The cells for SEM observation were critical-point dried and applied to a silicon wafer slide. The cells were then examined using a JSM-6360 scanning electron microscope (JEOL) (Qu et al., 2008). The cells (grown at 42 °C for 144 h) for TEM observation were embedded in the Epon 812 embedding kit and cut into ultrathin sections. The sections were double-stained with uranyl acetate and lead nitrate and then examined using a JEM-2000EX TEM (JEOL). The lipopolysaccharides

prepared from MV501 (pYJ), MV501 (pYJ-1), MV501 (pYJ-2) and MV501 (pUC18) cells were analyzed by SDS-PAGE, followed by silver staining (Fig. 2). The lipopolysaccharides from MV501 (pYJ), MV501 (pYJ-1) and MV501 (pYJ-2) cells showed a ladder-like banding pattern selleck compound characteristic of O side-chain material. The results suggested that Rv1302 and MSMEG_4947 have the same function as E. coli WecA and both Rv1302 and MSMEG_4947 utilize C55-P and UDP-GlcNAc as substrates to buy NVP-LDE225 initiate the synthesis of the O7 polysaccharide that is covalently linked to the lipid A-core oligosaccharide of E. coli O7:K1 strain VW187 (Valvano & Crosa, 1989). The MSMEG_4947 in conditional replication plasmid pYJ-4 was disrupted by inserting a kanR cassette.

A two-step homologous recombination procedure (Li et al., 2006) was used to achieve the allelic replacement of the MSMEG_4947 gene by MSMEG_4947∷kanR. MSMEG_4947 (406 amino acids) shares 79% identity with Rv1302 (404 amino acids); therefore, the rescue plasmid pYJ-6 carrying Rv1302 was constructed for complementation studies. The MSMEG_4947 knockout mutant was confirmed by a Southern blot Sinomenine using MSMEG_4947 as a probe (Fig. 3). The growth of five MSMEG_4947 knockout mutants (nos 1–5) was investigated at both 30 and 42 °C. All five MSMEG_4947 knockout mutants had similar growth patterns and the growth curve of no. 2 mutant is shown in Fig. 4a. The results clearly showed that the MSMEG_4947 knockout mutant grew only at 30 °C and not at 42 °C. The rescue plasmid pYJ-6 was unable to replicate at 42 °C and, therefore, no more Rv1302 protein was generated. In contrast, wild-type mc2155 containing

pCG76 grew at both 30 and 42 °C, confirming that MSMEG_4947 was essential for the growth of M. smegmatis. To investigate whether a decrease in WecA has effects on the morphology of the MSMEG_4947 knockout mutant, a certain amount of cells was acquired by performing a temperature shift experiment. The MSMEG_4947 knockout mutant (no. 2) was grown at 30 °C for 24 h to produce Rv1302 protein, and then grown at 42 °C. A600 nm was measured at 24-h intervals (Fig. 4b) and the cells were harvested for observation of the morphological phenotype (Fig. 5). MSMEG_4947 knockout cells grown at 30 °C for 72 (Fig. 5a) and 144 h (Fig. 5c) had a smooth cell surface and exhibited the normal rod-like shape seen in the wild-type mc2155 cells (Qu et al., 2008).