The dynamic processivity of the T4 DNA polymerase during replication
- Jingsong Yang,
- Zhihao Zhuang,
- Rosa Maria Roccasecca*,
- Michael A. Trakselis†, and
- Stephen J. Benkovic‡
- Department of Chemistry, 414 Wartik Laboratory, Pennsylvania State University, University Park, PA 16802
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Contributed by Stephen J. Benkovic, April 13, 2004
Abstract
The polymerase (gp43) processivity during T4 replisome mediated DNA replication has been investigated. The size of the Okazaki fragments remains constant over a wide range of polymerase concentrations. A dissociation rate constant of ≈0.0013 sec-1 was measured for the polymerases from both strands, consistent with highly processive replication on both the leading and lagging strands. This processive replication, however, can be disrupted by a catalytically inactive mutant D408N gp43 that retains normal affinity for DNA and the clamp. The inhibition kinetics fit well to an active exchange model in which the mutant polymerase (the polymerase trap) displaces the replicating polymerase. This kinetic model was further strengthened by the observation that the sizes of both the Okazaki fragments and the extension products on a primed M13mp18 template were reduced in the presence of the mutant polymerase. The effects of the trap polymerase therefore suggest a dynamic processivity of the polymerase during replication, namely, a solution/replisome polymerase exchange takes place without affecting continued DNA synthesis. This process mimics the polymerase switching recently suggested during the translesion DNA synthesis, implies the multiple functions of the clamp in replication, and may play a potential role in overcoming the replication barriers by the T4 replisome.
Footnotes
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↵ ‡ To whom correspondence should be addressed. E-mail: sjb1{at}psu.edu.
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↵ * Present address: Molecular and Cell Biology Laboratory, Istituto Dermopatico dell'Immacolata–Istituto di Ricovero e Cura a Carattere Scientifico, via Monti di Creta 104, 00167 Rome, Italy.
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↵ † Present address: Medical Research Council Cancer Cell Unit, Hutchinson/Medical Research Council Research Centre, Hills Road, Cambridge CB2 2XZ, United Kingdom.
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Abbreviations: TRFII, tailed replicative form II; ssDNA, single-stranded DNA.
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See Commentary on page 8255.
- Copyright © 2004, The National Academy of Sciences
