5 ± 3.1 51.3 ± 3.0 5.6 ± 0.7 2.6 ± 2.3 HL1 with AtMinD 50 μM 8.7 ± 0.8 87.4 ± 2.5 3.9 ± 1.8 0 HL1 with EcMinD 20 μM 0 0 0 100 RC1 with AtMinD 50 μM 31.5 ± 1.5 48.8 ± 1.3 16 ± 4.4 5.5 ± 2.8 HL1 with AtMinD-GFP 50 μM 12.5 ± 2.4 78.6 ± 2.5 7.6 ± 1.1 1.3 ± 0.3
HL1 with GFP-AtMinD 50 μM 5.2 ± 1.5 91.5 ± 2.7 3.3 ± 1.3 0 Shown above are the means ± S.D. obtained from 3 independent repeats. The number of the cells measured in each repeat is between 150 and 200. Table 2 Analysis of the cell division phenotype Genotype Cells Septa Polar % Polar Phenotype DH5α 867 229 6 3 WT HL1 991 216 119 55 Min- HL1(Plac::EcMinDE) 974 232 3 1 WT HL1(Plac::AtMinD) 863 161 11 6 WT HL1(Plac::gfp-AtMinD) 1081 219 10 5 WT HL1(Plac::AtMinD-gfp) 943 137 17 12 WT like Shown above is the division phenotype analysis of E. coli cells with different genotypes. EcMinDE was induced with 20 μM IPTG, AtMinD PLX3397 datasheet and its GFP fusion proteins were induced with 50 μM IPTG. Cells: the total number of cell examined; Septa: the total number of septa counted; Polar: the number
of septa which were misplaced at or near a cell pole; % Polar: the percentage of septa which were misplaced at or near a cell pole. Min-, minicell phenotype. P005091 solubility dmso WT, most of the cells have a normal size and no cell or only a small part of the cells are minicells or long filaments. Figure 1 The phenotype of E. coli cells. (A) Wildtype, DH5α. (B) HL1 mutant (ΔMinDE). (C) HL1 mutant (ΔMinDE) complemented by pM1113-MinDE at 20 μM IPTG. (D) HL1 mutant (ΔMinDE) cannot be complemented by pM1113-AtMinD at 0 μM IPTG. (E) HL1 mutant (ΔMinDE) complemented by pM1113-AtMinD at 50 μM IPTG. (F) HL1 mutant
(ΔMinDE) containing pM1113-MinD at 20 μM IPTG. (G) RC1 mutant (ΔMinCDE). (H) RC1 mutant (ΔMinCDE) containing pM1113-AtMinD at 50 μM IPTG. CAL-101 research buy Arrows in (B, D, G and H) mark the minicells. The bar in (A to E, G and H) represents 10 μm; the bar in (F) represents 20 μm. The sequences L-NAME HCl of the MinD in bacteria are similar to those in plants [17]. Members of the MinD family have important roles in positioning the FtsZ ring and the division apparatus to either the mid-cell of bacteria or the mid-site of chloroplasts [9]. The complementation of E. coli HL1 mutant (ΔMinDE) by AtMinD and the requirement of EcMinC for this complementation suggest that the function of MinD is also conserved between bacteria and plants. However, this complementation doesn’t require the presence of EcMinE suggests that AtMinD may have some characters different from that of EcMinD. AtMinD is localized to puncta in E. coli and chloroplasts To understand the function of AtMinD in E. coli, AtMinD-GFP and GFP-AtMinD were expressed in HL1 mutant (ΔMinDE) (Figure 2D, E, G and 2H). Similar to AtMinD, AtMinD-GFP and GFP-AtMinD can complement the minicell phenotype of HL1 mutant (ΔMinDE) with 50 μM IPTG (Table 1 and Table 2).