2005
DOI: 10.1128/mmbr.69.3.501-526.2005
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Replication Termination inEscherichia coli: Structure and Antihelicase Activity of the Tus-TerComplex

Abstract: The arrest of DNA replication in Escherichia coli is triggered by the encounter of a replisome with a Tus protein-Ter DNA complex. A replication fork can pass through a Tus-Ter complex when traveling in one direction but not the other, and the chromosomal Ter sites are oriented so replication forks can enter, but not exit, the terminus region. The Tus-Ter complex acts by blocking the action of the replicative DnaB helicase, but details of the mechanism are uncertain. One proposed mechanism involves a specific … Show more

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Cited by 134 publications
(151 citation statements)
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“…The DnaB helicase translocates on the lagging strand at each fork. DNA replication continues bidirectionally around the circular chromosome until the two replication forks meet in the terminus region, located approximately opposite the origin (182,189). This eventually yields two copies of the bacterial chromosome, each containing one strand from the parental chromosome and one nascent strand.…”
Section: Dna Replicationmentioning
confidence: 99%
“…The DnaB helicase translocates on the lagging strand at each fork. DNA replication continues bidirectionally around the circular chromosome until the two replication forks meet in the terminus region, located approximately opposite the origin (182,189). This eventually yields two copies of the bacterial chromosome, each containing one strand from the parental chromosome and one nascent strand.…”
Section: Dna Replicationmentioning
confidence: 99%
“…A particular problem specific to eukaryotes and organisms with linear genomes is replication termination. Although circular genomes have defined termination sites and dedicated mechanisms (Neylon et al 2005), equivalent systems are lacking in eukaryotes. On one hand, this provides greater flexibility in eukaryotes, as replication forks will eventually converge.…”
Section: Dna Replication and Recombinationmentioning
confidence: 99%
“…These sites are physically arranged in positions opposite to the oriC ( Figure 5). In the collision of Tus with the helicase a trap is formed that prevents the further advancement of the replicative machinery in the leading strand and remains arrested until the replicative machinery on the lagging strand reaches this position (Neylon et al, 2005). The elongation of DNA in the E. coli chromosome is carried out in both directions of the fork by a multisubunit machinery called the replisome.…”
Section: Termination Of Dna Replicationmentioning
confidence: 99%