An Alternative Clamp Loading Pathway via The T4 Clamp Loader gp44/62−DNA Complex

Document Type


Publication Date


Publication Title



In bacteriophage T4, a clamp loading pathway that utilizes the T4 clamp loader (gp44/62) and ATP hydrolysis initially to form a complex with the clamp (gp45) has been demonstrated, followed by interaction with DNA and closing of the clamp. However, the recent observation that gp45 exists as an opened form in solution raises the possibility of other pathways for clamp loading. In this study, an alternative clamp loading sequence is evaluated in which gp44/62 first recognizes the DNA substrate and then sequesters the clamp from solution and loads it onto DNA. This pathway differs in terms of the initial formation of a gp44/62−DNA complex that is capable of loading gp45. In this work, we demonstrate ATP-dependent DNA binding by gp44/62. Among various DNA structures that were tested, gp44/62 binds specifically to primer−template DNA but not to single-stranded DNA or blunt-end duplex DNA. By tracing the dynamic clamp closing with pre-steady-state FRET measurements, we show that the clamp loader−DNA complex is functional in clamp loading. Furthermore, pre-steady-state ATP hydrolysis experiments suggest that 1 equiv of ATP is hydrolyzed when gp44/62 binds to DNA, and additional ATP hydrolysis is associated with the completion of the clamp loading process. We also investigated the detailed kinetics of binding of MANT-nucleotide to gp44/62 through stopped-flow FRET and demonstrated a conformational change as the result of ATP, but not ADP binding. The collective kinetic data allowed us to propose and evaluate a sequence of steps describing this alternative pathway for clamp loading and holoenzyme formation.


This work was supported by National Institutes of Health Grant GM13306 to S.J.B.