Abstract
The ability of HeLa DNA polymerase alpha to utilize gapped PM2 DNAs for synthesis in a model base excision DNA repair scheme was examined. Partially depurinated PM2 DNA was incised on the 5' side of apurinic sites with HeLa apurinic/apyrimidinic endonuclease II, then the baseless sugar was removed and gaps of defined mean lengths were introduced at these sites by exonucleolytic digestion with HeLa DNase V. Gaps smaller than approximately 15 nucleotides did not serve as efficient primer-templates for DNA polymerase alpha. Gaps with mean lengths of 20-63 nucleotides did support limited DNA synthesis, but such synthesis terminated after the gap was reduced to roughly 15 nucleotides. These products were not substrates for Escherichia coli DNA ligase. In contrast, HeLa DNA polymerase beta utilize as primer-templates all of the gapped DNA substrates tested though it acted more efficiently with the smaller gaps. Moreover, the beta-polymerase was capable of filling these gaps to completion. In the case of the gaps that remained after partial closure by DNA polymerase alpha, DNA polymerase beta incorporated roughly 15 nucleotides and formed a product which was a substrate for DNA ligase. These results suggest that in vivo DNA repair pathways that involve a gap-filling DNA synthesis reaction might utilize DNA polymerase alpha only for larger gaps.
Highlights
“Longpatch” DNA repairin mammalian cells,which is normally associated with excision of bulky adducts and occurs to a small extent after exposure to alkylating agents, resultsin the incorporation of 30 or more nucleotides per polymerase was capable of filling these gapscotmo ple- patch [1, 6,7,8]
The size DNA @ have been demonstrated in conjunction with DNase of the majority of excision repairpatches observed after V [5, 10] and with correxonuclease ( l l ), both of damage by monofunctional alkylating agents or ionizing ra- which can complex with the polymerase
During a DNA excision repair event in vivo the size of the gap formed by the excision process might be an important factor for determining which DNA polymerase(s) would be utilized for the repair synthesis
Summary
0 1984 by The American Society of Biological Chemists, Inc. Vol 259, No., Issue of August 25, pp. 10247-10251 1984 Printed in L~.s.A. 10247-10251 1984 Printed in L~.s.A. Gap-filling DNA Synthesis by HeLa DNA Polymerase CY in an in Vitro Base Excision DNA Repair Scheme*. Gaps with mean lengths of 20-63 nucleotides did support limited DNA synthesis, but such synthesis terminated after thegap was reduced to roughly 15 nucleotides These products were not substrates for Escherichia coli DNA ligase. Among the major types of damage caused by these agentsare If synthesis were totally to follow excision, eitherDNA abormal DNA bases which are removed by DNA glycosylases or spontaneously eliminate,leaving AP’ sites inthe DNA [2]. This process initiates a base excision repair sequence.
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