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G. Banks, J. Colvin, R. Reddy, M. Maruthi, V. Muniyappa, H. Venkatesh, M. Kumar, A. Padmaja, F. Beitia, S. Seal (2001)
First Report of the Bemisia tabaci B Biotype in India and an Associated Tomato leaf curl virus Disease Epidemic.Plant disease, 85 2
A. Saikia, V. Muniyappa (1989)
Epidemiology and control of tomato leaf curl virus in southern IndiaTropical Agriculture, Trinidad and Tobago, 66
(1994)
A simple and efficient method for DNA extraction from grapevine cultivars and Vitis species
S. Bull, W. Tsai, R. Briddon, P. Markham, J. Stanley, S. Green (2004)
Diversity of begomovirus DNA β satellites of non-malvaceous plants in east and south east AsiaArchives of Virology, 149
I. Dry, J. Rigden, L. Krake, P. Mullineaux, M. Rezaian (1993)
Nucleotide sequence and genome organization of tomato leaf curl geminivirus.The Journal of general virology, 74 ( Pt 1)
V. Fondong, J. Pita, M. Rey, A. Kochko, R. Beachy, C. Fauquet (2000)
Evidence of synergism between African cassava mosaic virus and a new double-recombinant geminivirus infecting cassava in Cameroon.The Journal of general virology, 81 Pt 1
M. Padidam, R. Beachy, C. Fauquet (1995)
Tomato leaf curl geminivirus from India has a bipartite genome and coat protein is not essential for infectivity.The Journal of general virology, 76 ( Pt 1)
(2003)
Bemisia tabaci (Genn.) biotypes in India
N. Navot, E. Pichersky, M. Zeidan, D. Zamir, H. Czosnek (1991)
Tomato yellow leaf curl virus: a whitefly-transmitted geminivirus with a single genomic component.Virology, 185 1
K. Usharani, B. Surendranath, S. Paul-Khurana, I. Garg, V. Malathi (2004)
Potato leaf curl – a new disease of potato in northern India caused by a strain of Tomato leaf curl New Delhi virusPlant Pathology, 53
K. Saunders, N. Salim, V. Mali, V. Malathi, R. Briddon, P. Markham, J. Stanley (2002)
Characterisation of Sri Lankan cassava mosaic virus and Indian cassava mosaic virus: evidence for acquisition of a DNA B component by a monopartite begomovirus.Virology, 293 1
(2004)
Seal SE (unpublished)A distinct begomovirus found in cotton showing leaf curl disease symptoms in Bangalore, south India
J. Jose, R. Usha (2003)
Bhendi yellow vein mosaic disease in India is caused by association of a DNA Beta satellite with a begomovirus.Virology, 305 2
D. Higgins, J. Thompson, T. Gibson (1996)
Using CLUSTAL for multiple sequence alignments.Methods in enzymology, 266
J. Pita, V. Fondong, A. Sangaré, G. Otim-Nape, S. Ogwal, C. Fauquet (2001)
Recombination, pseudorecombination and synergism of geminiviruses are determinant keys to the epidemic of severe cassava mosaic disease in Uganda.The Journal of general virology, 82 Pt 3
B. Simón, J. Cénis, F. Beitia, S. Khalid, I. Moreno, A. Fraile, F. García-Arenal (2003)
Genetic Structure of Field Populations of Begomoviruses and of Their Vector Bemisia tabaci in Pakistan.Phytopathology, 93 11
R. Briddon, S. Bull, S. Mansoor, I. Amin, P. Markham (2002)
Universal primers for the PCR-mediated amplification of DNA βMolecular Biotechnology, 20
S. Ribeiro, L. Ambrozevicius, A. Ávila, I. Bezerra, R. Calegario, J. Fernandes, M. Lima, R. Mello, H. Rocha, F. Zerbini (2003)
Distribution and genetic diversity of tomato-infecting begomoviruses in Brazil*Archives of Virology, 148
P. Mehta, J. Wyman, M. Nakhla, D. Maxwell (1994)
Transmission of Tomato Yellow Leaf Curl Geminivirns by Bemisia tabaci (Homoptera: Aleyrodidae)Journal of Economic Entomology, 87
O. Chatchawankanphanich, D. Maxwell (2002)
Tomato leaf curl Karnataka virus from Bangalore, India, Appears to be a Recombinant Begomovirus.Phytopathology, 92 6
M. Maruthi, J. Colvin, S. Seal, G. Gibson, J. Cooper (2002)
Co-adaptation between cassava mosaic geminiviruses and their local vector populations.Virus research, 86 1-2
