Processive proofreading is intrinsic to T4 DNA polymerase.


DNA replication occurs in vivo with very high processivity, meaning ...
DNA replication occurs in vivo with very high processivity, meaning that the replication complex assembles at the origin(s) of replication and then performs template-directed synthesis of DNA over virtually the entire genome without dissociation. Such processivity also characterizes reconstituted replication holoenzyme complexes in vitro. However, the isolated DNA polymerases are much less processive, especially under physiological conditions. In this paper we monitor the degree of processivity displayed by the bacteriophage T4-coded DNA polymerase while in its proofreading mode by asking whether an isolated polymerase can "edit-out" the 3'-terminal nucleotide from the primer (using the 3'----5'-exonuclease activity of the polymerase) and then switch into the synthesis mode without dissociating from the DNA template. This "switch experiment" is accomplished by using mismatched primer/template substrates as an experimental tool to mimic the situation that T4 DNA polymerase encounters after a misincorporation event has occurred. By performing experiments under single-turnover conditions (obtained using a heparin trap), we demonstrate that T4 DNA polymerase, upon encountering a misincorporated base, neither synthesizes the next base nor dissociates into solution. Instead, with a greater than 80% probability, it removes the misincorporated base and then continues synthesis in a fully processive manner. We also show that the removal of a doubly mispaired sequence from the 3'-terminus of the primer, followed by synthesis, is comparably processive. In contrast, the apparent processivity of removing a triply mispaired terminus is much reduced. Taken together, these observations are consistent with the notion that the "editing active site" of the T4 enzyme optimally accommodates only two unpaired nucleotide residues. Our results do not support the idea that the exonuclease activity of T4 DNA polymerase is highly selective for mismatched termini; they suggest instead that the dwell time at a misincorporated base determines overall editing efficiency. The integrated results of this study provide additional insight into the structure of the T4 DNA polymerase, as well as into the interactions between the polymerase and the polymerase accessory proteins that are required to provide the holoenzyme complex with full processivity.




Modulators/Inhibitors, Nucleotide Incorporation, Exonuclease Activity

One line summary:

T4 DNA polymerase removes misincorporated base and then continues synthesis in a fully processive manner with 80% probability in vitro; similarly for doubly mispaired sequence


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