The tobacco etch potyvirus 6-kilodalton protein is membrane associated and involved in viral replication.

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J Virol. 1994 April; 68(4): 2388-2397

The tobacco etch potyvirus 6-kilodalton protein is membrane associated and involved in viral replication.

M A Restrepo-Hartwig and J C Carrington

Department of Biology, Texas A&M University, College Station 77843.

ABSTRACT

The tobacco etch potyvirus (TEV) genome encodes a polyproteinthat is processed by three virus-encoded proteinases. Althoughreplication of TEV likely occurs in the cytoplasm, two replication-associatedproteins, VPg-proteinase (nuclear inclusion protein a) (NIa)and RNA-dependent RNA polymerase (nuclear inclusion proteinb) (NIb), accumulate in the nucleus of infected cells. The 6-kDaprotein is located adjacent to the N terminus of NIa in theTEV polyprotein, and, in the context of a 6-kDa protein/NIa(6/NIa) polyprotein, impedes nuclear translocation of NIa (M.A. Restrepo-Hartwig and J. C. Carrington, J. Virol. 66:5662-5666,1992). The 6-kDa protein and three polyproteins containing the6-kDa protein were identified by affinity chromatography ofextracts from infected plants. Two of the polyproteins containedNIa or the N-terminal VPg domain of NIa linked to the 6-kDaprotein. To investigate the role of the 6-kDa protein in vivo,insertion and substitution mutagenesis was targeted to sequencescoding for the 6-kDa protein and its N- and C-terminal cleavagesites. These mutations were introduced into a TEV genome engineeredto express the reporter protein beta-glucuronidase (GUS), allowingquantitation of virus amplification by a fluorometric assay.Three-amino-acid insertions at each of three positions in the6-kDa protein resulted in viruses that were nonviable in tobaccoprotoplasts. Disruption of the N-terminal cleavage site resultedin a virus that was approximately 10% as active as the parent,while disruption of the C-terminal processing site eliminatedvirus viability. The subcellular localization properties ofthe 6-kDa protein were investigated by fractionation and immunolocalizationof 6-kDa protein/GUS (6/GUS) fusion proteins in transgenic plants.Nonfused GUS was associated with the cytosolic fraction (30,000x g centrifugation supernatant), while 6/GUS and GUS/6 fusionproteins sedimented with the crude membrane fraction (30,000x g centrifugation pellet). The GUS/6 fusion protein was localizedto apparent membranous proliferations associated with the peripheryof the nucleus. These data suggest that the 6-kDa protein ismembrane associated and is necessary for virus replication.

J Virol. 1994 April; 68(4): 2388-2397

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