loop-loop “kissing” interaction regulates several steps in the viral life cycle, including encapsidation 31. It is noteworthy that the N-terminal domain of CP is involved in the selective packaging of BMV RNA4 5. ACKNOWLEDGMENTS This work was supported in part by a grant-in-aid for Scientific Research A 13306005 from the Japan Society for the Promotion of Science and in part by a grant-in-aid for Scientific Research on Priority Area A Molecular Mechanisms of Plant-Microbe Interaction toward Production of Disease-Resistant Plants from the Ministry of Educa- tion, Culture, Sports, Science, and Technology, Tokyo, Japan. T.A.D. is a foreign fellowship scholar for the postdoctoral program from the Japan Society for the Promotion of Science. REFERENCES 1. Ahlquist, P. 1992. Bromovirus RNA replication and transcription. Curr. Opin. Genet. Dev. 2:71–76. 2. Berkowitz, R., J. Fisher, and S. P. Goff. 1996. RNA packaging. Curr. Top. Microbiol. Immunol. 214:177–218. 3. Callaway, A., D. Giesman-Cookmeyer, E. T. Gillock, T. L. Sit, and S. A. Lommel. 2001. The multifunctional capsid protein of plant RNA viruses. Annu. Rev. Phytopathol. 39:419–460. 4. Choi, Y. G., G. L. Grantham, and A. L. N. Rao. 2000. Molecular studies on bromovirus capsid protein. VI. Contributions of the N-terminal arginine-rich motif of BMV capsid protein to virion stability and RNA packaging. Virol- ogy 270:377–385. 5. Choi, Y. G., and A. L. N. Rao. 2000. Molecular studies on bromovirus capsid protein. VII. Selective packaging of BMV RNA4 by specific N-terminal arginine residues. Virology 275:207–217.

6. Choi, Y. G., T. W. Dreher, and A. L. N. Rao. 2002. tRNA elements mediate

the assembly of an icosahedral RNA virus. Proc. Natl. Acad. Sci. USA 99: 655–660. 7. Cuillel, M., M. Herzog, and L. Hirth. 1979. Specificity of in vitro reconstruc- tion of bromegrass mosaic virus. Virology 95:146–153.

8. Damayanti, T. A., H. Nagano, K. Mise, I. Furusawa, and T. Okuno. 1999.

Brome mosaic virus defective RNAs generated during infection of barley plants. J. Gen. Virol. 80:2511–2518.

9. Damayanti, T. A., H. Nagano, K. Mise, I. Furusawa, and T. Okuno. 2002.

Positional effect of deletions on viability, especially on encapsidation, of Brome mosaic virus D-RNA in barley protoplasts. Virology 293:314–319.

10. Dolja, V. V., R. Haldeman, N. L. Robertson, W. G. Dougherty, and J. C. Carrington.

1994. Distinct functions of capsid protein in assembly and move- ment of tobacco etch potyvirus in plants. EMBO J. 13:1482–1491. 11. Duggal, R., and T. C. Hall. 1993. Identification of domains in brome mosaic virus RNA-1 and coat protein necessary for specific interaction and encap- sidation. J. Virol. 67:6406–6412. 12. Fox, J. M., J. E. Johnson, and M. J. Young. 1994. RNAprotein interactions in icosahedral virus assembly. Semin. Virol. 5:51–60.

13. French, R., M. Janda, and P. Ahlquist. 1986. Bacterial gene inserted in an

engineered RNA virus: efficient expression in monocotyledonous plant cells. Science 231:1294–1297.

14. Harrison, G. P., G. Mieli, E. Hunter, and A. M. L. Lever. 1998. Functional

analysis of the core human immunodeficiency virus type 1 packaging signal in a permissive cell line. J. Virol. 77:5886–5896.

15. Ito, W., H. Ishiguro, and Y. Kurosawa. 1991. A general method for intro-