Influence of the lactose plasmid on the metabolism of galactose by Streptococcus lactis. (1/24)

Streptococcus lactis strain DR1251 was capable of growth on lactose and galactose with generation times, at 30 degrees C, of 42 and 52 min, respectively. Phosphoenolpyruvate-dependent phosphotransferase activity for lactose and galactose was induced during growth on either substrate. This activity had an apparent K(m) of 5 x 10(-5) M for lactose and 2 x 10(-2) M for galactose. beta-d-Phosphogalactoside galactohydrolase activity was synthesized constitutively by these cells. Strain DR1251 lost the ability to grow on lactose at a high frequency when incubated at 37 degrees C with glucose as the growth substrate. Loss of ability to metabolize lactose was accompanied by the loss of a 32-megadalton plasmid, pDR(1), and Lac(-) isolates did not revert to a Lac(+) phenotype. Lac(-) strains were able to grow on galactose but with a longer generation time. Galactose-grown Lac(-) strains were deficient in beta-d-phosphogalactoside galactohydrolase activity and phosphoenolpyruvate phosphotransferase activity for both lactose and galactose. There was also a shift from a predominantly homolactic to a heterolactic fermentation and a fivefold increase in galactokinase activity, relative to the Lac(+) parent strain grown on galactose. These results suggest that S. lactis strain DR1251 metabolizes galactose primarily via the tagatose-6-phosphate pathway, using a lactose phosphoenolpyruvate phosphotransferase activity to transport this substrate into the cell. Lac(-) derivatives of strain DR1251, deficient in the lactose phosphoenolpyruvate phosphotransferase activity, appeared to utilize galactose via the Leloir pathway.  (+info)

Studies on the lactose character in Salmonella S:41:z10. (2/24)

A number of plasmids carrying the Lac+ character have been reported. Lac+ character of salmonella S:41:z10:- studied for transfer of Lac+ character to standard Escherichia coli K12 Lac-F- Nalr and Escherichia coli K12 F- Lac- Rifr, failed to transfer in in vitro experiments. Similarly, identification and characterisation of plasmid DNA by agarose gel electrophoresis technique did not show specific plasmid DNA as compared to standard molecular weight plasmids. Plasmid DNA appeared to have been embedded with chromosomal DNA molecule.  (+info)

Effects of anti-alpha monoclonal antibodies on initiation and elongation by the Escherichia coli RNA polymerase. (3/24)

Anti-alpha monoclonal antibodies have been used to investigate the role of the alpha subunit of RNA polymerase in initiation and elongation. The four inhibitory monoclonal antibodies studied strongly inhibit cAMP receptor protein-dependent initiation with lac P+ and partially inhibit initiation directed by the lac UV5 promoter. The data suggest that the epitopes to which each of the monoclonal antibodies bind may be proximal to the contact domain between cAMP receptor protein and RNA polymerase. Recycling of RNA polymerase through the initiation process is slower in the presence of an inhibitory monoclonal antibody. Once a 9-nucleotide-long transcript has formed, incubation with the anti-alpha monoclonal antibody does not affect subsequent elongation. The monoclonal antibodies still bind to the elongation complex as indicated by sedimentation of the complex formed after incubation with Staphylococcus aureus cells (immunoprecipitin). These results suggest that the resistance of the elongation complex to these antibodies is not a consequence of their inability to bind to RNA polymerase. Only one of the alpha subunits may be involved in the initial process of transcription, and the antigenic domain of this subunit appears to be occluded by the nascent transcript present in the elongation complex.  (+info)

The effects of acridine orange on deoxyribonucleic acid in Escherichia coli. (4/24)

1. Acridine Orange inhibits growth of Escherichia coli K12 when incubated at pH 7.9, but not at pH 7.4.2. At a non-permissive temperature for DNA polymerase I, Acridine Orange inhibits growth of a temperature-sensitive strain and also increases the rate of elimination of the F'-Lac plasmid. 3. DNA isolated from cells treated with Acridine Orange under conditions that inhibit growth contains material of low molecular weight, which is absent from DNA isolated from cells treated under conditions in which growth is not impaired. 4. Cells incubated with Acridine Orange at both pH 7.4 and 7.9 suffer degradation of DNA, as shown by loss of labelled DNA from the acid-insoluble fraction, which is not observed with untreated cells at either pH. 5. The results suggest that elimination of the F'-Lac plasmid by Acridine Orange requires inactivation of repair processes.  (+info)

Identification of a new insertion element, similar to gram-negative IS26, on the lactose plasmid of Streptococcus lactis ML3. (5/24)

