Replication of pSC101: effects of mutations in the E. coli DNA binding protein IHF.

We have shown that the plasmid pSC101 is unable to be maintained in strains of E. coli carrying deletions in the genes himA and hip which specify the pleitropic heterodimeric DNA binding protein, IHF. We show that this effect is not due to a modulation of the expression of the pSC101 RepA protein, required for replication of the plasmid. Inspection of the DNA sequence of the essential replication region of pSC101 reveals the presence of a site, located between the DnaA binding-site and that of RepA, which shows extensive homology with the consensus IHF binding site. The proximity of the sites suggests that these three proteins, IHF, DnaA, and RepA may interact in generating a specific DNA structure required for initiation of pSC101 replication.

A plasmid vector allowing positive selection of recombinant plasmids in Streptococcus pneumoniae.

A new plasmid, pSP2, was constructed as a cloning vector for use in Streptococcus pneumoniae. It allows direct selection of recombinant plasmids, even for DNA fragments not homologous to the S. pneumoniae chromosome, as based on the failure to maintain long inverted repeats (LIRs) hyphen-free in bacterial plasmids. Plasmid pSP2 contains a 1.4-kb BamHI fragment ("hyphen") flanked by 1.9-kb LIRs. The removal of the 1.4-kb BamHI fragment followed by ligation creates a plasmid containing a 1.9-kb insert-free LIR; plasmids with such non-hyphenated LIRs were not established when transferred into S. pneumoniae. Replacement of the original 1.4-kb insert by other restriction fragments restored plasmid viability. Investigation of plasmid transfer by transformation suggests that intrastrand synapsis between the LIRs could occur, thus facilitating plasmid establishment (a process we call self-facilitation). Such an intrastrand synapsis could also account for rare occurrences of insert-inversion noticed upon transfer as well as for the formation of palindrome-deleted derivatives at low frequency. Plasmid pSP2 carries two selectable genes, tet and ermC, and can be used for cloning of fragments produced by a variety of restriction enzymes (BamHI, Bg/II, Bc/I or Sau3A, and Sa/I or XhoI).

Hyperrecombination at a specific DNA sequence in pneumococcal transformation.

In pneumococcal transformation, recombination frequency between point mutations is usually proportional to physical distances. We have identified an aberrant marker belonging to the amiA locus that appeared to markedly enhance recombination frequency when crossed with any other markers of this gene. This mutation results from the C-to-A transversion in the sequence A-T-T-C-A-T----A-T-T-A-A-T. This effect is especially apparent for short distances as small as 27 base pairs. The hyperrecombination does not require the wild-type function of the pneumococcal gene for an ATP-dependent DNase (which is homologous to the product of the Escherichia coli recBC genes) or of the hex genes, which correct certain mismatched bases in transformation. The hyperrecombination is affected by the presence of nearby mismatched bases that trigger an excision-repair system. It is proposed that the mutation that shows hyperrecombination is sometimes converted to the wild-type allele at the heteroduplex stage of transformation.