A carboxy-terminal fragment of protein mu 1/mu 1C is present in infectious subvirion particles of mammalian reoviruses and is proposed to have a role in penetration.

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J Virol. 1992 November; 66(11): 6408-6418

A carboxy-terminal fragment of protein mu 1/mu 1C is present in infectious subvirion particles of mammalian reoviruses and is proposed to have a role in penetration.

M L Nibert and B N Fields

Department of Microbiology and Molecular Genetics, Harvard Medical School, Boston, Massachusetts.

ABSTRACT

Penetration of a cell membrane as an early event in infectionof cells by mammalian reoviruses appears to require a particulartype of viral particle, the infectious subvirion particle (ISVP),which is generated from an intact virion by proteolytic cleavageof the outer capsid proteins sigma 3 and mu 1/mu 1C. Characterizationsof the structural components and properties of ISVPs are thusrelevant to attempts to understand the mechanism of penetrationby reoviruses. In this study, a novel, approximately 13-kDacarboxy-terminal fragment (given the name phi) was found tobe generated from protein mu 1/mu 1C during in vitro treatmentsof virions with trypsin or chymotrypsin to yield ISVPs. Withtrypsin treatment, both the carboxy-terminal fragment phi andthe amino-terminal fragment mu 1 delta/delta were shown to begenerated and to remain attached to ISVPs in stoichiometricquantities. Sites of protease cleavage were identified in thededuced amino acid sequence of mu 1 by determining the amino-terminalsequences of phi proteins: trypsin cleaves between arginine584 and isoleucine 585, and chymotrypsin cleaves between tyrosine581 and glycine 582. Findings in this study indicate that sequencesin the phi portion of mu 1/mu 1C may participate in the uniquefunctions attributed to ISVPs. Notably, the delta-phi cleavagejunction was predicted to be flanked by a pair of long amphipathicalpha-helices. These amphipathic alpha-helices, together withthe myristoyl group at the extreme amino terminus of mu 1/mu1N, are proposed to interact directly with the lipid bilayerof a cell membrane during penetration by mammalian reoviruses.

J Virol. 1992 November; 66(11): 6408-6418

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