The plasmid of Salmonella typhimurium LT2

Summary Methods of clonal analysis were applied to the study of heterogeneity of the progeny after crosses of 4 donor strains (Hfr H, Hfr C, KL 16 and KL 99) with 3 recipient strains (PC 0212, AB 712 and ECK 022). Three markers were used in each cross. The distal one was the selective marker. The inheritance of two additional proximal markers characterized the heterogeneity of clones originating from particular zygotes. In most crosses the percentage of heterogeneity exceeded 30. One of the recipient strains, obtained by conjugation of the conventional strain PC 0212 with the donor Hfr H revealed unusual properties in respect to heterogeneity. Exconjugants derived from this recipient (ECK 022) and donor Hfr H and Hfr C had a heterogeneity index of about 5%. It is shown that this unusual behavior reflects a very fast process of segregation of recombinants.In crosses with the donors KL 16 and KL 99 the same recipient revealed normal indices of heterogeneity. All these data are explained assuming that there exists a specific genetic marker which determines the process of decay of merozygotes. Tentatively it is called het. Its approximate localization was deduced from specifically designed experiments, in which the heterogeneity of the progeny was found very different, when the donor KL 16 transmitted different parts of its chromosome to the recipient ECK 022.     

pMB9 plasmids bearing the Salmonella typhimurium his operon and gnd gene

A plasmid containing the entire Salmonella typhimurium his operon was constructed from plasmid pM89 and an EcoRI fragment of phi 80 his imm lambda DNA. The recombinant pST41 also includes the glucose 6-phosphate dehydrogenase (gnd) gene and has one EcoRI endonuclease cleavage site in the integrated fragment. This plasmid served as a source for the construction of two additional plasmids, one carrying the OGDC-region of the his operon and the other a CBHAFIE segment of the his gene along with the gnd gene. The presence of the his operon in the constructed plasmids was confirmed by hybridization to S. typhimurium his RNA. The location of the gnd gene in the CBHAFIE fragment of the his gene was confirmed genetically: after transfection with the plasmid bearing the gnd gene, a gnd recipient gained the capacity to utilize gluconate as a sole carbon source. The DNAs of the three hybrid plasmids were analyzed by gel electrophoresis. By comparing the EcoRI endonuclease cleavage pattern of these three hybrid plasmids with the DNA cleavage pattern of phi 80 his imm lambda, phi 80 imm lambda and lambda phages, the EcoRI cleavage map of phi 80 his imm lambda was obtained.     

The Salmonella typhimurium LT2 uvrD gene is regulated by the lexA gene product.

The uvrD gene product apparently plays a role in the repair of UV damage, in mismatch repair, and in genetic recombination. A lower level of expression of the Salmonella typhimurium LT2 uvrD gene was observed in maxicells prepared from an Escherichia coli strain that contained a lexA+ plasmid than in maxicells prepared from an E. coli strain that lacked functional LexA protein. These results suggest that the uvrD+ gene is repressed by the LexA protein and is thus a member of the set of genes whose expression is increased by "SOS"-inducing treatments.     

Autoregulation by tandem promoters of the Salmonella typhimurium LT2 metJ gene.

Regulation of the Salmonella typhimurium metJ gene was examined by measuring beta-galactosidase activity in Escherichia coli strains lysogenic for a phage carrying a metJ-lacZ gene fusion. The results indicated that the metJ gene is regulated by its own gene product and by methionine supplementation to the growth medium. This autoregulatory mechanism involved two tandem promoters, pJ1 and pJ2, separated by approximately 65 base pairs. Deletion analysis permitted the assessment of the activity of promoters pJ1 and pJ2 individually. Promoter Pj1 was negatively regulated by the metJ gene product and by methionine. Although Pj2 regulation remained unclear, evidence is presented which suggests that it is not negatively regulated like pJ1.     

Mutations affecting the regulation of the metB gene of Salmonella typhimurium LT2.

We isolated and characterized cis-acting mutations that affect the regulation of the metB gene of Salmonella typhimurium LT2. The mutations were isolated in an Escherichia coli lac deletion strain lysogenized with lambda bacteriophage carrying a metB-lacZ gene fusion (lambda JBlac) in which beta-galactosidase production is dependent upon metB gene expression. The mutant lysogens show elevated, poorly regulated beta-galactosidase production. The altered regulation is a result of disruption of the methionine control system mediated by the metJ repressor. The mutations are located in a region of dyad symmetry centered near the -35 sequence of the metB promoter. We propose that these mutations alter the repressor binding site and define the metB operator sequence. In addition, we discuss a highly conserved, nonsymmetric DNA sequence of unknown function which occurs in the control regions of the metA, metC, metE, metF, metG, and metJB genes of both S. typhimurium and E. coli.