A Role for the Interactions between Polδ and PCNA Revealed by Analysis of pol3-01 Yeast Mutants

Shaked Nir Heyman; Mika Golan; Batia Liefshitz; Martin Kupiec

doi:10.3390/genes14020391

A Role for the Interactions between Polδ and PCNA Revealed by Analysis of pol3-01 Yeast Mutants

Shaked Nir Heyman
, Mika Golan
, Batia Liefshitz
, Martin Kupiec^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Several DNA polymerases participate in DNA synthesis during genome replication and DNA repair. PCNA, a homotrimeric ring, acts as a processivity factor for DNA polymerases. PCNA also acts as a “landing pad” for proteins that interact with chromatin and DNA at the moving fork. The interaction between PCNA and polymerase delta (Polδ) is mediated by PIPs (PCNA-interacting peptides), in particular the one on Pol32, a regulatory subunit of Polδ. Here, we demonstrate that pol3-01, an exonuclease mutant of Polδ’s catalytic subunit, exhibits a weak interaction with Pol30 compared to the WT DNA polymerase. The weak interaction activates DNA bypass pathways, leading to increased mutagenesis and sister chromatid recombination. Strengthening pol3-01′s weak interaction with PCNA suppresses most of the phenotypes. Our results are consistent with a model in which Pol3-01 tends to detach from the chromatin, allowing an easier replacement of Polδ by the trans-lesion synthesis polymerase Zeta (Polz), thus leading to the increased mutagenic phenotype.

Original language	English
Article number	391
Journal	Genes
Volume	14
Issue number	2
DOIs	https://doi.org/10.3390/genes14020391
State	Published - Feb 2023

Funding

Funders	Funder number
DFG-Middle	188/4-1
Israel Cancer Research Fund	458
Minerva Foundation	238
Israel Science Foundation	140/18

Keywords

DNA damage tolerance
DNA polymerase
PCNA
Saccharomyces cerevisiae
homologous recombination
mutagenesis

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10.3390/genes14020391

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title = "A Role for the Interactions between Polδ and PCNA Revealed by Analysis of pol3-01 Yeast Mutants",

abstract = "Several DNA polymerases participate in DNA synthesis during genome replication and DNA repair. PCNA, a homotrimeric ring, acts as a processivity factor for DNA polymerases. PCNA also acts as a “landing pad” for proteins that interact with chromatin and DNA at the moving fork. The interaction between PCNA and polymerase delta (Polδ) is mediated by PIPs (PCNA-interacting peptides), in particular the one on Pol32, a regulatory subunit of Polδ. Here, we demonstrate that pol3-01, an exonuclease mutant of Polδ{\textquoteright}s catalytic subunit, exhibits a weak interaction with Pol30 compared to the WT DNA polymerase. The weak interaction activates DNA bypass pathways, leading to increased mutagenesis and sister chromatid recombination. Strengthening pol3-01′s weak interaction with PCNA suppresses most of the phenotypes. Our results are consistent with a model in which Pol3-01 tends to detach from the chromatin, allowing an easier replacement of Polδ by the trans-lesion synthesis polymerase Zeta (Polz), thus leading to the increased mutagenic phenotype.",

keywords = "DNA damage tolerance, DNA polymerase, PCNA, Saccharomyces cerevisiae, homologous recombination, mutagenesis",

author = "\{Nir Heyman\}, Shaked and Mika Golan and Batia Liefshitz and Martin Kupiec",

note = "Publisher Copyright: {\textcopyright} 2023 by the authors.",

year = "2023",

month = feb,

doi = "10.3390/genes14020391",

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volume = "14",

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T1 - A Role for the Interactions between Polδ and PCNA Revealed by Analysis of pol3-01 Yeast Mutants

AU - Nir Heyman, Shaked

AU - Golan, Mika

AU - Liefshitz, Batia

AU - Kupiec, Martin

PY - 2023/2

Y1 - 2023/2

N2 - Several DNA polymerases participate in DNA synthesis during genome replication and DNA repair. PCNA, a homotrimeric ring, acts as a processivity factor for DNA polymerases. PCNA also acts as a “landing pad” for proteins that interact with chromatin and DNA at the moving fork. The interaction between PCNA and polymerase delta (Polδ) is mediated by PIPs (PCNA-interacting peptides), in particular the one on Pol32, a regulatory subunit of Polδ. Here, we demonstrate that pol3-01, an exonuclease mutant of Polδ’s catalytic subunit, exhibits a weak interaction with Pol30 compared to the WT DNA polymerase. The weak interaction activates DNA bypass pathways, leading to increased mutagenesis and sister chromatid recombination. Strengthening pol3-01′s weak interaction with PCNA suppresses most of the phenotypes. Our results are consistent with a model in which Pol3-01 tends to detach from the chromatin, allowing an easier replacement of Polδ by the trans-lesion synthesis polymerase Zeta (Polz), thus leading to the increased mutagenic phenotype.

AB - Several DNA polymerases participate in DNA synthesis during genome replication and DNA repair. PCNA, a homotrimeric ring, acts as a processivity factor for DNA polymerases. PCNA also acts as a “landing pad” for proteins that interact with chromatin and DNA at the moving fork. The interaction between PCNA and polymerase delta (Polδ) is mediated by PIPs (PCNA-interacting peptides), in particular the one on Pol32, a regulatory subunit of Polδ. Here, we demonstrate that pol3-01, an exonuclease mutant of Polδ’s catalytic subunit, exhibits a weak interaction with Pol30 compared to the WT DNA polymerase. The weak interaction activates DNA bypass pathways, leading to increased mutagenesis and sister chromatid recombination. Strengthening pol3-01′s weak interaction with PCNA suppresses most of the phenotypes. Our results are consistent with a model in which Pol3-01 tends to detach from the chromatin, allowing an easier replacement of Polδ by the trans-lesion synthesis polymerase Zeta (Polz), thus leading to the increased mutagenic phenotype.

KW - DNA damage tolerance

KW - DNA polymerase

KW - PCNA

KW - Saccharomyces cerevisiae

KW - homologous recombination

KW - mutagenesis

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A Role for the Interactions between Polδ and PCNA Revealed by Analysis of pol3-01 Yeast Mutants

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