The 30-Kilodalton Gene Product of Tobacco Mosaic Virus Potentiates Virus Movement

doi:10.1126/science.237.4813.389

Account Information

Guest Alerts | Access Rights | My Account | Sign In

Site Navigation

Article Views

Article Tools

My Science

Science 24 July 1987:
Vol. 237. no. 4813, pp. 389 - 394
DOI: 10.1126/science.237.4813.389

Prev | Table of Contents | Next

Articles

The 30-Kilodalton Gene Product of Tobacco Mosaic Virus Potentiates Virus Movement

CARL M. DEOM ¹, MELVIN J. OLIVER ², and ROGER N. BEACHY ³

¹ Postdoctoral associate, Department of Biology, Washington University, St. Louis, MO 63130.
² Assistant professor in the Department of Biology and PGEL, New Mexico State University, Las Cruces, NM 88003.
³ Professor in the Department of Biology, Washington University, St. Louis, MO 63130.

The proposed role of the 30-kilodalton(kD) protein of tobaccomosaic virus is to facilitate cell-to-cell spread of the virus-duringinfection. To directly define the function of the protein, achimeric gene containing a cloned complementary DNA of the 30-kDprotein gene was introduced into tobacco cells via a Ti plasmid-mediatedtransformation system of Agrobacterium tumefaciens. Transgenicplants regenerated from transformed tobacco cells expressedthe 30-kD protein messenger RNA and accumulated 30-kD protein.Seedlings expressing the 30-kD protein gene complemented theLsl mutant of TMV, a mutant that is temperature-sensitive incell-to-cell movement. In addition, enhanced movement of theLsl virus at the permissive temperature was detected in seedlingsthat express the 30-kD protein gene. These results conclusivelydemonstrate that the 30-kD protein of tobacco mosaic virus potentiatesthe movement of the virus from cell to cell.

Submitted on April 20, 1987
Accepted on June 27, 1987

THIS ARTICLE HAS BEEN CITED BY OTHER ARTICLES:

Seco-pregnane steroids target the subgenomic RNA of alphavirus-like RNA viruses.: Y. Li, L. Wang, S. Li, X. Chen, Y. Shen, Z. Zhang, H. He, W. Xu, Y. Shu, G. Liang, et al. (2007)
PNAS 104, 8083-8088
| Abstract » | Full Text » | PDF »

Immunoabsorbent nanoparticles based on a tobamovirus displaying protein A.: S. Werner, S. Marillonnet, G. Hause, V. Klimyuk, and Y. Gleba (2006)
PNAS 103, 17678-17683
| Abstract » | Full Text » | PDF »

An internal ribosome entry site located upstream of the crucifer-infecting tobamovirus coat protein (CP) gene can be used for CP synthesis in vivo.: Yu. L. Dorokhov, P. A. Ivanov, T. V. Komarova, M. V. Skulachev, and J. G. Atabekov (2006)
J. Gen. Virol. 87, 2693-2697
| Abstract » | Full Text » | PDF »

Domains of tobacco mosaic virus movement protein essential for its membrane association.: M. Fujiki, S. Kawakami, R. W. Kim, and R. N. Beachy (2006)
J. Gen. Virol. 87, 2699-2707
| Abstract » | Full Text » | PDF »

Effects of Calreticulin on Viral Cell-to-Cell Movement.: M.-H. Chen, G.-W. Tian, Y. Gafni, and V. Citovsky (2005)
Plant Physiology 138, 1866-1876
| Abstract » | Full Text » | PDF »

Reciprocal function of movement proteins and complementation of long-distance movement of Cymbidium mosaic virus RNA by Odontoglossum ringspot virus coat protein.: P. Ajjikuttira, C.-S. Loh, and S.-M. Wong (2005)
J. Gen. Virol. 86, 1543-1553
| Abstract » | Full Text » | PDF »

Interaction of the Tobacco Mosaic Virus Replicase Protein with the Aux/IAA Protein PAP1/IAA26 Is Associated with Disease Development.: M. S. Padmanabhan, S. P. Goregaoker, S. Golem, H. Shiferaw, and J. N. Culver (2005)
J. Virol. 79, 2549-2558
| Abstract » | Full Text » | PDF »

