Actin-like proteins MreB and Mbl from Bacillus subtilis are required for bipolar positioning of replication origins

Actin-like proteins MreB and Mbl are required for proper cell shape and for viability in B. subtilis [1, 2] and form dynamic helical filaments underneath the cell membrane [1, 3]. We have found that depletion of MreB and Mbl proteins leads to a rapid defect in chromosome segregation before a defect in cell shape becomes detectable. Under these conditions, the SMC chromosome segregation complex that is essential for proper chromosome arrangement and segregation [4-6] loses its specific subcellular localization, and replication origins fail to localize in a regular bipolar manner as in wild type cells [7-10]. Time-lapse microscopy showed that during depletion of MreB, origin regions can move towards the same cell pole, showing that bipolar orientation of origin separation is lost. Contrarily, depletion of three other cell shape determinants, MreC, MreD, or MreBH (the third B. subtilis actin homolog) had no effect on chromosome segregation but varying effects on cell morphology. Depletion of MreC and MreD resulted in formation of round cells, while depletion of MreBH led to formation of vibrio-shaped cells. The data show that actin proteins Mbl and MreB are required for proper chromosome segregation and that Mre proteins affect different aspects in cell shape.