The control region of the F sex factor DNA transfer cistrons: Physical mapping by deletion analysis

Summary A technique has been developed which allows the isolation of random deletions extending from unique restriction enzyme sites in plasmid DNA molecules. The method involves transformation of E. coli cells with linear plasmid DNAs generated by restriction enzyme cleavage. We have used this technique to map DNA transfer genes in the tra control region of F sex factor DNA. Deletions within EcoRI fragment f6 of F DNA have been isolated and used to assign physical locations to tra genes by a combination of genetic complementation tests, restriction enzyme analysis, DNA heteroduplexing and the analysis of the proteins synthesised in minicells and in vitro. Deletion analysis has also allowed the identification of the traK gene product.     

Isolation and physical characterization of plasmid pCCl from Corynebacterium callunae and construction of hybrid derivatives

Summary The corynebacteria seem to be the most suitable microorganisms for cloning genes involved in the production of amino acids, nucleotides, and other products of industrial interest. A plasmid, pCCl, from Corynebacterium callunae has been found with a size of 4.3 kb. A physical map obtained with restriction endonucleases is presented. pCCl has single restriction sites for Kpn I, Sma I, Bal I, and Hind III. Copy number of this plasmid has been estimated to be about 30. A number of hybrid plasmids have been constructed between pCCl and pBR329 from Escherichia coli and transformed into corynebacteria. The thiostrepton resistance gene (tsr) from Streptomyces azureus has been inserted into them.     

Physical and genetic studies with restriction endonucleases on the broad host-range plasmid RK2

Summary The cleavage map of the plasmid RK2 was determined for the five restriction endonucleases EcoRI, HindIII, Bam H-I, Sal I and Hpa I. DNA has been inserted into several of these sites and cloned in Escherichia coli. Efforts to obtain derivatives of RK2 reduced in size by restriction endonuclease digestion of the plasmid were not successful and indicated that genes required for the maintenance of this plasmid in E. coli are not tightly clustered. An RK2 derivative possessing an internal molecular rearrangement was obtained by transformation with restriction endonuclease digests of the plasmid.     

Isolation and genetic mapping of Escherichia coli aminopeptidase mutants

Summary Many mutant strains devoid of aminopeptidase activity have been isolated in Escherichia coli. All of them produce cross-reacting material when tested against specific antiaminopeptidase antibody. The map position of the locus specifying this enzyme has been determined by three conjugations and two P₁ mediated transduction experiments. By analogy with Salmonella typhimurium this locus has been called pepN (Miller, 1975). Mutations in pepN are jointly transduced with fabA and pyrD at high frequency. These data and conjugation results suggest a location between 20.5 and 22.5 minutes on E. coli genetic map.     

Physical and functional mapping of Tn2603, a transposon encoding ampicillin, streptomycin, sulfonamide, and mercury resistance

Summary A map of cleavage sites for restriction endonucleases EcoR1, BamHI, HindIII, and SalI on Tn2603, a transposon encoding resistance to ampicillin, streptomycin, sulfonamide, and mercury, was constructed by an analysis of restriction cleavage patterns of plasmid pMK1.:: Tn2603 and its deletion derivative. By cloning the fragments generated from pMK1::Tn2603 with these restriction endonucleases to a pACYC184 plasmid vehicle, the regions necessary for expression of resistance were located on the restriction cleavage map of Tn2603. Ampicillin, streptomycin, and sulfonamide-resistance genes were mapped in a cluster on the region between the center and the right and the mercury-resistance gene was located to the left of the map. The final functional map of Tn2603 was compared with those of Tn4 and Tn21 and the evolutional relationships between them were discussed.     

Cloning part of the region encoding biosynthetic enzymes for surface antigen (O-antigen) of Salmonella typhimurium

Summary The rfb gene cluster of Salmonella typhimurium encodes the enzymes required for the biosynthesis of the O-Antigen. A part of it has been cloned in plasmid vectors pBR322 and pUC9 using an adjacent, previously cloned, part of the his operon (Barnes 1981) as a molecular probe for the first clone. A detailed restriction enzyme map of 7.57 kb of rfb DNA is presented and the approximate locations of two of the genes, rfbK and rfbM have been defined.     

A T4 DNA fragment containing genes for the baseplate central plug: Endonuclease restriction, gene expression and cell wall changes

Summary A fragment of Escherichia coli bacteriophage T4D DNA, containing 6.1 Kbp which included the six genes (genes 25, 26, 51, 27, 28 and 29) coding for the tail baseplate central plug has been partially characterized. This DNA fragment was obtained originally by Wilson et al. (1977) by the action of the restriction enzyme EcoRI on a modified form of T4 DNA and was inserted in the pBR322 plasmid and then incorporated into an E. coli K12 strain called RRI. This plasmid containing the phage DNA fragment has now been reisolated and screened for cleavage sites for various restriction endonucleases. Restriction enzymes Bgl 11 and Xbal each attacked one restriction site and the enzyme Hpa 1 attacked two restriction sites on this fragment. The combined digestion of the hybrid plasmid containing the T4 EcoRI DNA fragment conjugated to the pBR322 plasmid with one of these enzymes plus Bam H1 restriction enzyme resulted in the localization of the restriction site for Bgl 11, Xba 1 and Hpa 1. Escherichia coli strain B cells were transformed with this hybrid plasmid and found to have some unexpected properties. E. coli B cells, which are normally restrictive for T4 amber mutants and for T4 temperature sensitive mutants (at 44°) after transformation, were permissive for 25am, 26am and 26^Ts, 51am, and 51^Ts, 27^Ts, and 28^Ts T4 mutants. Extracts from the transformed E. coli cells were found in complementation experiments to contain the gene 29 product, as well as the gene 26 product, the gene 51 product, and the gene 27 product. The complementation experiments and the permissiveness of the transformed E. coli B cells to the various conditional lethal mutants clearly showed that the six T4 genes were producing all six gene products in these transformed cells. However, these cells were not permissive for T4 amber mutants in genes 27, 28, and 29. The transformed E. coli B cells, as compared to untransformed cells, were found to have altered outer cell walls which made them highly labile to osmotic shock and to an increased rate of killing by wild type T4 and all T4 amber mutants except for T4 am29. The change in cell walls of the transformed cells has been found to be due to the T4 baseplate genes on the hybrid plasmid, since E. coli B transformed by the pBR322 plasmid alone does not show the increase in osmotic sensitivity.     

