Escherichia coli propagates by undergoing cycles of lateral elongation, septum formation, and cell fission at the mid-cell. A large number of genes involved in these processes have been identified, but it is likely that others remain. A deletion mutant of yciB (ΔyciB) is shorter in the cell length compared to wild type and, in contrast, over-expression of yciB causes elongation of the cell. Furthermore, the septum localization of ZipA, an essential protein of cell division, is disturbed in a ΔyciB mutant. Purified YciB protein directly interacted with ZipA, which might indicate that YciB is involved in the cell envelope synthesis directed by ZipA in a PBP3-independent manner.
Escherichia coli propagates by undergoing cycles of lateral elongation, septum formation, and cell fission at the mid-cell. A large number of genes involved in these processes have been identified, but it is likely that others remain. A deletion mutant of yciB (ΔyciB) is shorter in the cell length compared to wild type and, in contrast, over-expression of yciB causes elongation of the cell. Furthermore, the septum localization of ZipA, an essential protein of cell division, is disturbed in a ΔyciB mutant. Purified YciB protein directly interacted with ZipA, which might indicate that YciB is involved in the cell envelope synthesis directed by ZipA in a PBP3-independent manner.
