A herpes simplex virus mutant in which glycoprotein D sequences are replaced by beta-galactosidase sequences binds to but is unable to penetrate into cells.

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J Virol. 1988 May; 62(5): 1486-1494

A herpes simplex virus mutant in which glycoprotein D sequences are replaced by beta-galactosidase sequences binds to but is unable to penetrate into cells.

M W Ligas and D C Johnson

Department of Pathology, McMaster University, Hamilton, Ontario, Canada.

ABSTRACT

Herpes simplex virus (HSV) glycoprotein gD is a major componentof the virion envelope and is thought to play an important rolein the initial stages of viral infection and stimulates theproduction of high titers of neutralizing antibodies. We assumedthat gD plays an essential role in virus replication, and soto complement viruses with mutations in the gD gene we constructeda cell line, denoted VD60, which is capable of expressing highlevels of gD after infection with HSV. A recombinant virus,designated F-gD beta, in which sequences encoding gD and a nonessentialglycoprotein, gI, were replaced by Escherichia coli beta-galactosidasesequences, was selected on the basis that it produced blue plaqueson VD60 cell monolayers under agarose overlays containing 5-bromo-4-chloro-3-indolyl-beta-D-galactopyranoside(X-Gal). F-gD beta was able to replicate normally on complementingVD60 cells. However, F-gD beta was unable to form plaques onnoncomplementing Vero cells. Virions lacking gD were producedin normal amounts by Vero cells infected with F-gD beta, andthe virus particles were distributed throughout the cytoplasmand on the cell surface, suggesting that gD is not essentialfor HSV envelopment and egress. Virions lacking gD were ableto bind to cells, but were unable to initiate synthesis of viralearly polypeptides. Plaque production of F-gD beta particleslacking gD was enhanced by polyethylene glycol treatment, suggestingthat gD is essential for penetration of HSV into cells. OtherHSV glycoproteins have been implicated in the entry of virusinto cells, and thus this process appears to involve multipleinteractions at the cell surface.

J Virol. 1988 May; 62(5): 1486-1494

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J. Bacteriol.	Mol. Cell. Biol.	Microbiol. Mol. Biol. Rev.

Clin. Vaccine Immunol.	ALL ASM JOURNALS