Add to ORKGEscherichia coli FtsK is a powerful, fast, double-stranded DNA translocase, which can strip proteins from DNA. FtsK acts in the late stages of chromosome segregation by facilitating sister chromosome unlinking at the division septum. KOPS-guided DNA translocation directs FtsK towards dif, located within the replication termi-nus region, ter, where FtsK activates XerCD site-specific recombination. Here we show that FtsK translocation stops specifically at XerCD-dif, thereby preventing removal of XerCD from dif and allowing activation of chromosome unlinking by recombination. Stoppage of translocation at XerCD-dif is accompanied by a reduction in FtsK ATPase and is not associated with FtsK dissociation from DNA. Specific stoppage at recombina...
In bacteria with circular chromosomes, homologous recombination events can lead to the formation of ...
Successful bacterial circular chromosome segregation requires that any dimeric chromosomes, which ar...
In Escherichia coli, complete unlinking of newly replicated sister chromosomes is required to ensure...
Escherichia coli FtsK is a powerful, fast, double-stranded DNA translocase, which can strip proteins...
The FtsK translocase pumps dsDNA directionally at ∼5 kb/s and facilitates chromosome unlinking by ac...
The FtsK translocase pumps dsDNA directionally at ∼5 kb/s and facilitates chromosome unlinking by ac...
Chromosome dimers, which frequently form in Escherichia coli, are resolved by the combined action of...
FtsK acts at the bacterial division septum to couple chromosome segregation with cell division. We d...
AbstractFtsK acts at the bacterial division septum to couple chromosome segregation with cell divisi...
BACKGROUND: The FtsK DNA-translocase controls the last steps of chromosome segregation in E. coli. I...
Successful bacterial circular chromosome segregation requires that any dimeric chromosomes, which ar...
Background: The FtsK DNA-translocase controls the last steps of chromosome segregation in E. coli. I...
Bacterial chromosomes are most often circular DNA molecules. This can produce a topological problem...
FtsK is a multifunctional protein, which, in Escherichia coli, co-ordinates the essential functions ...
Successful bacterial circular chromosome segregation requires that any dimeric chromosomes, which ar...
In bacteria with circular chromosomes, homologous recombination events can lead to the formation of ...
Successful bacterial circular chromosome segregation requires that any dimeric chromosomes, which ar...
In Escherichia coli, complete unlinking of newly replicated sister chromosomes is required to ensure...
Escherichia coli FtsK is a powerful, fast, double-stranded DNA translocase, which can strip proteins...
The FtsK translocase pumps dsDNA directionally at ∼5 kb/s and facilitates chromosome unlinking by ac...
The FtsK translocase pumps dsDNA directionally at ∼5 kb/s and facilitates chromosome unlinking by ac...
Chromosome dimers, which frequently form in Escherichia coli, are resolved by the combined action of...
FtsK acts at the bacterial division septum to couple chromosome segregation with cell division. We d...
AbstractFtsK acts at the bacterial division septum to couple chromosome segregation with cell divisi...
BACKGROUND: The FtsK DNA-translocase controls the last steps of chromosome segregation in E. coli. I...
Successful bacterial circular chromosome segregation requires that any dimeric chromosomes, which ar...
Background: The FtsK DNA-translocase controls the last steps of chromosome segregation in E. coli. I...
Bacterial chromosomes are most often circular DNA molecules. This can produce a topological problem...
FtsK is a multifunctional protein, which, in Escherichia coli, co-ordinates the essential functions ...
Successful bacterial circular chromosome segregation requires that any dimeric chromosomes, which ar...
In bacteria with circular chromosomes, homologous recombination events can lead to the formation of ...
Successful bacterial circular chromosome segregation requires that any dimeric chromosomes, which ar...
In Escherichia coli, complete unlinking of newly replicated sister chromosomes is required to ensure...