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Title: TT-pocket/HIRAN: binding to 3'-terminus of DNA for recognition and processing of stalled replication forks. Author: Masai H. Journal: J Biochem; 2022 Jul 25; 172(2):57-60. PubMed ID: 35662338. Abstract: Stalled replication forks need to be swiftly detected and protected from collapse and the cause for fork stall be removed to restore the active replication fork. In bacteria, stalled forks are recognized and stabilized by PriA, a DEXH-type helicase, which also facilitates reassembly of an active replication fork. A TT-pocket (three-prime terminus binding pocket) present in the N-terminal segment of PriA plays a crucial role in stabilization of the stalled forks by specifically binding to the 3$^\prime$-terminus of the nascent leading strand. Eukaryotic proteins, Rad5/HLTF, contain a TT-pocket related domain, HIRAN, that specifically binds to 3'-terminus of DNA and play a role in stalled fork processing. While the TT-pocket of PriA facilitates the formation of an apparently stable and immobile complex on a fork with a 3'-terminus at the fork junction, HIRAN of Rad5/HLTF facilitates fork regression by itself. A recent report shows that HIRAN can displace 3 nucleotides at the end of the duplex DNA, providing mechanistic insight into how stalled forks are reversed in eukaryotes. In this article, I will compare the roles of 3'-terminus binding domains in stalled fork processing in prokaryotes and in eukaryotes.[Abstract] [Full Text] [Related] [New Search]