Translation of Sindbis virus 26 S RNA and 49 S RNA in lysates of rabbit reticulocytes

Abstract

Sindbis virus-specific polypeptides were synthesized in lysates of rabbit reticulocytes in response to added 26 S or 49 S RNA. Sindbis 26 S RNA was translated into as many as three polypeptides which co-migrate in acrylamide gels with proteins found in infected cells. Wild type 26 S RNA was translated primarily into two polypeptides, which appear to be the Sindbis nucleocapsid protein (mol. wt 30,000) and the precursor of the two glycoproteins of the virion (mol. wt 100,000). A larger polypeptide (mol. wt 130,000) was synthesized in response to ts2 26 S RNA, a species of RNA which was isolated from cells infected with the ts2 mutant of Sindbis virus. This large polypeptide is apparently the protein which accumulates in cells infected with the mutant virus and which is thought to be a precursor of all three viral structural proteins. These results support the hypothesis that 26 S RNA is the messenger for the three structural proteins of the virion and that the RNA codes for one large polypeptide precursor. The precursor may then be cleaved at a specific site to yield the nucleocapsid protein and a second polypeptide which, in infected cells, is cleaved in a series of steps to yield the two glycoproteins of the virion. Sindbis 49 S RNA was translated into eight or nine polypeptides ranging from 60,000 to 180,000 molecular weights. The viral structural proteins, as such, were not synthesized in response to the added 49 S RNA.