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G. Martelli (1999)
Infectious diseases and certification of olive: an overviewEppo Bulletin, 29
E. Ryabov, David Robinson, M. Taliansky (1999)
A plant virus-encoded protein facilitates long-distance movement of heterologous viral RNA.Proceedings of the National Academy of Sciences of the United States of America, 96 4
Masashi Suzuki, Shigeru Kuwata, J. Kataoka, C. Masuta, N. Nitta, Y. Takanami (1991)
Functional analysis of deletion mutants of cucumber mosaic virus RNA3 using an in vitro transcription system.Virology, 183 1
T. Lough, S. Emerson, William Lucas, Richard Forster (2001)
Trans-complementation of long-distance movement of White clover mosaic virus triple gene block (TGB) mutants: phloem-associated movement of TGBp1.Virology, 288 1
Y. Oda, K. Saeki, Y. Takahashi, T. Maeda, H. Naitow, T. Tsukihara, K. Fukuyama (2000)
Crystal structure of tobacco necrosis virus at 2.25 A resolution.Journal of molecular biology, 300 1
I. Petty, A. Jackson (1990)
Mutational analysis of barley stripe mosaic virus RNA beta.Virology, 179 2
Y. Okinaka, K. Mise, Eri Suzuki, T. Okuno, I. Furusawa (2001)
The C Terminus of Brome Mosaic Virus Coat Protein Controls Viral Cell-to-Cell and Long-Distance MovementJournal of Virology, 75
T. Sit, Patrick Haikal, Anton Callaway, S. Lommel (2001)
A Single Amino Acid Mutation in theCarnation Ringspot Virus Capsid Protein Allows Virion Formation but Prevents Systemic InfectionJournal of Virology, 75
T. Dalmay, L. Rubino, J. Burgyán, A. Kollar, M. Russo (1993)
Functional analysis of cymbidium ringspot virus genome.Virology, 194 2
J. White, J. Kaper (1989)
A simple method for detection of viral satellite RNAs in small plant tissue samples.Journal of virological methods, 23 2
A. Stradis, M. Redinbaugh, J. Abt, G. Martelli (2005)
Ultrastructure of maize necrotic streak virus infections.Journal of Plant Pathology, 87
L. Wisniewski, P. Powell, R. Nelson, R. Beachy (1990)
Local and systemic spread of tobacco mosaic virus in transgenic tobacco.The Plant cell, 2
G. Martelli, M. Yi̇lmaz, V. Savino, S. Baloǧlu, F. Grieco, M. Güldür, N. Greco, R. Lafortezza (1996)
Properties of a citrus isolate of olive latent virus 1, a new necrovirusEuropean Journal of Plant Pathology, 102
F. Grieco, V. Savino, G. Martelli (2005)
Nucleotide sequence of the genome of a citrus isolate of olive latent virus 1Archives of Virology, 141
A. Fuentes, R. Hamilton (1993)
Failure of long-distance movement of southern bean mosaic virus in a resistant host is correlated with lack of normal virion formation.The Journal of general virology, 74 ( Pt 9)
T. Kunkel, J. Roberts, R. Zakour (1987)
Rapid and efficient site-specific mutagenesis without phenotypic selection.Methods in enzymology, 154
M. Félix, J. Cardoso, S. Oliveira, M. Clara (2005)
Viral properties, primary structure and phylogenetic analysis of the coat protein of an Olive latent virus 1 isolate from Olea europaea L.Virus research, 108 1-2
Valerian Doija, R. Haldeman, Nancy Robertson, William Dougherty, James Carrington (1994)
Distinct functions of capsid protein in assembly and movement of tobacco etch potyvirus in plants.The EMBO Journal, 13
L. Heaton, James Carrington, T.J. Morris (1989)
Turnip crinkle virus infection from RNA synthesized in vitro.Virology, 170 1
R. Gilbertson, W. Lucas (1996)
How do viruses traffic on the ‘vascular highway’?Trends in Plant Science, 1
Tetsuichiro Saito, Kimiko Yamanaka, Y. Okada (1990)
Long-distance movement and viral assembly of tobacco mosaic virus mutants.Virology, 176 2
(1996)
Properties of a citrus isolate of olive latent virus 1, a seemingly new necrovirus
James Carrington, K. Kasschau, Sunita Mahajan, M. Schaad (1996)
Cell-to-Cell and Long-Distance Transport of Viruses in Plants.The Plant cell, 8
A. Takeda, M. Kaido, T. Okuno, K. Mise (2004)
The C terminus of the movement protein of Brome mosaic virus controls the requirement for coat protein in cell-to-cell movement and plays a role in long-distance movement.The Journal of general virology, 85 Pt 6
G. Martelli, M. Russo (1984)
Use of Thin Sectioning for Visualization and Identification of Plant Viruses, 8
Francesco Grieco, M. Dell'Orco, G. Martelli (1996)
The nucleotide sequence of RNA1 and RNA2 of olive latent virus 2 and its relationships in the family Bromoviridae.The Journal of general virology, 77 ( Pt 10)
U. Laemmli (1970)
Cleavage of structural proteins duringNature
J. Sambrook, E. Fritsch, T. Maniatis (2001)
Molecular Cloning: A Laboratory Manual
M. Castellano, G. Loconsole, F. Grieco, G. Sansebastiano, G. Martelli (2005)
Subcellular localization and immunodetection of movement proteins of olive latent virus 1Archives of Virology, 150
H. Scholthof, T. Morris, A. Jackson (1993)
