This second cross-over could lead either
to reversion to wild-type or to deletion of the target gene. Nine colonies were screened by Southern hybridization, of which four had reverted back to the wild-type pattern, while five displayed the correct band pattern of a pitA deletion mutant (Figure 2C). One of the latter was chosen for further characterization. Figure 2 Construction of an unmarked pitA deletion mutant of M. smegmatis mc 2 155. A: Schematic diagram of the two-step approach for deletion of pitA. The knock-out construct consisted of two fragments flanking pitA on the left (LF) and right (RF) in pX33. Integration of the vector (thick grey line) into the chromosome (thin black line) via the left flank (Int JPH203 LF) or right flank (Int RF) and subsequent deletion of pitA (KO) are shown. Restriction sites of BamHI (B) and fragment sizes as detected in Southern hybridization are indicated. Drawing not to scale.
WT, wild-type. B: Southern hybridization analysis of the integration event. BamHI-digests of genomic DNA of wild-type mc2155 (lane 1) and a candidate colony (lane 2) were probed with radiolabeled right flank PCR product of the deletion construct. C: Southern hybridization analysis of pitA deletion. Analysis of wild-type mc2155 (lane 1) and the pitA deletion strain (lane 2) was performed ABT-888 purchase as in panel B. Molecular masses are indicated in kb. Growth experiments showed no difference between wild-type and pitA mutant in LBT medium or ST medium,
either under Selleck Salubrinal phosphate-replete conditions (100 μM to 100 mM phosphate) or phosphate-limited conditions (10 μM or 50 μM phosphate) (not shown). This characteristic of the pitA mutant is markedly different from the previously created M. smegmatis mutants in the high-affinity phosphate transporters, which were unable to grow in minimal medium at 10 mM phosphate or below [13]. As mentioned C-X-C chemokine receptor type 7 (CXCR-7) above, Pit systems of Gram-negative bacteria transport a metal-phosphate complex. While no information regarding their substrate is available for Pit systems of Gram-positives, a mutant of Bacillus subtilis carrying an uncharacterized mutation in phosphate uptake was also defective in uptake of metal ions [21], suggesting an interrelation between uptake of phosphate and metals. The biological role of Pit in a bacterium with a plethora of high-affinity phosphate transporters may therefore be in uptake of divalent metal ions. To test this, we performed growth experiments in Mg2+-limited ST medium (2 μM to 2 mM MgCl2), but could not discern a difference between the pitA and wild-type strain (not shown). Because the distribution of MeHPO4 versus free phosphate depends on the medium pH, with MeHPO4 being the predominant species at high pH values [19], it was conceivable that the physiological role of Pit is to act under conditions where most phosphate is present as MeHPO4.