In Streptococcus lactis ML3, the lactose plasmid (pSK08) forms cointegrates with a conjugal plasmid (pRS01). It has been proposed that cointegration is mediated by insertion sequences (IS) present on pSK08 (D. G. Anderson and L.L. McKay, J. Bacteriol. 158:954-962, 1984). We examined the junction regions of the cointegrate pPW2 and the corresponding regions of pSK08 (donor) and pRS01 (target) and identified a new IS element on pSK08 (ISS1S) which was involved in and duplicated during formation of pPW2. ISS1S was 808 base pairs (bp) in size, had 18-bp inverted repeats (GGTTCTGTTGCAAAGTTT) at its ends, contained a single long open reading frame encoding a putative protein of 226 amino acids, and generated 8-bp direct repeats of target DNA during cointegrate formation. An iso-IS element, ISS1T, which is duplicated in some other cointegrate plasmids, was also found on pSK08. ISS1T was also 808 bp in size and was identical to ISS1S in sequence except for 4 bp, none of which altered the inverted repeats or amino acid sequence of the open reading frame. Comparison of ISS1 with gram-negative IS26 revealed strong homologies in size (820 bp), sequence of inverted repeats (GGCACTGTTGCAAA), size of direct repeats generated after cointegration (8 bp), and number, size, and amino acid sequence (44.5% identical) of the open reading of frame.  (+info)

Restriction enzyme analysis of lactose and bacteriocin plasmids from Streptococcus lactis subsp. diacetylactis WM4 and cloning of BclI fragments coding for bacteriocin production. (6/24)

The 131.1-kilobase (kb) bacteriocin production (Bac) plasmid pNP2 and the 63.6-kb lactose metabolism (Lac) plasmid pCS26, from Streptococcus lactis subsp. diacetylactis WM4, as well as pWN8, a 116.7-kb recombinant plasmid from a Lac+ transconjugant, were analyzed with restriction enzymes to determine the origin of pWN8. Plasmid pWN8 conferred a Lac+ Bac- phenotype, contained DNA derived from pCS26 and pNP2, and, like pNP2, exhibited self-transmissibility (Tra+). In cloning attempts, Bac+ transformant S. lactis KSH1 was isolated. The recombinant plasmid, pKSH1, contained three BclI fragments from pNP2. Bac- transformants which individually contained each of the three fragments were also identified. Comparison of restriction maps of pKSH1 and pNP2 revealed an 18.4-kb region common to both plasmids, involving two of the three BclI fragments. S. lactis KSH1 also exhibited greater inhibitory activity against the indicator strain S. diacetylactis 18-16 than did a strain containing the 131.1-kb Bac plasmid.  (+info)

Studies on gene control regions. VI. The 5- methyl of thymine, a lac repressor recognition site. (7/24)

Three site specific deoxyuridine analogs of lac operator were tested for binding with wild type (SQ) and tight binding (QX86) lac repressors. Insertion of uracil for thymine at site 13 (our nomenclature) significantly reduced the dissociation half-life of QX86 repressor for lac operator DNA (21 vs 1.2 min). Two other sites (6 and 7) are affected to a much lesser extent.  (+info)

Binding of synthetic lactose operator DNAs to lactose represessors. (8/24)

The nitrocellulose filter assay was used to study the interactions of wild-type (SQ) and tight-binding (QX86) lac repressors with synthetic lac operators 21 and 26 base pairs long. The repressor binding properties of both operators were very similar, indicating that both contain the same specific repressor recognition sites. The repressor-operator association rate constants (k(a)) were more sensitive than dissociation rate constants (k(d)) to changes in ionic strength. The responses of both k(a) and k(d) to ionic strength were relatively small compared to the effects previously observed with lambdah80dlac as operator DNA. These results suggest that under natural conditions there are electrostatic interactions between lac repressor and DNA regions outside of the 26 base pair operator sequence. Association rate constants for SQ repressor with either operator are higher than have been predicted for diffusion-limited reactions. We postulate that long-range electrostatic attractions between repressor and operator accelerate the association reaction. The presence of nonoperator DNA decreased association rate constants, the effect being more noticeable at an ionic strength of 0.05 M than at 0.20 M. Nonoperator DNA reduced k(a) values for associations involving QX86 repressor to a greater extent than for those with SQ repressor. The two types of repressors also had different rate constants for interactions with synthetic operators. The values for k(a) and k(d) were both higher with SQ repressor than with QX86 repressor. However, the rate constants were more sensitive to ionic strength when the repressor used was QX86.  (+info)