coli GL1299) by λ red recombination
as a TAP-tag translational LDN-193189 manufacturer fusion to ysxC (plasmid pELC1). The resulting ysxC::TAP-tag-kan fragment was flanked by the chromosomal upstream (1397 bp) and downstream (1354 bp) regions surrounding ysxC present in pGL411. pELC1 was electroporated into S. aureus RN4220, which generated by single cross-over suicidal recombination a strain with two selleck chemical copies of ysxC, one wild type and one TAP-tagged, LC101. A strain was constructed with the Protein A-encoding gene (spa) deleted. S. aureus 8325-4 spa::tet [62] was lysed with φ 11 and the spa mutation transduced into SH1000 to give LC102 (SH1000 spa::tet). Resolution of the two copies of ysxC in LC101 into only a ysxC::TAP-tagged copy was achieved by ρ 11-mediated transduction [59] of a LC101 lysate into LC102. Transductants resistant to kanamycin (ysxC::TAP-tag) and tetracycline (spa::tet) but sensitive to erythromycin (antibiotic marker linked to the wild type copy of ysxC in pELC1) would have only ysxC~TAP-tag
in a spa-background, LC103 (SH1000 spa::tet ysxC::TAP-tag-kan). This strain was verified by Southern blot analysis (results not shown). Figure 1B shows the final chromosomal insertion, with the relevant DNA junction sequence. Tandem affinity purification Cultures Eltanexor supplier of LC103 were grown in BHI to mid-exponential phase (OD600~3.0), placed immediately onto ice slurry for 10 min, harvested by centrifugation (6,000 rpm, 10 min, 4°C, Jouan CR3i rotor AC50.10), frozen in liquid nitrogen and stored at -80°C. Subsequently, a cell extract was obtained from cells broken with a Braun homogeniser. The fraction containing membranes and ribosomes was isolated by centrifugation at 50,000 rpm for 2.5 h in a Beckman 70.1 Ti rotor. This fraction was subsequently purified using a method based on that
previously reported by Puig et al. (2001) [27]. All binding and elution steps were performed in 0.8 × 4 cm Poly-prep Ponatinib cell line columns (Bio-Rad). 200 μl of IgG-Sepharose bead suspension (Amersham Biosciences) was transferred into the column and the beads were washed with 10 ml IPP150 (10 mM Tris-HCl pH 8.0, 150 mM NaCl, 0.1% v/v Nonidet NP-40). 10 ml of extract in IPP150, corresponding to 2.5 l of original culture, was transferred into the column, sealed and rotated for 4 h at 4°C to allow binding of Protein A to the resin. Multiple purifications were run in parallel to increase protein yield. Elution to remove unbound protein was performed by gravity flow washing the beads three times with 10 ml IPP150 supplemented with Nonidet (NP40) at a final concentration of 1.5% (v/v). Protein A-bound complexes were excised from the resin by TEV protease cleavage, performed by addition of 1 ml of TEV cleavage buffer and 100 units of AcTEV protease (Invitrogen). The beads were rotated for 16 h at 4°C.