Processing of the envelope glycoproteins of pestiviruses.

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J Virol. 1993 June; 67(6): 3288-3294

Processing of the envelope glycoproteins of pestiviruses.

T Rümenapf, G Unger, J H Strauss and H J Thiel

Division of Biology, California Institute of Technology, Pasadena 91125.

ABSTRACT

The genomic RNA of pestiviruses is translated into a large polyproteinthat is cleaved into a number of proteins. The structural proteinsare N terminal in this polyprotein and include three glycoproteinscalled E0, E1, and E2 on the basis of the order in which theyappear in the polyprotein. Using pulse-chase experiments, weshow that a pestiviral glycoprotein precursor, E012, is formedthat is processed into E0, E1, and E2 in an ordered fashion.Processing is initiated by a nascent cleavage between the capsidand the translocated E012 followed by cleavage at the C terminusof E2. E012 is then rapidly cleaved to form E01 and E2. AfterE2 is released from the precursor, E01 is processed into E0and E1. To identify the sites of cleavage, the N termini ofthe glycoproteins of the pestivirus classical swine fever virus(formerly termed hog cholera virus) were sequenced after expressionin the vaccinia virus system. The N termini are Glu-268 forE0 (gp44/48), Leu-495 for E1 (gp33) and Arg-690 for E2 (gp55).The sequences around the cleavage sites capsid/E0 and E1/E2conform to the rules known for cellular signal proteases, asdoes the sequence at the presumed C terminus of E2. The sequenceupstream of the E0/E1 cleavage site also shows sequence characteristicsof signalase processing sites but lacks the typical hydrophobicsignal peptide; this cleavage site has characteristics in commonwith a site in flaviviruses that is also cleaved in a delayedfashion. The absence of any membrane-spanning region resultsin the shedding of E0 by infected cells, and E0 can be detectedin the virus-free supernatant. Comparison of the sequences aroundthe cleavage sites of pestiviruses suggests a general processingscheme for the structural glycoproteins. Comparison of the pesti-and flaviviral structural glycoproteins suggests analogies betweenE012 and prM-E.

J Virol. 1993 June; 67(6): 3288-3294

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