We investigated the nature of the defect in the temperature-sensitive mutant of Moloney murine sarcoma virus (Mo-MuSV), termed ts110. This mutant has a temperature-sensitive defect in a function required for maintenance of the transformed state. A nonproducer cell clone, 6m2, infected with ts110 expresses P85 and P58 at 33°C, the transformed temperature, but only P58 is detected at the restrictive temperature of 39°C. Shift-up (33°C → 39°C) and in vitro experiments have established that P85 is not thermolabile for immunoprecipitation. Previous temperature-shift experiments (39°C → 33°C) have shown that P85 synthesis resumes after a 2–3 hr lag period. Temperature shifts (39°C → 33°C) performed in the presence of actinomycin D prevented the synthesis of P85, whereas P58 synthesis did not decline for 5 hr, suggesting that P58 and P85 are translated from different mRNAs. The shift-up experiments also indicated that, once made, the RNA coding for P85 can function at the restrictive temperature for several hours. MuSV- ts110-infected cells superinfected with Mo-MuLV produced a ts110 MuSV-MuLV mixture. Sucrose gradient analysis of virus subunit RNAs revealed a ∼28S and a ∼35S peak. Electrophoresis of the ∼28S poly(A)-containing RNA from ts110 virus in methyl mercuric hydroxide gels resolved two RNAs with estimated sizes of 1.9 × 10 6 and 1.6 × 10 6 daltons, both smaller than the wild type MuSV-349 genomic RNA (2.2 × 10 6 daltons). RNA in the ∼28S size class from virus preparations harvested at 33°C was found to translate from P85 and P58, whereas, the ∼35S RNA yielded helper virus Pr63 gag. In contrast, virus harvested at 39°C was deficient in P85 coding RNA only. Peptide mapping experiments indicate that P85 contains P23 sequences, a candidate Moloney mouse sarcoma virus src gene product. Taken together, these results suggest that two virus-specific RNAs are present in ts 110-infected 6m2 cells and rescued ts110 pseudotype virions at 33°C, one coding for P85, whose expression can be interfered with by shifting the culture to 39°C; the other coding for P58, whose expression is unaffected by temperature shifts. P85 is a candidate gag-src fusion protein, while P58 contains gag sequences only.