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Pif1 is essential for efficient replisome progression through lagging strand G-quadruplex DNA secondary structures.

Dahan, D ; Tsirkas, I ; et al.
In: Nucleic acids research, Jg. 46 (2018-12-14), Heft 22, S. 11847-11857
academicJournal

Pif1 DNA helicase is a potent unwinder of G-quadruplex (G4) structures in vitro and functions to maintain genome stability at G4 sequences in Saccharomyces cerevisiae. Here, we developed and utilized a live-cell imaging approach to quantitatively measure the progression rates of single replication forks through different G4 containing sequences in individual yeast cells. We show that in the absence of Pif1, replication rates through specific lagging strand G4 sequences in vivo is significantly decreased. In contrast, we found that in the absence of Pif1, replication rates through the same G4s on the leading strand are not decreased relative to the respective WT strains, showing that Pif1 is essential only for efficient replication through lagging strand G4s. Additionally, we show that a canonical PIP sequence in Pif1 interacts with PCNA and that replication through G4 structures is significantly slower in the absence of this interaction in vitro and in vivo. Thus, Pif1-PCNA interaction is essential for optimal replisome progression through G4 sequences, highlighting the importance of coupling between Pif1 activity and replisome progression during yeast genome replication.

Titel:
Pif1 is essential for efficient replisome progression through lagging strand G-quadruplex DNA secondary structures.
Autor/in / Beteiligte Person: Dahan, D ; Tsirkas, I ; Dovrat, D ; Sparks, MA ; Singh, SP ; Galletto, R ; Aharoni, A
Zeitschrift: Nucleic acids research, Jg. 46 (2018-12-14), Heft 22, S. 11847-11857
Veröffentlichung: 1992- : Oxford : Oxford University Press ; <i>Original Publication</i>: London, Information Retrieval ltd., 2018
Medientyp: academicJournal
ISSN: 1362-4962 (electronic)
DOI: 10.1093/nar/gky1065
Schlagwort:
  • Amino Acid Sequence
  • DNA genetics
  • DNA metabolism
  • DNA Helicases deficiency
  • DNA, Fungal metabolism
  • Genomic Instability
  • Nucleic Acid Conformation
  • Proliferating Cell Nuclear Antigen genetics
  • Proliferating Cell Nuclear Antigen metabolism
  • Saccharomyces cerevisiae metabolism
  • Saccharomyces cerevisiae Proteins metabolism
  • DNA Helicases genetics
  • DNA Replication
  • DNA, Fungal genetics
  • G-Quadruplexes
  • Genome, Fungal
  • Saccharomyces cerevisiae genetics
  • Saccharomyces cerevisiae Proteins genetics
Sonstiges:
  • Nachgewiesen in: MEDLINE
  • Sprachen: English
  • Publication Type: Journal Article; Research Support, N.I.H., Extramural; Research Support, Non-U.S. Gov't
  • Language: English
  • [Nucleic Acids Res] 2018 Dec 14; Vol. 46 (22), pp. 11847-11857.
  • MeSH Terms: DNA Replication* ; G-Quadruplexes* ; Genome, Fungal* ; DNA Helicases / *genetics ; DNA, Fungal / *genetics ; Saccharomyces cerevisiae / *genetics ; Saccharomyces cerevisiae Proteins / *genetics ; Amino Acid Sequence ; DNA / genetics ; DNA / metabolism ; DNA Helicases / deficiency ; DNA, Fungal / metabolism ; Genomic Instability ; Nucleic Acid Conformation ; Proliferating Cell Nuclear Antigen / genetics ; Proliferating Cell Nuclear Antigen / metabolism ; Saccharomyces cerevisiae / metabolism ; Saccharomyces cerevisiae Proteins / metabolism
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  • Grant Information: R01 GM098509 United States GM NIGMS NIH HHS; DGE-1745038 International National Science Foundation
  • Substance Nomenclature: 0 (DNA, Fungal) ; 0 (POL30 protein, S cerevisiae) ; 0 (Proliferating Cell Nuclear Antigen) ; 0 (Saccharomyces cerevisiae Proteins) ; 9007-49-2 (DNA) ; EC 3.6.1.- (PIF1 protein, S cerevisiae) ; EC 3.6.4.- (DNA Helicases)
  • Entry Date(s): Date Created: 20181106 Date Completed: 20190624 Latest Revision: 20200309
  • Update Code: 20231215
  • PubMed Central ID: PMC6294490

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