Temperature-sensitive mutants of adenovirus single-stranded DNA-binding protein. Inability to support DNA replication is associated with an altered DNA-binding activity of the protein.

The adenovirus single-stranded DNA-binding protein (DBP) is an essential factor in viral DNA replication. Three temperature-sensitive (ts) adenoviruses (Ad2+ND1ts23, Ad2ts111A, and Ad5ts125) are known to have single amino acid substitutions in their DBPs that result in defective DNA replication at the nonpermissive temperature. To elucidate the mechanism(s) involved in the ts phenotype, we purified the three mutant DBPs and studied their DNA-binding properties and their ability to support DNA replication in an in vitro system. The results confirm that the three ts DBPs were incapable of supporting DNA replication at the nonpermissive temperature (40 degrees C). The defect was found at both the initiation and elongation steps of DNA replication. The 2-fold stimulation of pTP.dCMP formation by the DBP was lost by prior heating of the ts DBPs. The pronounced effect of the DBP on the early elongation process was severely diminished, but not abolished, by prior heating to 40 degrees C. The functional change at 40 degrees C was irreversible, as the ts DBPs preincubated at 40 degrees C were no longer active when assayed at 30 degrees C. Upon heating to 40 degrees C, all three ts DBPs lost their ability to bind to oligonucleotides, although they still retained some binding activity for large single-stranded DNAs such as M13 DNA. Thus, the inability of these three ts DBPs to support DNA replication is attributable to their altered DNA-binding properties.