The multifaceted roles of PARP1 in DNA repair and chromatin remodelling | Nature Reviews Molecular Cell Biology
Frontiers | Single-Molecule Techniques to Study Chromatin
The plasticity of DNA replication forks in response to clinically relevant genotoxic stress | Nature Reviews Molecular Cell Biology
WRN helicase safeguards deprotected replication forks in BRCA2-mutated cancer cells | Nature Communications
Sequential role of RAD51 paralog complexes in replication fork remodeling and restart | Nature Communications
Replication fork reversal in eukaryotes: from dead end to dynamic response | Nature Reviews Molecular Cell Biology
Frontiers | Replication Fork Reversal and Protection
Full article: Building up and breaking down: mechanisms controlling recombination during replication
Frontiers | DNA Damage Tolerance Pathways in Human Cells: A Potential Therapeutic Target
DNA double-strand break repair-pathway choice in somatic mammalian cells | Nature Reviews Molecular Cell Biology
Structure and function of the spleen | Nature Reviews Immunology
Cells | Free Full-Text | The Interplay of Cohesin and the Replisome at Processive and Stressed DNA Replication Forks
Homeostatic control of regulatory T cell diversity | Nature Reviews Immunology
JoF | Free Full-Text | Post-Translational Modifications of PCNA: Guiding for the Best DNA Damage Tolerance Choice
Cell cycle control in cancer | Nature Reviews Molecular Cell Biology
DNA end resection and its role in DNA replication and DSB repair choice in mammalian cells | Experimental & Molecular Medicine
PDF) E3 ligase RFWD3 is a novel modulator of stalled fork stability in BRCA2-deficient cells
Leveraging the replication stress response to optimize cancer therapy | Nature Reviews Cancer
53BP1 Mediates ATR-Chk1 Signaling and Protects Replication Forks under Conditions of Replication Stress | Molecular and Cellular Biology
Genes | Free Full-Text | The Causes and Consequences of Topological Stress during DNA Replication
Smc5/6 functions with Sgs1-Top3-Rmi1 to complete chromosome replication at natural pause sites | Nature Communications
Genes | Free Full-Text | Control of Eukaryotic DNA Replication Initiation—Mechanisms to Ensure Smooth Transitions
