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. 1981 Jul;39(1):21–30. doi: 10.1128/jvi.39.1.21-30.1981

Both strands of polyoma DNA are replicated discontinuously with ribonucleotide primers in vivo.

M Närkhammar-Meuth, J Kowalski, D T Denhardt
PMCID: PMC171261  PMID: 6268811

Abstract

Nascent polyoma DNA molecules were isolated after pulse-labeling of infected murine 3T6 cells with [3H]thymidine. The extent of digestion of these DNA molecules by spleen exonuclease was increased by exposure to alkali or RNase, suggesting that ribonucleotides were present at or near the 5' terminal of the newly synthesized pieces of DNA. Intermediates shorter than 300 nucleotides were hybridized to the separated strands of restriction enzyme fragments of the polyoma genome: 2.5 to 3-fold more radioactivity was found in the strand whose synthesis is necessarily discontinuous (the lagging strand) than in the strand whose synthesis is potentially continuous (the leading strand) than in the strand whose synthesis is potentially continuous (the leading strand). Separation of the strands of [5'-32P]DNA molecules showed that the excess [3H]thymidine in lagging-strand molecules was not simply the result of an increased number of molecules. Therefore, assuming equivalent efficiencies of labeling, lagging-strand pieces must be slightly longer than those with leading-strand polarity. The presence of ribonucleotides on the 5' termini of molecules with both leading- and lagging-strand polarity was demonstrated by (i) release of 32P-ribonucleoside diphosphates upon alkaline hydrolysis of [5'-32P]DNA separated according to replication polarity and (ii) the change in the degree of self-annealing of nascent molecules upon preferential degradation of DNA molecules possessing initiator RNA moieties by spleen exonuclease. We conclude that replication of polyoma DNA in vivo occurs discontinuously on both sides of the growing fork, using RNA as the major priming mechanism.

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Selected References

These references are in PubMed. This may not be the complete list of references from this article.

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