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  • Title: The Escherichia coli preprimosome and DNA B helicase can form replication forks that move at the same rate.
    Author: Mok M, Marians KJ.
    Journal: J Biol Chem; 1987 Dec 05; 262(34):16644-54. PubMed ID: 2824502.
    Abstract:
    A DNA replication system was developed that could generate rolling-circle DNA molecules in vitro in amounts that permitted kinetic analyses of the movement of the replication forks. Two artificial primer-template DNA substrates were used to study DNA synthesis catalyzed by the DNA polymerase III holoenzyme in the presence of either the preprimosomal proteins (the primosomal proteins minus the DNA G primase) and the Escherichia coli single-stranded DNA binding protein or the DNA B helicase alone. Helicase activities have recently been demonstrated to be associated with the primosome, a mobile multiprotein priming apparatus that requires seven E. coli proteins (replication factor Y (protein n'), proteins n and n'', and the products of the dnaB, dnaC, dnaG, and dnaT genes) for assembly, and with the DNA B protein. Consistent with a rolling-circle mechanism in which a helicase activity permitted extensive (-) strand DNA synthesis on a (+) single-stranded, circular DNA template, the major DNA products formed were multigenome-length, single-stranded, linear molecules. The replication forks assembled with either the preprimosome or the DNA B helicase moved at the same rate (approximately 730 nucleotides/s) at 30 degrees C and possessed apparent processivities in the range of 50,000-150,000 nucleotides. The single-stranded DNA binding protein was not required to maintain this high rate of movement in the case of leading strand DNA synthesis catalyzed by the DNA polymerase III holoenzyme and the DNA B helicase.
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