Characterization of rabies virus nucleocapsids and recombinant nucleocapsid-like structures

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Characterization of rabies virus nucleocapsids and recombinant nucleocapsid-like structures

F Iseni, A Barge, F Baudin, D Blondel and RW Ruigrok
EMBL Grenoble Outstation, France.

Rabies virus nucleoprotein (N) was produced in insect cells using the baculovirus expression system described by Prehaud et al. (Virology 178, 486-497, 1990). The protein was either purified on a CsCl gradient, resulting in a mixture of nucleocapsid-like structures and beaded rings, as observed by electron microscopy, or on a glycerol gradient that resulted in a preparation of the rings only. The rings and nucleocapsid-like structures had the same morphological characteristics as viral nucleocapsids. N in these structures is an 84 A long and thin molecule that is spaced at around 34 A along the length of the nucleocapsid, identical in shape and spacing as the nucleoprotein in nucleocapsids of rabies virus and very similar to those of vesicular stomatitis virus. The recombinant nucleocapsids contained RNA with a stoichiometry similar to that found in viral nucleocapsids. The RNA bound in the beaded rings was a subset of the insect cellular RNA. One of the RNA species was partially sequenced and, although a positive identification could not be made, could correspond to a tRNA. With respect to sensitivity to trypsin and RNase digestion, the recombinant and viral nucleocapsids behaved similar. Trypsin cleaved a 17 kDa fragment from the carboxy terminus of N with only a very small effect on the morphology of the nucleocapsids. RNase A completely digested the resident RNA in both viral and recombinant nucleocapsids into fragments of 4-5 nt long, again with no effect on the morphology of the nucleocapsids. Thus, when the RNA is cleaved, the structure must be maintained by protein-protein contacts. Experiments to remove the resident RNA from viral and recombinant rabies virus nucleocapsids failed, whereas the same methods used to eliminate the RNA from vesicular stomatitis virus nucleocapsids was successful.

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				G. Castel, M. Chteoui, G. Caignard, C. Prehaud, S. Mehouas, E. Real, C. Jallet, Y. Jacob, R. W. H. Ruigrok, and N. Tordo Peptides That Mimic the Amino-Terminal End of the Rabies Virus Phosphoprotein Have Antiviral Activity J. Virol., October 15, 2009; 83(20): 10808 - 10820. [Abstract] [Full Text] [PDF]

				X. Zhang, T. J. Green, J. Tsao, S. Qiu, and M. Luo Role of Intermolecular Interactions of Vesicular Stomatitis Virus Nucleoprotein in RNA Encapsidation J. Virol., January 15, 2008; 82(2): 674 - 682. [Abstract] [Full Text] [PDF]

				M. Chen, T. Ogino, and A. K. Banerjee Interaction of Vesicular Stomatitis Virus P and N Proteins: Identification of Two Overlapping Domains at the N Terminus of P That Are Involved in N0-P Complex Formation and Encapsidation of Viral Genome RNA J. Virol., December 15, 2007; 81(24): 13478 - 13485. [Abstract] [Full Text] [PDF]

				M. Deng, J. N. Bragg, S. Ruzin, D. Schichnes, D. King, M. M. Goodin, and A. O. Jackson Role of the Sonchus Yellow Net Virus N Protein in Formation of Nuclear Viroplasms J. Virol., May 15, 2007; 81(10): 5362 - 5374. [Abstract] [Full Text] [PDF]

				T. Noda, S. Watanabe, H. Sagara, and Y. Kawaoka Mapping of the VP40-Binding Regions of the Nucleoprotein of Ebola Virus J. Virol., April 1, 2007; 81(7): 3554 - 3562. [Abstract] [Full Text] [PDF]

				A. A. V. Albertini, A. K. Wernimont, T. Muziol, R. B. G. Ravelli, C. R. Clapier, G. Schoehn, W. Weissenhorn, and R. W. H. Ruigrok Crystal Structure of the Rabies Virus Nucleoprotein-RNA Complex Science, July 21, 2006; 313(5785): 360 - 363. [Abstract] [Full Text] [PDF]

				M. Eshaghi, W. S. Tan, S. T. Ong, and K. Yusoff Purification and Characterization of Nipah Virus Nucleocapsid Protein Produced in Insect Cells J. Clin. Microbiol., July 1, 2005; 43(7): 3172 - 3177. [Abstract] [Full Text] [PDF]

				D. Kolakofsky, L. Roux, D. Garcin, and R. W. H. Ruigrok Paramyxovirus mRNA editing, the 'rule of six' and error catastrophe: a hypothesis J. Gen. Virol., July 1, 2005; 86(7): 1869 - 1877. [Abstract] [Full Text] [PDF]

				P. Liu, J. Yang, X. Wu, and Z. F. Fu Interactions amongst rabies virus nucleoprotein, phosphoprotein and genomic RNA in virus-infected and transfected cells J. Gen. Virol., December 1, 2004; 85(12): 3725 - 3734. [Abstract] [Full Text] [PDF]

				D. Bhella, A. Ralph, L. B. Murphy, and R. P. Yeo Significant differences in nucleocapsid morphology within the Paramyxoviridae J. Gen. Virol., August 1, 2002; 83(8): 1831 - 1839. [Abstract] [Full Text] [PDF]

				Y. Jacob, E. Real, and N. Tordo Functional Interaction Map of Lyssavirus Phosphoprotein: Identification of the Minimal Transcription Domains J. Virol., October 15, 2001; 75(20): 9613 - 9622. [Abstract] [Full Text] [PDF]

				G. Schoehn, F. Iseni, M. Mavrakis, D. Blondel, and R. W. H. Ruigrok Structure of Recombinant Rabies Virus Nucleoprotein-RNA Complex and Identification of the Phosphoprotein Binding site J. Virol., January 1, 2001; 75(1): 490 - 498. [Abstract] [Full Text]

				T. J. Green, S. Macpherson, S. Qiu, J. Lebowitz, G. W. Wertz, and M. Luo Study of the Assembly of Vesicular Stomatitis Virus N Protein: Role of the P Protein J. Virol., October 15, 2000; 74(20): 9515 - 9524. [Abstract] [Full Text]

				B. Gigant, F. Iseni, Y. Gaudin, M. Knossow, and D. Blondel Neither phosphorylation nor the amino-terminal part of rabies virus phosphoprotein is required for its oligomerization J. Gen. Virol., July 1, 2000; 81(7): 1757 - 1761. [Abstract] [Full Text]

				L. Kolesnikova, E. Mühlberger, E. Ryabchikova, and S. Becker Ultrastructural Organization of Recombinant Marburg Virus Nucleoprotein: Comparison with Marburg Virus Inclusions J. Virol., April 15, 2000; 74(8): 3899 - 3904. [Abstract] [Full Text]

ARTICLES

Characterization of rabies virus nucleocapsids and recombinant nucleocapsid-like structures