Eur J Biochem 1983 Oct 03;1353:435-42.

Reactions in vitro of the DNA polymerase-primase from Xenopus laevis eggs. A role for ATP in chain elongation.

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A form of DNA polymerase alpha was purified several thousandfold from a protein extract of Xenopus laevis eggs. The enzyme effectively converts, in the presence of ribonucleoside triphosphates, a circular single-stranded phage fd DNA template into a double-stranded DNA form and, therefore, must be associated with a DNA primase. We first show by gel electrophoresis in the presence of sodium dodecyl sulfate that both enzymatic activities, DNA polymerase and primase, most probably reside on a greater than 100 000-Da subunit of the DNA polymerase holoenzyme. We then assayed the polymerase-primase at various template/enzyme ratios and found that the DNA complementary strand sections synthesized in vitro belong to defined size classes in the range of 600-2000 nucleotides, suggesting preferred start and/or stop sites on the fd DNA template strand. We show that the stop sites coincide with stable hairpin structures in fd DNA. We have used a fd DNA template, primed by a restriction fragment of known size, to show that the polymerase-primase stops at the first stable hairpin structure upstream from the 3'-OH primer site when the reaction was carried out at 0.1 mM ATP. However, at 2 mM ATP the enzyme was able to travers this and other stop sites on the fd DNA template strand leading to the synthesis of 2-4 times longer DNA strands. Our results suggest a role for ATP in the polymerase-primase-catalyzed chain-elongation reaction.

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Species referenced: Xenopus laevis