Cytoplasmic Fractions Associated with Semliki Forest Virus Ribonucleic Acid Replication

Abstract

When actinomycin D-treated chick fibroblasts were labeled with 3 H-uridine for varying periods during the log phase of Semliki Forest virus infection, radioactivity was found associated with different cytoplasmic fractions. After a 1-min period of labeling, it appeared in a large cytoplasmic structure which was seen in electron micrographs of infected cells. Sediments of sucrose density gradients of cytoplasmic extracts of these cells also contained these structures. Three forms of viral ribonucleic acid (RNA) were associated with this cytoplasmic structure: a ribonuclease-sensitive 42 S form identical to the RNA of the mature virus, a ribonuclease-sensitive 26 S form, and a ribonuclease-resistant 20 S form. After a 5- to 10-min labeling period, radioactivity was associated with a ribonuclease-sensitive 65 S cytoplasmic fraction which contained only the 26 S RNA form. Finally, after a 1-hr labeling period, a 140 S ribonuclease-resistant particle was the most prominent radioactive structure in the cytoplasm. This particle contained only 42 S viral RNA. Negative-contrast electron micrographs of the 140 S particle and the virion demonstrated structural differences between them. The base compositions of the 42 S and 26 S viral RNA forms were not significantly different. The base composition of the 20 S form differed significantly from that of the other two viral RNA forms, but the values obtained for the mole fractions of the bases present in the 20 S form differed, and depended on the period during the virus growth cycle in which 32 P was present. These results suggested that viral RNA originated in the large cytoplasmic body. The 20 S RNA appeared to be a structure engaged in viral RNA replication and the 140 S particle appeared to be a virus precursor.