Translational products of Moloney murine sarcoma virus RNA: Identification of proteins encoded by the murine sarcoma virus src gene

In vitro translation of virion RNA of Moloney murine sarcoma virus (MSV) strain 124 yielded major products having molecular weights of 63,000 (63K), 43K, 40K, 31K, and 24K daltons. A molecularly cloned subgenomic fragment of Moloney MSV comprised of the cellular insertion (src) region was utilized in hybridization arrest translation as a means of identifying products of the MSV src gene. MSV src DNA specifically inhibited synthesis of the 43K, 40K, 31K, and 24K proteins, implying that each of these proteins was coded within the MSV src gene. The MSV src-specific nature of this family of proteins was further confirmed by partial purification of MSV src-containing RNAs from MSV non-producer cells. In vitro translation of enriched cellular RNAs yielded products with molecular weights identical to those of the 43K family of proteins synthesized from virion RNA. Nucleotide sequence analysis of the MSV transforming region has revealed a long open reading frame which includes 5 methionine codons (Reddy et al., Proc. Natl. Acad. Sci. U.S.A. 77:5234-5238, 1980). The molecular weights of the 4 largest proteins that could be synthesized within this open reading frame corresponded closely to the molecular weights of the 43K family of proteins. Partial cyanogen bromide cleavage of each of the 3 largest proteins resulted in an uncleaved fragment having a molecular weight equal to that of the smallest (24K) protein. These findings provide direct biochemical evidence that the 43K, 40K, 31K, and 24K proteins are related in their carboxy-terminal regions, as well as information concerning the MSV src gene coding sequences from which each protein originates.