The Nordström Question.

It is suggested that the absolute dimensions of cells of may be set by the separation distance between newly completed sister nucleoids.

New temperature-sensitive alleles of ftsZ in Escherichia coli.

We isolated five new temperature-sensitive alleles of the essential cell division gene ftsZ in Escherichia coli, using P1-mediated, localized mutagenesis. The five resulting single amino acid changes (Gly109-->Ser109 for ftsZ6460, Ala129-->Thr129 for ftsZ972, Val157-->Met157 for ftsZ2066, Pro203-->Leu203 for ftsZ9124, and Ala239-->Val239 for ftsZ2863) are distributed throughout the FtsZ core region, and all confer a lethal cell division block at the nonpermissive temperature of 42 degrees C. In each case the division block is associated with loss of Z-ring formation such that fewer than 2% of cells show Z rings at 42 degrees C.

Coupling the initiation of chromosome replication to cell size in Escherichia coli.

Bacterial cells change size dramatically with change in growth rate, but the ratio between cell volume and the number of copies of the origin of chromosome replication (oriC) is roughly constant at the time of initiation of DNA replication at almost all growth rates. Recent research on the inactivation of initiator protein (DnaA) and depletion of DnaA pools by the high-affinity DnaA-binding locus datA allows us to propose a simple model to explain the long-standing question of how Escherichia coli couples DNA replication to cell size.

FtsK: Maxwell's Demon?

FtsK, which links chromosome segregation and cell division in E. coli, has now been shown to be an ATP-dependent DNA translocase. It also activates XerCD-dependent recombination, converting chromosome dimers into monomers, by switching the order of strand cleavage by the recombinase subunits.