Bacterial chromosomes are most often circular DNA molecules. This can produce a topological problem; a genetic crossover from homologous recombination results in dimerization of the chromosome. A chromosome dimer is lethal unless resolved. A site-specific recombination system catalyses this dimer-resolution reaction at the chromosomal site <i>dif</i>. In <i>Escherichia coli</i>, two tyrosine-family recombinases, XerC and XerD, bind to <i>dif</i> and carry out two pairs of sequential strand exchange reactions. However, what makes the reaction unique among site-specific recombination reactions is that the first step, XerD-mediated strand exchange, relies on interaction with the very C-terminus of the FtsK DNA translocase. FtsK is a powerful m...
Escherichia coli FtsK is a powerful, fast, double-stranded DNA translocase, which can strip proteins...
Escherichia coli FtsK is a powerful, fast, double-stranded DNA translocase, which can strip proteins...
AbstractFtsK acts at the bacterial division septum to couple chromosome segregation with cell divisi...
Bacterial chromosomes are most often circular DNA molecules. This can produce a topological problem...
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...
Successful bacterial circular chromosome segregation requires that any dimeric chromosomes, which ar...
Chromosome dimers, which frequently form in Escherichia coli, are resolved by the combined action of...
Successful bacterial circular chromosome segregation requires that any dimeric chromosomes, which ar...
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...
In bacteria with circular chromosomes, homologous recombination can generate chromosome dimers that ...
In bacteria with circular chromosomes, homologous recombination can generate chromosome dimers that ...
Successful segregation of circular chromosomes in Escherichia coli requires that dimeric replicons, ...
The tyrosine recombinases XerC and XerD function in the monomerisation of circular dimer replicons i...
Escherichia coli FtsK is a powerful, fast, double-stranded DNA translocase, which can strip proteins...
Escherichia coli FtsK is a powerful, fast, double-stranded DNA translocase, which can strip proteins...
AbstractFtsK acts at the bacterial division septum to couple chromosome segregation with cell divisi...
Bacterial chromosomes are most often circular DNA molecules. This can produce a topological problem...
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...
Successful bacterial circular chromosome segregation requires that any dimeric chromosomes, which ar...
Chromosome dimers, which frequently form in Escherichia coli, are resolved by the combined action of...
Successful bacterial circular chromosome segregation requires that any dimeric chromosomes, which ar...
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...
In bacteria with circular chromosomes, homologous recombination can generate chromosome dimers that ...
In bacteria with circular chromosomes, homologous recombination can generate chromosome dimers that ...
Successful segregation of circular chromosomes in Escherichia coli requires that dimeric replicons, ...
The tyrosine recombinases XerC and XerD function in the monomerisation of circular dimer replicons i...
Escherichia coli FtsK is a powerful, fast, double-stranded DNA translocase, which can strip proteins...
Escherichia coli FtsK is a powerful, fast, double-stranded DNA translocase, which can strip proteins...
AbstractFtsK acts at the bacterial division septum to couple chromosome segregation with cell divisi...