DNA polymerase III holoenzyme of Escherichia coli. III. Distinctive processive polymerases reconstituted from purified subunits

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DNA polymerase III holoenzyme of Escherichia coli. III. Distinctive processive polymerases reconstituted from purified subunits

S Maki and A Kornberg
Department of Biochemistry, Stanford University School of Medicine, California 94305.

The 10 distinctive polypeptides of DNA polymerase III holoenzyme, purified as individual subunits or complexes, could be reconstituted to generate a polymerase with the high catalytic rate of the isolated intact holoenzyme. Functions and interactions of the subunits can be inferred from partial assemblies of the pol III core (alpha, epsilon, and theta subunits) with auxiliary subunits. The core possesses the polymerase and proofreading activities; the auxiliary subunits provide the core with processivity, the capacity to replicate long stretches of DNA without dissociating from the template. In a sequence of reconstruction steps, the beta subunit binds the primed template in an ATP-dependent manner through the catalytic action of a complex made up of the gamma, delta, delta', chi, and psi polypeptides. With the beta subunit in place, a processive polymerase is produced upon addition of the core. When the tau subunit is lacking, binding of polymerase to the primed template is less efficient and stable. The tau-less reconstituted polymerase is more prone to dissociation upon encountering secondary structures in the template in its path, such as a hairpin region in the single strand or a duplex region formed by a strand annealed to the template. With the tau subunit present, the interaction of the core.beta complex (the basic unit of a processive polymerase) with the primed template is strengthened. The tau- containing reconstituted polymerase can replicate DNA continuously through secondary structures in the template. The two distinctive kinds of processivity demonstrated by the tau-less and tau-containing reconstituted polymerases fit nicely into a scheme in which, organized as an asymmetric dimeric holoenzyme, the tau half is responsible for continuous synthesis of one strand, and the less stable half for discontinuous synthesis of the other.
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				R. W. Maul, L. H. Sanders, J. B. Lim, R. Benitez, and M. D. Sutton Role of Escherichia coli DNA Polymerase I in Conferring Viability upon the dnaN159 Mutant Strain J. Bacteriol., July 1, 2007; 189(13): 4688 - 4695. [Abstract] [Full Text] [PDF]

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				M. D. Sutton The Escherichia coli dnaN159 Mutant Displays Altered DNA Polymerase Usage and Chronic SOS Induction J. Bacteriol., October 15, 2004; 186(20): 6738 - 6748. [Abstract] [Full Text] [PDF]

				F. J. Lopez de Saro, R. E. Georgescu, and M. O'Donnell A peptide switch regulates DNA polymerase processivity PNAS, December 9, 2003; 100(25): 14689 - 14694. [Abstract] [Full Text] [PDF]

				I. Bruck, M. F. Goodman, and M. O'Donnell The Essential C Family DnaE Polymerase Is Error-prone and Efficient at Lesion Bypass J. Biol. Chem., November 7, 2003; 278(45): 44361 - 44368. [Abstract] [Full Text] [PDF]

				M. M. Hingorani and M. O'Donnell ATP Binding to the Escherichia coli Clamp Loader Powers Opening of the Ring-shaped Clamp of DNA Polymerase III Holoenzyme J. Biol. Chem., September 18, 1998; 273(38): 24550 - 24563. [Abstract] [Full Text] [PDF]

				C. Levine and K. J. Marians Identification of dnaX as a High-Copy Suppressor of the Conditional Lethal and Partition Phenotypes of the parE10 Allele J. Bacteriol., March 1, 1998; 180(5): 1232 - 1240. [Abstract] [Full Text]

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				H. Xiao, V. Naktinis, and M. O'Donnell Assembly of a Chromosomal Replication Machine: Two DNA Polymerases, a Clamp Loader, and Sliding Clamps in One Holoenzyme Particle J. Biol. Chem., June 2, 1995; 270(22): 13378 - 13383. [Abstract] [Full Text] [PDF]

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				Z Tsuchihashi and P O Brown Sequence requirements for efficient translational frameshifting in the Escherichia coli dnaX gene and the role of an unstable interaction between tRNA(Lys) and an AAG lysine codon. Genes & Dev., March 1, 1992; 6(3): 511 - 519. [Abstract] [PDF]

				M.-S. Song, P. T. Pham, M. Olson, J. R. Carter, M. A. Franden, R. M. Schaaper, and C. S. McHenry The delta and delta ' Subunits of the DNA Polymerase III Holoenzyme Are Essential for Initiation Complex Formation and Processive Elongation J. Biol. Chem., September 7, 2001; 276(37): 35165 - 35175. [Abstract] [Full Text] [PDF]