Abstract

In 1986 this laboratory reported (Science 232:738-743) that transgenic tobacco plants that express a gene encoding the capsid protein (CP) of tobacco mosaic virus (TMV) are substantially protected against infection by TMV. This type of resistance, """"""""coat-protein mediated resistance (CP-MR)"""""""", has been used to develop resistance against many different types of viruses in a number of types of plants. Although the successes of CP-MR are well known, and advanced stages of testing and evaluation of transgenic plant lines are in progress, the cellular and molecular mechanisms of resistance are not yet known. The system best-suited for in-depth study is TMV and transgenic tobacco and tomato plants. Published information of the crystal structure of TMV-CP and x-ray fiber diffraction studies of TMV will be used to create mutant proteins to investigate the role of protein structure, protein:protein, and protein:RNA interactions on CP-MR. The effects of wild-type and mutant CPs on virus uncoating, establishment of infection, and local and systemic spread of virus in transgenic plants and synchronously infected protoplasts will be determined. To study early events in virus uncoating in CP-MR an epitope-tagging approach will be taken to follow virus disassembly and protein exchange reactions. To monitor localized spread of the infection in CP-MR, virus replication will be followed in real time by imaging and recording the expression of a luciferase gene that has been incorporated into the virus. To explore the role that expression of the TMV-CP gene in specific cell types has on resistance, transgenic plant lines will be developed that express the CP gene under control of inducible, tightly regulated promoters. Promoters controlled by wounding or added reagents and promoters expressed specifically in epidermal and vascular xylem cells, vascular phloem cells, and in chloroplast containing cells will be used singly or in combination to examine the role of CP in various aspects of virus infection and disease development. Interfacing structural chemistry, protein modeling, molecular genetics, cell biology, and virology as described here represents a novel approach to studies of viral pathogenesis. It will also lead to better understanding of CP-MR and further develop transgenic resistance for use in food production to decrease the often severe virus infections that limit food availability and exacerbate hunger in many parts of the world.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI027161-05
Application #
3141285
Study Section
Virology Study Section (VR)
Project Start
1989-02-01
Project End
1997-04-30
Budget Start
1993-05-01
Budget End
1994-04-30
Support Year
5
Fiscal Year
1993
Total Cost
Indirect Cost

  Institution

Name
Scripps Research Institute
Department
Type
DUNS #
City
La Jolla
State
CA
Country
United States
Zip Code
92037

  Publications

Bendahmane, Mohammed; Chen, Iju; Asurmendi, Sebastian et al. (2007) Coat protein-mediated resistance to TMV infection of Nicotiana tabacum involves multiple modes of interference by coat protein. Virology 366:107-16
Asurmendi, S; Berg, R H; Smith, T J et al. (2007) Aggregation of TMV CP plays a role in CP functions and in coat-protein-mediated resistance. Virology 366:98-106
Bazzini, A A; Asurmendi, S; Hopp, H E et al. (2006) Tobacco mosaic virus (TMV) and potato virus X (PVX) coat proteins confer heterologous interference to PVX and TMV infection, respectively. J Gen Virol 87:1005-12
Voloudakis, A E; Aleman-Verdaguer, M-E; Padgett, H S et al. (2005) Characterization of resistance in transgenic Nicotiana benthamiana encoding N-terminal deletion and assembly mutants of the tobacco etch potyvirus coat protein. Arch Virol 150:2567-82
Voloudakis, A E; Malpica, C A; Aleman-Verdaguer, M-E et al. (2004) Structural characterization of Tobacco etch virus coat protein mutants. Arch Virol 149:699-712
Asurmendi, S; Berg, R H; Koo, J C et al. (2004) Coat protein regulates formation of replication complexes during tobacco mosaic virus infection. Proc Natl Acad Sci U S A 101:1415-20
Koo, Ja Choon; Asurmendi, Sebastian; Bick, Jennifer et al. (2004) Ecdysone agonist-inducible expression of a coat protein gene from tobacco mosaic virus confers viral resistance in transgenic Arabidopsis. Plant J 37:439-48
Bendahmane, Mohammed; Szecsi, Judit; Chen, Iju et al. (2002) Characterization of mutant tobacco mosaic virus coat protein that interferes with virus cell-to-cell movement. Proc Natl Acad Sci U S A 99:3645-50
Staczek, J; Bendahmane, M; Gilleland, L B et al. (2000) Immunization with a chimeric tobacco mosaic virus containing an epitope of outer membrane protein F of Pseudomonas aeruginosa provides protection against challenge with P. aeruginosa. Vaccine 18:2266-74
Opalka, N; Tihova, M; Brugidou, C et al. (2000) Structure of native and expanded sobemoviruses by electron cryo-microscopy and image reconstruction. J Mol Biol 303:197-211

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