Identification of Functionally Important Negatively Charged Residues in the Carboxy End of Mouse Hepatitis Coronavirus A59 Nucleocapsid Protein

doi:10.1128/JVI.80.9.4344-4355.2006

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Journal of Virology, May 2006, p. 4344-4355, Vol. 80, No. 9
0022-538X/06/$08.00+0 doi:10.1128/JVI.80.9.4344-4355.2006
Copyright © 2006, American Society for Microbiology. All Rights Reserved.

Identification of Functionally Important Negatively Charged Residues in the Carboxy End of Mouse Hepatitis Coronavirus A59 Nucleocapsid Protein

Sandhya Verma,¹ Valerie Bednar,² Andrew Blount,² and Brenda G. Hogue¹^*

School of Life Sciences and The Biodesign Institute,¹ Barrett Honors College, Arizona State University, Tempe, Arizona 85287²

Received 2 August 2005/ Accepted 3 February 2006

The coronavirus nucleocapsid (N) protein is a multifunctionalviral gene product that encapsidates the RNA genome and alsoplays some as yet not fully defined role in viral RNA replicationand/or transcription. A number of conserved negatively chargedamino acids are located within domain III in the carboxy endof all coronavirus N proteins. Previous studies suggested thatthe negatively charged residues are involved in virus assemblyby mediating interaction between the membrane (M) protein carboxytail and nucleocapsids. To determine the importance of thesenegatively charged residues, a series of alanine and other charged-residuesubstitutions were introduced in place of those in the N genewithin a mouse hepatitis coronavirus A59 infectious clone. Asparticacid residues 440 and 441 were identified as functionally important.Viruses could not be isolated when both residues were replacedby positively charged amino acids. When either amino acid wasreplaced by a positively charged residue or both were changedto alanine, viruses were recovered that contained second-sitechanges within N, but not in the M or envelope protein. Thecompensatory role of the new changes was confirmed by the constructionof new viruses. A few viruses were recovered that retained theD₄₄₁-to-arginine change and no compensatory changes. These virusesexhibited a small-plaque phenotype and produced significantlyless virus. Overall, results from our analysis of a large panelof plaque-purified recovered viruses indicate that the negativelycharged residues at positions 440 and 441 are key residues thatappear to be involved in virus assembly.

* Corresponding author. Mailing address: The Biodesign Institute, P.O. Box 875401, Arizona State University, Tempe, AZ 85287-5401. Phone: (480) 965-9478. Fax: (480) 727-7615. E-mail: Brenda.Hogue{at}asu.edu.

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