Bailey R , Priego Moreno S , Gambus A .

MR/K007106/1 Medical Research Council

	Figure 1. A speculative model of replisome dissolution at the termination of DNA replication forks based on data published in (5, 55). (A) Two replication forks from neighboring origins approach each other. (B) The Mcm7 subunit of the CMG complex becomes ubiquitylated with lysine-48-linked ubiquitin chains in a process dependent on cullin-type ubiquitin ligase. The ubiquitylated Mcm7 is recognized by protein segregase p97/VCP/Cdc48. (C) p97 activity is required to remodel the active helicase complex resulting in replisome disassembly and removal from chromatin.
	Figure 2. Two possible mechanisms for dormant origin removal from chromatin. Inactive Mcm2–7 complexes may be removed as active forks approach them (left panel, Elongation removal) or pushed in front of the progressing forks and removed at sites of replication fork termination (right panel, Termination removal).
	Figure 3. Speculative models of replication fork termination mechanisms. Two forks approach each other traveling in opposite directions with the CMG complexes unwinding DNA at the tips of the forks. Topo II helps to release the tension created by hemicatenates between approaching forks. (A) Simultaneous removal of converging replisomes. Two helicases collide with each other leading to disassembly of both replisomes and resolution of the terminating DNA with the potential help of additional factors and Topo II. (B) Sequential removal of converging replisomes. The convergence of two helicases leads to disassembly of one of the replisomes while the other finishes unwinding and replicating the remaining DNA. The sister chromatids are detangled by Topo II. (C) Passing replisomes. Two approaching forks pass each other at the termination site as each helicase is traveling only on the leading strand i.e., on the parental strand within the new sister chromatids. The CMG complex may be disassembled when it approaches the last Okazaki fragment of the lagging strand in front of it, start unwinding the last Okazaki fragment or start sliding on the double stranded DNA of the last Okazaki fragment. Again, Topo II detangles the new sister chromatids.

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