ORF6 of Tobacco mosaic virus is a determinant of viral pathogenicity in Nicotiana benthamiana.: T. Canto, S. A. MacFarlane, and P. Palukaitis (2004)
J. Gen. Virol. 85, 3123-3133
| Abstract » | Full Text » | PDF »

Dimerization of Recombinant Tobacco Mosaic Virus Movement Protein.: L. M. Brill, S. Dechongkit, B. DeLaBarre, J. Stroebel, R. N. Beachy, and M. Yeager (2004)
J. Virol. 78, 3372-3377
| Abstract » | Full Text » | PDF »

RNA Helicase Domain of Tobamovirus Replicase Executes Cell-to-Cell Movement Possibly through Collaboration with Its Nonconserved Region.: K. Hirashima and Y. Watanabe (2003)
J. Virol. 77, 12357-12362
| Abstract » | Full Text » | PDF »

Developmental regulation and significance of KNOX protein trafficking in Arabidopsis.: J.-Y. Kim, Z. Yuan, and D. Jackson (2003)
Development 130, 4351-4362
| Abstract » | Full Text » | PDF »

Triple gene block: modular design of a multifunctional machine for plant virus movement.: S. Yu. Morozov and A. G. Solovyev (2003)
J. Gen. Virol. 84, 1351-1366
| Abstract » | Full Text » | PDF »

Oligomerization and Activity of the Helicase Domain of the Tobacco Mosaic Virus 126- and 183-Kilodalton Replicase Proteins.: S. P. Goregaoker and J. N. Culver (2003)
J. Virol. 77, 3549-3556
| Abstract » | Full Text » | PDF »

Defective Tobamovirus Movement Protein Lacking Wild-Type Phosphorylation Sites Can Be Complemented by Substitutions Found in Revertants.: S. Kawakami, K. Hori, D. Hosokawa, Y. Okada, and Y. Watanabe (2002)
J. Virol. 77, 1452-1461
| Abstract » | Full Text » | PDF »

Stability in vitro of the 69K movement protein of Turnip yellow mosaic virus is regulated by the ubiquitin-mediated proteasome pathway.: G. Drugeon and I. Jupin (2002)
J. Gen. Virol. 83, 3187-3197
| Abstract » | Full Text » | PDF »

The Rate and Character of Spontaneous Mutation in an RNA Virus.: J. M. Malpica, A. Fraile, I. Moreno, C. I. Obies, J. W. Drake, and F. Garcia-Arenal (2002)
Genetics 162, 1505-1511
| Abstract » | Full Text » | PDF »

Insertion and Topology of a Plant Viral Movement Protein in the Endoplasmic Reticulum Membrane.: M. Vilar, A. Sauri, M. Monne, J. F. Marcos, G. von Heijne, E. Perez-Paya, and I. Mingarro (2002)
J. Biol. Chem. 277, 23447-23452
| Abstract » | Full Text » | PDF »

Characterization of mutant tobacco mosaic virus coat protein that interferes with virus cell-to-cell movement.: M. Bendahmane, J. Szecsi, I. Chen, R. H. Berg, and R. N. Beachy (2002)
PNAS 99, 3645-3650
| Abstract » | Full Text » | PDF »

Salicylic Acid Has Cell-Specific Effects on Tobacco mosaic virus Replication and Cell-to-Cell Movement.: A. M. Murphy and J. P. Carr (2002)
Plant Physiology 128, 552-563
| Abstract » | Full Text » | PDF »

Tobamovirus Replicase Coding Region Is Involved in Cell-to-Cell Movement.: K. Hirashima and Y. Watanabe (2001)
J. Virol. 75, 8831-8836
| Abstract » | Full Text » | PDF »

Conversion in the Requirement of Coat Protein in Cell-to-Cell Movement Mediated by the Cucumber Mosaic Virus Movement Protein.: H. Nagano, K. Mise, I. Furusawa, and T. Okuno (2001)
J. Virol. 75, 8045-8053
| Abstract » | Full Text » | PDF »

