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Title: Replication fork binding triggers structural changes in the PriA helicase that govern DNA replication restart in E. coli. Author: Duckworth AT, Ducos PL, McMillan SD, Satyshur KA, Blumenthal KH, Deorio HR, Larson JA, Sandler SJ, Grant T, Keck JL. Journal: Nat Commun; 2023 May 11; 14(1):2725. PubMed ID: 37169801. Abstract: Bacterial replisomes often dissociate from replication forks before chromosomal replication is complete. To avoid the lethal consequences of such situations, bacteria have evolved replication restart pathways that reload replisomes onto prematurely terminated replication forks. To understand how the primary replication restart pathway in E. coli (PriA-PriB) selectively acts on replication forks, we determined the cryogenic-electron microscopy structure of a PriA/PriB/replication fork complex. Replication fork specificity arises from extensive PriA interactions with each arm of the branched DNA. These interactions reshape the PriA protein to create a pore encircling single-stranded lagging-strand DNA while also exposing a surface of PriA onto which PriB docks. Together with supporting biochemical and genetic studies, the structure reveals a switch-like mechanism for replication restart initiation in which restructuring of PriA directly couples replication fork recognition to PriA/PriB complex formation to ensure robust and high-fidelity replication re-initiation.[Abstract] [Full Text] [Related] [New Search]