Thermolabile DNA binding proteins from cells infected with a temperature-sensitive mutant of adenovrius defective in viral DNA synthesis.

Infection of African green monkey kidney cells with type 5 adenovirus leads to the synthesis of two infected, cell-specific proteins with approximate molecular weights of 72,000 and 48,000, that bind specifically to single-stranded but not double-stranded DNA. The production of these two proteins was studied after infection with two DNA-negative adenovirus mutants belonging to different complementation groups (H5 ts36 and H5 ts 125). Both DNA binding proteins were detected in cells infected with either mutant at the permissive temperature (32 C) AND ALSO IN H5 ts36-infected cells at the nonpermissive temperature (39.5 C). In H5 ts125-infected cells at 39.5 C, however, less than 5% of the normal wild-type level of these DNA binding proteins was detectable. When H5 ts125-infected cells were labeled with radioactive leucine at 32 C and subsequently shifted to 39.5 C in the presence of unlabeled leucine (chase), the level of DNA binding proteins found in these infected cells was markedly reduced compared to cultures not shifted to 39.5 C. These data suggest that the DNA binding proteins themselves were temperature sensitive. This conclusion was confirmed by experiments in which the DNA binding proteins were eluted from DNA cellulose with buffers of increasing temperatures (thermal elution). The H5 ts 125 proteins were shown to elute at lower temperatures than either wild-type or H5 ts36 proteins. These results are taken to indicate that the H5 ts125 mutant codes for a DNA binding protein that is thermolabile for continued binding to single-stranded DNA.