoviruses were identified, namely Watermelon silver mottle virus (WSMoV), Capsicum chlorosis virus (CaCV), and Melon yellow spot virus (MYSV). CLUSTAL analysis of selected N protein sequences showed different isolates of CaCV in three distinct clades. Based on necrosis symptoms on tomato and their 93% identity to CaCV isolates in the other two clades, CaCV-TD8, CaCV-AIT and CaCV-KS16-Thailand tomato tospovirus were designated as CaCV-tomato necrosis strain. A phylogenetic tree based on the 413-amino-acid Gc fragment of the CaCV-Pkk isolate supported the existence of three distinct CaCV clades. Vigna unguiculata produced concentric rings useful for discriminating the Thai CaCV peanut isolates from tomato or pepper isolates. By using reverse transcription polymerase chain reaction with species-specific primers, the three tospoviruses could be detected in mixed infections in watermelon and Physalis, as well as in the bodies of thrips vectors, Thrips palmi and Scirtothrips dorsalis , collected from fields.
Archives of Virology – Springer Journals
Published: Mar 1, 2008
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.