Preassembled capsids of type D retroviruses contain a signal sufficient for targeting specifically to the plasma membrane.

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J Virol. 1990 August; 64(8): 3844-3852

Preassembled capsids of type D retroviruses contain a signal sufficient for targeting specifically to the plasma membrane.

S S Rhee, H X Hui and E Hunter

Department of Microbiology, University of Alabama, Birmingham 35294.

ABSTRACT

The capsids of Mason-Pfizer monkey virus (M-PMV), an immunosuppressivetype D retrovirus, are preassembled in the infected cell cytoplasmand are then transported to the plasma membrane, where theyare enveloped in a virus glycoprotein-containing lipid bilayer.The role of viral glycoprotein in intracellular transport ofM-PMV capsids was investigated with a spontaneous mutant (5A)of M-PMV, which we show here to be defective in envelope glycoproteinbiosynthesis. DNA sequence analysis of the env gene of mutant5A reveals a single nucleotide deletion in the middle of thegene, which results in the synthesis of a truncated form ofthe envelope glycoprotein. Evidence is presented showing thatthe mutant glycoprotein is not expressed at the cell surfacebut is retained in the endoplasmic reticulum. Normal levelsof gag-pro-pol precursor polyproteins are made and processedin mutant genome-transfected cells, and high levels of noninfectiousparticles lacking viral glycoprotein are released with normalkinetics into the culture medium. No intracisternal buddingof capsids is observed. We conclude that viral glycoproteinis required neither for targeting preassembled capsids of M-PMVto the plasma membrane for final maturation nor for the buddingprocess. Since the presence or absence of M-PMV glycoproteinat the site of budding does not affect the efficiency or kineticsof the targeting process, the preassembled capsid of M-PMV,in contrast to those of intracisternal type A particles, appearsto have an intrinsic signal for intracellular transport to theplasma membrane.

J Virol. 1990 August; 64(8): 3844-3852

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