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Journal of Virology, June 2004, p. 6498-6508, Vol. 78, No. 12
0022-538X/04/$08.00+0 DOI: 10.1128/JVI.78.12.6498-6508.2004
Copyright © 2004, American Society for Microbiology. All Rights Reserved.
Membrane Association of Greasy Grouper Nervous Necrosis Virus Protein A and Characterization of Its Mitochondrial Localization Targeting Signal
Yan Xiang Guo, Shzu-Wei Chan, and Jimmy Kwang*Animal Health Biotechnology Unit, Temasek Life Sciences Laboratory, The National University of Singapore, Singapore 117604
Received 28 October 2003/ Accepted 30 January 2004
Localization of RNA replication to intracellular membranes is a universal feature of positive-strand RNA viruses. The betanodavirus greasy grouper (Epinephelus tauvina) nervous necrosis virus (GGNNV) is a positive-RNA virus with one of the smallest genomes among RNA viruses replicating in fish cells. To understand the localization of GGNNV replication complexes, we generated polyclonal antisera against protein A, the GGNNV RNA-dependent RNA polymerase. Protein A was detected at 5 h postinfection in infected sea bass cells. Biochemical fractionation experiments revealed that GGNNV protein A sedimented with intracellular membranes upon treatment with an alkaline pH and a high salt concentration, indicating that GGNNV protein A is tightly associated with intracellular membranes in infected cells. Confocal immunofluorescence microscopy and bromo-UTP incorporation studies identified mitochondria as the intracellular site of protein A localization and viral RNA synthesis. In addition, protein A fused with green fluorescent protein (GFP) was detected in the mitochondria in transfected cells and was demonstrated to be tightly associated with intracellular membranes by biochemical fractionation analysis and membrane flotation assays, indicating that protein A alone was sufficient for mitochondrial localization in the absence of RNA replication, nonstructural protein B, or capsid proteins. Three sequence analysis programs showed two regions of hydrophobic amino acid residues, amino acids 153 to 173 and 229 to 249, to be transmembrane domains (TMD) that might contain a membrane association domain. Membrane fraction analysis showed that the major domain is N-terminal amino acids 215 to 255, containing the predicted TMD from amino acids 229 to 249. Using GFP as the reporter by systematically introducing deletions of these two regions in the constructs, we further confirmed that the N-terminal amino acids 215 to 255 of protein A function as a mitochondrial targeting signal.
* Corresponding author. Mailing address: Animal Health Biotechnology Unit, Temasek Life Sciences Laboratory, 1 Research Link, The National University of Singapore, Singapore 117604. Phone: (65)-6872-7473. Fax: (65)-6872-7007. E-mail: kwang{at}tll.org.sg.
Journal of Virology, June 2004, p. 6498-6508, Vol. 78, No. 12
0022-538X/04/$08.00+0 DOI: 10.1128/JVI.78.12.6498-6508.2004
Copyright © 2004, American Society for Microbiology. All Rights Reserved.
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