The T4 DNA polymerase accessory proteins form an ATP-dependent complex on a primer-template junction.

Abstract The DNA polymerase holoenzyme of bacteriophage T4 contains, besides the DNA polymerase itself (the gene 43 protein), a complex of the protein products of T4 genes 44 and 62 (a DNA-dependent ATPase) and of gene 45. Together, the 44/62 and 45 proteins form an ATP-dependent sliding clamp that holds a moving DNA polymerase molecule at the 3' terminus of a growing DNA chain. We have used a unique DNA fragment that forms a short hairpin helix with a single-stranded 5' tail (a junction) to map the binding sites for these polymerase accessory proteins by DNA footprinting techniques. In the absence of the DNA polymerase, the accessory proteins protect from DNase I cleavage 19-20 nucleotides just behind the 3' end of the primer strand and 27-28 nucleotides on the complementary portion of the template strand. Detection of this DNA-protein complex requires the 44/62 and 45 proteins plus the nonhydrolyzable ATP analogue adenosine 5'-O-(thiotriphosphate). The complex is not detected in the presence of ATP. We suggest that ATP hydrolysis by the 44/62 protein normally activates the accessory proteins at a primer-template junction, permitting the DNA polymerase to bind and thus form the complete holoenzyme. However, when the polymerase is missing, as in these experiments, ATP hydrolysis is instead followed by a release (or loosening) of the accessory protein complex.