Asymmetric activation of Xer site‐specific recombination by FtsK
- 1 April 2004
- journal article
- Published by Springer Nature in EMBO Reports
- Vol. 5 (4) , 399-404
- https://doi.org/10.1038/sj.embor.7400116
Abstract
Chromosome dimers, which frequently form in Escherichia coli, are resolved by the combined action of two tyrosine recombinases, XerC and XerD, acting at a specific site on the chromosome, dif, together with the cell division protein FtsK. The C‐terminal domain of FtsK (FtsKC) is a DNA translocase implicated in helping synapsis of the dif sites and in locally promoting XerD strand exchanges after synapse formation. Here we show that FtsKC ATPase activity is directly involved in the local activation of Xer recombination at dif, by using an intermolecular recombination assay that prevents significant DNA translocation, and we confirm that FtsK acts before Holliday junction formation. We show that activation only occurs with a DNA segment adjacent to the XerD‐binding site of dif. Only one such DNA extension is required. Taken together, our data suggest that FtsK needs to contact the XerD recombinase to switch its activity on using ATP hydrolysis.Keywords
This publication has 26 references indexed in Scilit:
- The structure and function of MCM from archaeal M. ThermoautotrophicumNature Structural & Molecular Biology, 2003
- Accessory factors determine the order of strand exchange in Xer recombination at psiThe EMBO Journal, 2002
- Evidence from Terminal Recombination Gradients that FtsK Uses Replichore Polarity To Control Chromosome Terminus Positioning at Division inEscherichia coliJournal of Bacteriology, 2002
- The Hexameric Ring Structure of the Escherichia coli RuvB Branch Migration ProteinJournal of Molecular Biology, 2002
- A dual role for the FtsK protein in Escherichia coli chromosome segregationEMBO Reports, 2002
- FtsK Is a DNA Motor Protein that Activates Chromosome Dimer Resolution by Switching the Catalytic State of the XerC and XerD RecombinasesCell, 2002
- Rescue of arrested replication forks by homologous recombinationProceedings of the National Academy of Sciences, 2001
- Characterization of the Specific DNA Nicking Activity of Restriction Endonuclease N.BstNBIBiological Chemistry, 2000
- Sequential Strand Exchange by XerC and XerD during Site-specific Recombination at difJournal of Biological Chemistry, 2000
- Action of site-specific recombinases XerC and XerD on tethered Holliday junctionsThe EMBO Journal, 1997