The eukaryotic leading and lagging strand DNA polymerases are loaded onto primer-ends via separate mechanisms but have comparable processivity in the presence of PCNA

Saccharomyces cerevisiae DNA polymerase δ (Pol δ) and DNA polymerase ε (Pol ε) are replicative DNA polymerases at the replication fork. Both enzymes are stimulated by PCNA, although to different levels. To understand why and to explore the interaction with PCNA, we compared Pol δ and Pol ε in physic...

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Autores principales: Chilkova, Olga, Stenlund, Peter, Isoz, Isabelle, Stith, Carrie M., Grabowski, Pawel, Lundström, Else-Britt, Burgers, Peter M., Johansson, Erik
Formato: Texto
Lenguaje:English
Publicado: Oxford University Press 2007
Materias:
Nucleic Acid Enzymes
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2095795/
https://www.ncbi.nlm.nih.gov/pubmed/17905813
http://dx.doi.org/10.1093/nar/gkm741
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author Chilkova, Olga
Stenlund, Peter
Isoz, Isabelle
Stith, Carrie M.
Grabowski, Pawel
Lundström, Else-Britt
Burgers, Peter M.
Johansson, Erik
author_facet Chilkova, Olga
Stenlund, Peter
Isoz, Isabelle
Stith, Carrie M.
Grabowski, Pawel
Lundström, Else-Britt
Burgers, Peter M.
Johansson, Erik
author_sort Chilkova, Olga
collection PubMed
description Saccharomyces cerevisiae DNA polymerase δ (Pol δ) and DNA polymerase ε (Pol ε) are replicative DNA polymerases at the replication fork. Both enzymes are stimulated by PCNA, although to different levels. To understand why and to explore the interaction with PCNA, we compared Pol δ and Pol ε in physical interactions with PCNA and nucleic acids (with or without RPA), and in functional assays measuring activity and processivity. Using surface plasmon resonance technique, we show that Pol ε has a high affinity for DNA, but a low affinity for PCNA. In contrast, Pol δ has a low affinity for DNA and a high affinity for PCNA. The true processivity of Pol δ and Pol ε was measured for the first time in the presence of RPA, PCNA and RFC on single-stranded DNA. Remarkably, in the presence of PCNA, the processivity of Pol δ and Pol ε on RPA-coated DNA is comparable. Finally, more PCNA molecules were found on the template after it was replicated by Pol ε when compared to Pol δ. We conclude that Pol ε and Pol δ exhibit comparable processivity, but are loaded on the primer-end via different mechanisms.
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spelling pubmed-20957952007-12-07 The eukaryotic leading and lagging strand DNA polymerases are loaded onto primer-ends via separate mechanisms but have comparable processivity in the presence of PCNA Chilkova, Olga Stenlund, Peter Isoz, Isabelle Stith, Carrie M. Grabowski, Pawel Lundström, Else-Britt Burgers, Peter M. Johansson, Erik Nucleic Acids Res Nucleic Acid Enzymes Saccharomyces cerevisiae DNA polymerase δ (Pol δ) and DNA polymerase ε (Pol ε) are replicative DNA polymerases at the replication fork. Both enzymes are stimulated by PCNA, although to different levels. To understand why and to explore the interaction with PCNA, we compared Pol δ and Pol ε in physical interactions with PCNA and nucleic acids (with or without RPA), and in functional assays measuring activity and processivity. Using surface plasmon resonance technique, we show that Pol ε has a high affinity for DNA, but a low affinity for PCNA. In contrast, Pol δ has a low affinity for DNA and a high affinity for PCNA. The true processivity of Pol δ and Pol ε was measured for the first time in the presence of RPA, PCNA and RFC on single-stranded DNA. Remarkably, in the presence of PCNA, the processivity of Pol δ and Pol ε on RPA-coated DNA is comparable. Finally, more PCNA molecules were found on the template after it was replicated by Pol ε when compared to Pol δ. We conclude that Pol ε and Pol δ exhibit comparable processivity, but are loaded on the primer-end via different mechanisms. Oxford University Press 2007-10 2007-09-28 /pmc/articles/PMC2095795/ /pubmed/17905813 http://dx.doi.org/10.1093/nar/gkm741 Text en © 2007 The Author(s) http://creativecommons.org/licenses/by-nc/2.0/uk/ This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/2.0/uk/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Nucleic Acid Enzymes
Chilkova, Olga
Stenlund, Peter
Isoz, Isabelle
Stith, Carrie M.
Grabowski, Pawel
Lundström, Else-Britt
Burgers, Peter M.
Johansson, Erik
The eukaryotic leading and lagging strand DNA polymerases are loaded onto primer-ends via separate mechanisms but have comparable processivity in the presence of PCNA
title The eukaryotic leading and lagging strand DNA polymerases are loaded onto primer-ends via separate mechanisms but have comparable processivity in the presence of PCNA
title_full The eukaryotic leading and lagging strand DNA polymerases are loaded onto primer-ends via separate mechanisms but have comparable processivity in the presence of PCNA
title_fullStr The eukaryotic leading and lagging strand DNA polymerases are loaded onto primer-ends via separate mechanisms but have comparable processivity in the presence of PCNA
title_full_unstemmed The eukaryotic leading and lagging strand DNA polymerases are loaded onto primer-ends via separate mechanisms but have comparable processivity in the presence of PCNA
title_short The eukaryotic leading and lagging strand DNA polymerases are loaded onto primer-ends via separate mechanisms but have comparable processivity in the presence of PCNA
title_sort eukaryotic leading and lagging strand dna polymerases are loaded onto primer-ends via separate mechanisms but have comparable processivity in the presence of pcna
topic Nucleic Acid Enzymes
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2095795/
https://www.ncbi.nlm.nih.gov/pubmed/17905813
http://dx.doi.org/10.1093/nar/gkm741
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