R. Briddon, S. Bull, I. Amin, A. Idris, S. Mansoor, I. Bedford, P. Dhawan, N. Rishi, Surender Siwatch, A. Abdel-Salam, Judith Brown, Y. Zafar, P. Markham (2003)
Diversity of DNA beta, a satellite molecule associated with some monopartite begomoviruses.Virology, 312 1
R. Vasudeva, J. Raj (1948)
A leaf-curl disease of Tomato.Phytopathology, 38
A. Kheyr-Pour, Mohammed Bendahmane, V. Matzeit, G. Accotto, S. Crespi, Bruno Gronenborn (1991)
Tomato yellow leaf curl virus from Sardinia is a whitefly-transmitted monopartite geminivirus.Nucleic acids research, 19 24
S. Chakraborty, P. Pandey, M. Banerjee, G. Kalloo, C. Fauquet (2003)
Tomato leaf curl Gujarat virus, a New Begomovirus Species Causing a Severe Leaf Curl Disease of Tomato in Varanasi, India.Phytopathology, 93 12
(1998)
Phylogenetic analysis using parsimony (and other methods)
K. Saunders, I. Bedford, R. Briddon, P. Markham, Sek-Man Wong, J. Stanley (2000)
A unique virus complex causes Ageratum yellow vein disease.Proceedings of the National Academy of Sciences of the United States of America, 97 12
V. Muniyappa, A. Padmaja, H. Venkatesh, A. Sharma, S. Chandrashekar, R. Kulkarni, P. Hanson, Jen-tzu Chen, S. Green, J. Colvin (2002)
Tomato leaf curl virus resistant tomato lines TLB111, TLB130, and TLB182Hortscience, 37
C. Fauquet, D. Bisaro, R. Briddon, Judith Brown, B. Harrison, E. Rybicki, D. Stenger, J. Stanley (2003)
Virology division news: Revision of taxonomic criteria for species demarcation in the family Geminiviridae, and an updated list of begomovirus speciesArchives of Virology, 148
V. Muniyappa, M. Swanson, G. Duncan, B. Harrison (1991)
Particle purification, properties and epitope variability of Indian tomato leaf curl geminivirusAnnals of Applied Biology, 118
B. Harrison, Xue-ping Zhou, G. Otim-Nape, Yule Liu, D. Robinson (1997)
Role of a novel type of double infection in the geminivirus‐induced epidemic of severe cassava mosaic in UgandaAnnals of Applied Biology, 131
Midatharahally Maruthi, H. Czosnek, F. Vidavski, S. Tarba, J. Milo, S. Leviatov, Hagalawadi Venkatesh, Attiganal Padmaja, Rudrappa Kulkarni, V. Muniyappa (2004)
Comparison of Resistance to Tomato Leaf Curl Virus (India) and Tomato Yellow Leaf Curl Virus (Israel) among Lycopersicon Wild Species, Breeding Lines and HybridsEuropean Journal of Plant Pathology, 109
A. Sanz, A. Fraile, F. García-Arenal, Xueping Zhou, D. Robinson, S. Khalid, Tahir Butt, B. Harrison (2000)
Multiple infection, recombination and genome relationships among begomovirus isolates found in cotton and other plants in Pakistan.The Journal of general virology, 81 Pt 7
(1964)
A review on virus disease of crop plants. Information pamphlet No.2 (Research series), Directorate of Agriculture, Bangalore, pp
D. Deng, P. McGrath, D. Robinson, B. Harrison (1994)
Detection and differentiation of whitefly-transmitted geminiviruses in plants and vector insects by the polymerase chain reaction with degenerate primersAnnals of Applied Biology, 125
(1981)
Strains of leaf curl virus in India
G. Weiller (1998)
Phylogenetic profiles: a graphical method for detecting genetic recombinations in homologous sequences.Molecular biology and evolution, 15 3
(1996)
Detection of geminiviruses in aqueous extracts by polymerase
H. Ramappa, V. Muniyappa, J. Colvin (1998)
The contribution of tomato and alternative host plants to tomato leaf curl virus inoculum pressure in different areas of South IndiaAnnals of Applied Biology, 133
C. Fauquet, J. Stanley (2003)
Geminivirus classification and nomenclature: progress and problemsAnnals of Applied Biology, 142
N. Kirthi, S. Maiya, M. Murthy, H. Savithri (2002)
Evidence for recombination among the tomato leaf curl virus strains/species from Bangalore, IndiaArchives of Virology, 147
M. Padidam, S. Sawyer, C. Fauquet (1999)
Possible emergence of new geminiviruses by frequent recombination.Virology, 265 2
