, 2004). In P. aeruginosa, the human http://www.selleckchem.com/products/bmn-673.html epithelial cell-binding domain of the pilus has been identified in the C-terminal region of pilin (Irvin et al., 1989; Lee et al., 1989; Giltner et al., 2006). Truncated pilin (lacking the first 28 residues) retains the overall structure and biological characteristics of the full-length pilin (Keizer et al., 2001). Considering the high sequence conservation in the N-terminal α-helix domain of pilins between P. aeruginosa and M. xanthus (Li et al.,
2005), the EPS binding domain in M. xanthus pilin was suggested to reside in the C-terminal region, similar to other species. Previous studies in M. xanthus have shown that TFP sheared off from the cell surface are able to bind to purified EPS in vitro (Li et al., 2003). Addition of purified Roxadustat EPS to the EPS-deficient mutant (ΔdifA) restored TFP retraction in this hyperpiliated strain, suggesting that EPS is
able to trigger TFP retraction (Li et al., 2003). In addition, the accumulation of pilin subunits in the membrane was found to reduce the EPS levels produced on the cell surface, probably due to the titration of EPS precursors prior to assembly by the PilA monomer pool (Yang et al., 2010). In this study, by constructing and expressing a truncated M. xanthus PilA (PilACt)-enhanced green fluorescent protein (eGFP) fusion protein, we sought to obtain direct evidence for the specific interaction between TFP and EPS under native conditions. Bacterial strains used in
this study are listed in Table 1. All Escherichia coli strains were grown at 37 °C in Luria–Bertani medium (Fisher). Media were supplemented with ampicillin or kanamycin at 100 μg mL−1 when needed. Myxococcus xanthus cells were grown in CYE medium (Campos et al., 1978) at 32 °C on a rotary shaker at 300 r.p.m. To cultivate biofilms of M. xanthus wild-type strain DK1622, exponentially growing cells were harvested and washed three times with MOPS buffer (Kaiser, 1979), resuspended to an OD600 nm of 1.0 and incubated in sealed containers at 32 °C in the dark for 24 h. Submerged fruiting bodies were cultivated in MMC buffer (Kuner & Kaiser, 1982). Eight-well chambered cover slides (Lab-Tek II Chamber Slide System; Nalge Nunc) were used in this assay as previously Hydroxychloroquine described (Lux et al., 2004). The cell pellets of EPS− strain SW504 (ΔdifA) were directly collected from 24-h CYE liquid culture following 13 000 g centrifugation for 10 min. Plasmids pMXE01, PMXE02 and pMXE03 were constructed for overexpression of the truncated PilA (PilACt), eGFP and eGFP-PilACt fusion proteins, respectively (Table 1). The DNA sequence encoding the C-terminal domain (amino acids 32–208) of the mature M. xanthus PilA was PCR-amplified from the genomic DNA of M. xanthus DK1622 using HPilA32F and HPilA32R primers (Table 1).