Firstly, two E coli vectors were constructed in pBluescript II S

Firstly, two E. coli vectors were constructed in pBluescript II SK + where the wild-type S1 gene was replaced by a chloramphenicol resistance

gene (Cm R ) (Figure 1A) or by a modified S1 gene including the desired mutations (Figure 1B); both flanked by 1.2 and 1.5 kb of the S1 click here upstream and downstream regions, respectively. These vectors were then processed and their inserts were introduced into pSS4245. These derivatives were transferred into E. coli SM10 for conjugative transfer and allelic exchange into B. pertussis strain Tohama. The plasmid pSS5Cm3 generated a replacement of the S1 gene by the Cm R marker (Figure 2A). The plasmid pSS5S13-9 K-129 G restored the S1 gene into its original location, now with the two desired mutations

(Figure 2B). After selection of isolates on selective media, integration of the Cm R and modified S1 genes at the expected position was confirmed by PCR amplification (data AZD1080 not shown). The integration of the mutated S1 gene at the designated position was confirmed by PCR with specific primers that could hybridize the upstream 5 and 3 prime downstream flanking regions and internally in the S1 gene (data not shown). The mutations in the S1 gene of the clone selected for further manipulation was confirmed by DNA sequencing. The new strain was designated as Bp-WWC. Figure 1 Vectors for the construction of a modified S1 gene into the allelic-exchange vector pSS4245. A: Allelic-exchange element for replacing the S1 gene by a chloramphenicol resistance cassette, inserted between the S1 flanging regions. B: Allelic-exchange element for returning the modified S1 gene into its exact location in the ptx-ptl operon. To obtain the allelic exchange, these vectors were http://www.selleck.co.jp/products/BafilomycinA1.html linearized and inserted into pSS4245, which was then introduced into B. pertussis by conjugative transfer from E. coli SM10 Figure 2 Allelic-exchange procedure. A: Double recombination events leading to the replacement of the S1 gene by a chloramphenicol

resistance marker. B: Double recombination events leading to the re-insertion of the modified S1 gene in its original location. Insertion of a second integration site for a second set of PT structural genes Initial attempts to increase PT expression by inserting the whole ptx-ptl operon into a multi-copy plasmid compatible with B. pertussis failed to deliver useful strains selleck screening library suggesting that the over-expression of PT is potentially toxic and must remain within certain limits to obtain viable strains. In order to increase the PT toxin yield, a second set of PT structural genes was introduced into the Bp-WWC chromosome. To identify an insertion target site, the sequence of the B. pertussis Tohama genome (accession number NC_002929) was scanned and many pseudogenes were identified. The DNA sequence (posn. 2905288) between a putative ammonium transporter gene and a putative auto-transporter gene was selected for insertion (posn.

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