V. Muniyappa, H. Venkatesh, H. Ramappa, R. Kulkarni, M. Zeidan, C.-Y. Tarba, M. Ghanim, H. Czosnek (2000)
Tomato leaf curl virus from Bangalore (ToLCV-Ban4): sequence comparison with Indian ToLCV isolates, detection in plants and insects, and vector relationships}Archives of Virology, 145
J. Polston, P. Anderson (1997)
The Emergence Of Whitefly-Transmitted Geminiviruses in Tomato in the Western Hemisphere.Plant disease, 81 12
N. Kirthi, C. Priyadarshini, P. Sharma, S. Maiya, V. Hemalatha, P. Sivaraman, P. Dhawan, N. Rishi, H. Savithri (2003)
Genetic variability of begomoviruses associated with cotton leaf curl disease originating from IndiaArchives of Virology, 149
Judith Brown, A. Idris, I. Torres-Jerez, G. Banks, S. Wyatt (2001)
The core region of the coat protein gene is highly useful for establishing the provisional identification and classification of begomovirusesArchives of Virology, 146
Xueping Zhou, Yule Liu, L. Calvert, C. Muñóz, G. Otim-Nape, D. Robinson, B. Harrison (1997)
Evidence that DNA-A of a geminivirus associated with severe cassava mosaic disease in Uganda has arisen by interspecific recombination.The Journal of general virology, 78 ( Pt 8)
Yiguo Hong, B. Harrison (1995)
Nucleotide sequences from tomato leaf curl viruses from different countries: evidence for three geographically separate branches in evolution of the coat protein of whitefly-transmitted geminiviruses.The Journal of general virology, 76 ( Pt 8)
M. Rojas, R. Gilbertson, D. Russell, D. Maxwell (1993)
Use of degenerate primers in the polymerase chain reaction to detect whitefly-transmitted geminivirusesPlant Disease, 77
M. Maruthi, S. Seal, J. Colvin, R. Briddon, S. Bull (2004)
East African cassava mosaic Zanzibar virus – a recombinant begomovirus species with a mild phenotypeArchives of Virology, 149
R. Briddon, S. Mansoor, I. Bedford, M. Pinner, K. Saunders, J. Stanley, Y. Zafar, K. Malik, P. Markham (2001)
Identification of dna components required for induction of cotton leaf curl disease.Virology, 285 2
(2003)
Molecular characterisation of a new tomato begomovirus infecting from India
K. Sastry, S. Singh, K. Sasttry (1978)
Studies on Epidemiology of Tomato Leaf Curl VirusIndian Journal of Horticulture, 35
B. Harrison, M. Swanson, D. Fargette (2002)
Begomovirus coat protein: serology, variation and functionsPhysiological and Molecular Plant Pathology, 60
Leaf curl begomoviruses cause serious yield losses to Indian tomato crops. Total DNAs were extracted from leaves of 69 tomato plants and 34 weeds or neighbouring crops collected from all the major tomato producing areas of India. Eighty-one of the 103 samples were positive by PCRs using begomovirus genus-specific primers. Coat protein (CP) genes from 29 samples were PCR amplified, cloned and sequenced. Phylogenetic analyses of the CP sequences revealed five different tomato leaf curl begomovirus (TLCB) clusters each <88% identity to the others. Four clusters represented known Indian TLCBs, whereas one cluster contained sequences originating from Haryana State with most identity (89%) to the provisional Begomovirus species Croton yellow vein mosaic virus . Sixty-five begomovirus positive samples were characterised further by PCR with DNA-β, DNA-B, four Indian TLCB species, PALIc1960/PARIv722 (universal begomovirus primers), and by sequencing. The majority of samples represented monopartite TLCBs associated with DNA-β components. All four known TLCBs appeared to be present throughout India. TLCBs were also present in chilli, cowpea, okra and tobacco crops, as well as in some common weeds. Papaya leaf curl virus and Pepper leaf curl Bangladesh virus sequences were detected in tomato. Mixed begomovirus infections, a prerequisite for recombination, were evident in 13 samples.
Archives of Virology – Springer Journals
Published: May 1, 2005
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