The capsid protein gene of tomato bushy stunt virus is dispensable for systemic movement and can be replaced for localized expression of foreign genesMolecular Plant-microbe Interactions, 6
X Ding, MH Shintaku, SA Carter, RS Nelson (1996)
Invasion of minor veins of tobacco leaves inoculated with tobacco mosaic virus mutants defective in phloem-dependent movementNatl Acad Sci USA, 93
(2001)
Trans-complementation of longdistance movement of White clover mosaic virus triple gene block (TGB) mutants: phloem-associated movement of TGBp1. Virology
M. Hilf, W. Dawson (1993)
The tobamovirus capsid protein functions as a host-specific determinant of long-distance movement.Virology, 193 1
A. Vaewhongs, S. Lommel (1995)
Virion formation is required for the long-distance movement of red clover necrotic mosaic virus in movement protein transgenic plants.Virology, 212 2
T. Kunkel (1985)
Rapid and efficient site-specific mutagenesis without phenotypic selection.Proceedings of the National Academy of Sciences of the United States of America, 82 2
V. Pantaleo, F. Grieco, M. Castellano, G. Martelli (1999)
Synthesis of infectious transcripts of olive latent virus 1: genes required for RNA replication and virus movementArchives of Virology, 144
C. Carvalho, J. Wellink, S. Ribeiro, R. Goldbach, J. Lent (2003)
The C-terminal region of the movement protein of Cowpea mosaic virus is involved in binding to the large but not to the small coat protein.The Journal of general virology, 84 Pt 8
V. Dolja, R. Haldeman-Cahill, Amanda Montgomery, K. VandenBosch, J. Carrington (1995)
Capsid protein determinants involved in cell-to-cell and long distance movement of tobacco etch potyvirus.Virology, 206 2
Y. Okinaka, K. Mise, T. Okuno, I. Furusawa (2003)
Characterization of a novel barley protein, HCP1, that interacts with the Brome mosaic virus coat protein.Molecular plant-microbe interactions : MPMI, 16 4
Y. Li, M. Wu, H. Song, X. Hu, B. Qiu (2005)
Identification of a tobacco protein interacting with tomato mosaic virus coat protein and facilitating long-distance movement of virusArchives of Virology, 150
M. Castellano, A. Franco, G. Martelli (1987)
Electron microscopy of two olive viruses in host tissuesJournal of submicroscopic cytology, 19
S. Spitsin, K. Steplewski, N. Fleysh, H. Bélanger, T. Mikheeva, S. Shivprasad, W. Dawson, H. Koprowski, V. Yusibov (1999)
Expression of alfalfa mosaic virus coat protein in tobacco mosaic virus (TMV) deficient in the production of its native coat protein supports long-distance movement of a chimeric TMV.Proceedings of the National Academy of Sciences of the United States of America, 96 5
(2005)
Subcellular localization and immunodetection of movement proteins of olive latent virus
UK Laemmli (1970)
Cleavage of structural proteins during the assembly of the head of bacteriophage T4Nature, 227
L. Heaton, T. Lee, N. Wei, T. Morris (1991)
Point mutations in the turnip crinkle virus capsid protein affect the symptoms expressed by Nicotiana benthamiana.Virology, 183 1
C. Brugidou, C. Holt, M. Yassi, S. Zhang, R. Beachy, C. Fauquet (1995)
Synthesis of an infectious full-length cDNA clone of rice yellow mottle virus and mutagenesis of the coat protein.Virology, 206 1
J. Nagy, P. Maliga (1976)
Callus Induction and Plant Regeneration from Mesophyll Protoplasts of Nicotiana sylvestrisZeitschrift für Pflanzenphysiologie, 78
X. Ding, M. Shintaku, S. Carter, R. Nelson (1996)
Invasion of minor veins of tobacco leaves inoculated with tobacco mosaic virus mutants defective in phloem-dependent movement.Proceedings of the National Academy of Sciences of the United States of America, 93 20
K. Séron, Haenni Al (1996)
Vascular movement of plant viruses.Molecular plant-microbe interactions : MPMI, 9 6
A full-length cDNA clone of olive latent virus 1 (OLV-1), a member of the genus Necrovirus , family Tombusviridae , was subjected to site-directed mutagenesis, and coat protein gene mutants were constructed. A mutant clone, denoted Δ3297, was obtained by deleting the nucleotide in position 3297, thus inducing a frameshift and replacing the last 49 amino acids of the viral coat protein (CP) by a shorter sequence of 39 amino acids. This mutant was viable, stable, able to synthesize a smaller CP, and able to give rise to the formation of apparently intact virus particles. Cell-to-cell movement of Δ3297 in Nicotiana benthamiana leaves was not affected, but, contrary to wild type OLV-1, it failed to spread systemically. These results indicate that virion formation is necessary but not sufficient for long-distance movement for OLV-1 and highlights the role of the CP carboxy-terminal domain in systemic infection.
Archives of Virology – Springer Journals
Published: Oct 1, 2006
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