Role of microtubules in the intracellular distribution of tobacco mosaic virus movement protein.: P. Mas and R. N. Beachy (2000)
PNAS 97, 12345-12349
| Abstract » | Full Text » | PDF »

In vitro phosphorylation of the movement protein of tomato mosaic tobamovirus by a cellular kinase.: Y. Matsushita, K. Hanazawa, K. Yoshioka, T. Oguchi, S. Kawakami, Y. Watanabe, M. Nishiguchi, and H. Nyunoya (2000)
J. Gen. Virol. 81, 2095-2102
| Abstract » | Full Text »

Degradation of Tobacco Mosaic Virus Movement Protein by the 26S Proteasome.: C. Reichel and R. N. Beachy (2000)
J. Virol. 74, 3330-3337
| Abstract » | Full Text »

HSP70 homolog functions in cell-to-cell movement of a plant virus.: V. V. Peremyslov, Y. Hagiwara, and V. V. Dolja (1999)
PNAS 96, 14771-14776
| Abstract » | Full Text » | PDF »

Replication of Tobacco Mosaic Virus on Endoplasmic Reticulum and Role of the Cytoskeleton and Virus Movement Protein in Intracellular Distribution of Viral RNA.: P. Mas and R. N. Beachy (1999)
J. Cell Biol. 147, 945-958
| Abstract » | Full Text » | PDF »

Phosphorylation and/or Presence of Serine 37 in the Movement Protein of Tomato Mosaic Tobamovirus Is Essential for Intracellular Localization and Stability In Vivo.: S. Kawakami, H. S. Padgett, D. Hosokawa, Y. Okada, R. N. Beachy, and Y. Watanabe (1999)
J. Virol. 73, 6831-6840
| Abstract » | Full Text »

Viral Movement Proteins as Probes for Intracellular and Intercellular Trafficking in Plants.: S. G. Lazarowitz and R. N. Beachy (1999)
PLANT CELL 11, 535-548
| Full Text »

Tobacco Mosaic Virus: Pioneering Research for a Century.: A. N.H. Creager, K.-B. G. Scholthof, V. Citovsky, and H. B. Scholthof (1999)
PLANT CELL 11, 301-308
| Full Text » | PDF »

Tobacco mosaic virus infection induces severe morphological changes of the endoplasmic reticulum.: C. Reichel and R. N. Beachy (1998)
PNAS 95, 11169-11174
| Abstract » | Full Text » | PDF »

Changing Patterns of Localization of the Tobacco Mosaic Virus Movement Protein and Replicase to the Endoplasmic Reticulum and Microtubules during Infection.: M. Heinlein, H. S. Padgett, J. S. Gens, B. G. Pickard, S. J. Casper, B. L. Epel, and R. N. Beachy (1998)
PLANT CELL 10, 1107-1120
| Abstract » | Full Text »

Interaction of Tobamovirus Movement Proteins with the Plant Cytoskeleton.: M. Heinlein, B. L. Epel, H. S. Padgett, and R. N. Beachy (1995)
Science 270, 1983-1985
| Abstract » | PDF »

Movement Protein of Tobacco Mosaic Virus Modifies Plasmodesmatal Size Exclusion Limit.: S. WOLF, W. J. LUCAS, C. M. DEOM, and R. N. BEACHY (1989)
Science 246, 377-379
| Abstract » | PDF »

Structural Properties of Carnation Mottle Virus p7 Movement Protein and Its RNA-binding Domain.: M. Vilar, V. Esteve, V. Pallas, J. F. Marcos, and E. Perez-Paya (2001)
J. Biol. Chem. 276, 18122-18129
| Abstract » | Full Text » | PDF »

Systemic spread of an RNA insect virus in plants expressing plant viral movement protein genes.: R. Dasgupta, B. H. Garcia II, and R. M. Goodman (2001)
PNAS 98, 4910-4915
| Abstract » | Full Text » | PDF »

Recombinant tobacco mosaic virus movement protein is an RNA-binding, alpha -helical membrane protein.: L. M. Brill, R. S. Nunn, T. W. Kahn, M. Yeager, and R. N. Beachy (2000)
PNAS 97, 7112-7117
| Abstract » | Full Text » | PDF »