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Τρίτη 14 Νοεμβρίου 2017

Role of the Pif1-PCNA Complex in Pol δ-Dependent Strand Displacement DNA Synthesis and Break-Induced Replication

Publication date: 14 November 2017
Source:Cell Reports, Volume 21, Issue 7
Author(s): Olga Buzovetsky, Youngho Kwon, Nhung Tuyet Pham, Claire Kim, Grzegorz Ira, Patrick Sung, Yong Xiong
The S. cerevisiae Pif1 helicase functions with DNA polymerase (Pol) δ in DNA synthesis during break-induced replication (BIR), a conserved pathway responsible for replication fork repair and telomere recombination. Pif1 interacts with the DNA polymerase processivity clamp PCNA, but the functional significance of the Pif1-PCNA complex remains to be elucidated. Here, we solve the crystal structure of PCNA in complex with a non-canonical PCNA-interacting motif in Pif1. The structure guides the construction of a Pif1 mutant that is deficient in PCNA interaction. This mutation impairs the ability of Pif1 to enhance DNA strand displacement synthesis by Pol δ in vitro and also the efficiency of BIR in cells. These results provide insights into the role of the Pif1-PCNA-Pol δ ensemble during DNA break repair by homologous recombination.

Graphical abstract

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Teaser

The Pif1-PCNA-Pol δ complex plays an important role in DNA repair through break-induced replication. Buzovetsky et al. determine the crystal structure of a non-canonical PCNA-binding motif in Pif1 bound to PCNA. Biochemical and genetic analysis reveal that the Pif1-PCNA complex enhances Pol δ-mediated DNA synthesis.


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