Genetic and physical maps of Klebsiella aerogenes genes for histidine utilization (hut)

Summary Deletion derivatives of the hut-containing plasmid pCB101 were tested against point mutants defective in individual genes of the histidine utilization (hut) operons using a complementation/recombination assay. Location of the genes of the right operon, hutU and hutH, was confirmed by direct assay of the gene products, urocanase and histidase; location of the repressor gene was identified by measuring the ability of the plasmid-carried genes to repress the formation of histidase from a chromosomal location. The analysis of eight deletion plasmids unambiguously confirms the map order of the hut genes as hutI-G-C-U-H, and demonstrates that, in Klebsiella aerogenes, the hutU and hutH genes are transcribed from their own promoter. In addition, the genetic map of hut can be aligned with the restriction map of the hut DNA in plasmid pCB101. One of the deletion plasmids studied apparently encodes a defective histidase subunit that is trans-dominant to active histidase. Another deletion, which completely removes the left operon, hutIG, allows high level expression of the hutUH operon and thus overproduction of a toxic intermediate.     

R483 and F Plasmid Genes Promoting RNA Degradation: Comparative Restriction Mapping

The gene promoting nucleic-acid degradation (pnd) on IncIa plasmid R483 was cloned into pBR322. It is located on a 0.85 kilobase (kb) EcoRI-SalI fragment and is close to Tn7. The pnd gene has similar properties to the srnB gene on the F plasmid. A cleavage map of the 0.85 kb pnd fragment was constructed and compared with that of the 1.18 kb EcoRI-BamHI fragment containing the srnB gene. These two regions showed marked heterogeneity as evidenced by their distinctly different restriction maps. This result suggests separate paths of evolution of the two genes for stable RNA degradation.     

Linear chromosomal physical and genetic map of Borrelia burgdorferi, the Lyme disease agent

A physical map of the 952kbp chromosome of Borrelia burgdorferi Sh-2-82 has been constructed. Eighty-three intervals on the chromosome, defined by the cleavage sites of 15 restriction enzymes, are delineated. The intervals vary in size from 96kbp to a few hundred bp, with an average size of 11.5 kbp. A striking feature of the map is its linearity; no other bacterial groups are known to have linear chromosomes. The two ends of the chromosome do not hybridize with one another, indicating that there are no large common terminal regions. The chromosome of this strain was found to be stable in culture; passage 6, 165 and 320 cultures have identical chromosomal restriction maps. We have positioned all previously known Borrelia burgdorferi chromosomal genes and several newly identified ones on this map. These include the gyrA/gyrB/dnaA/dnaN gene cluster, the rRNA gene cluster, fla, flgE, groEL (hsp60), recA, the rho/hip cluster, the dnaK (hsp70)/dnaJ/grpE cluster, the pheT/pheS cluster, and the genes which encode the potent immunogen proteins p22A, p39 and p83. Our electrophoretic analysis detects five linear and at least two circular plasmids in B. burgdorferi Sh-2-82. We have constructed a physical map of the 53 kbp linear plasmid and located the operon that encodes the two major outer surface proteins ospA and ospB on this plasmid. Because of the absence of functional genetic tools for this organism, these maps will serve as a basis for future mapping, cloning and sequencing studies of B. burgdorferi.     

Characterization of a cryptic plasmid (p0M1) inButyrivibrio fibrisolvens by restriction endonuclease analysis and its cloning inEscherichia coli

A small cryptic plasmid has been identified in a strain of the ruminal bacteriumButyrivibrio fibrisolvens. This plasmid has been isolated and purified. It is approximately 2.8 kbp in length and contains restriction sites for a number of common endonucleases including single sites for EcoRI, PvuII, and PstI. A map of the plasmid restriction sites has been constructed. This plasmid, designated p0M1, has been ligated to pBR325, pAT153, and pHV33 and transformed intoEscherichia coli, and the resulting hybrid plasmids have been mapped. The possible uses of such hybrid plasmids for gene cloning inB. fibrisolvens are discussed.     

A general suppressor of RNA polymerase I, II and III mutations in Saccharomyces cerevisiae

The pem locus, which is responsible for the stable maintenance of the low copy number plasmid R100, contains the pemK gene, whose product has been shown to be a growth inhibitor. Here, we attempted to isolate mutants which became tolerant to transient induction of the PemK protein. We obtained 20 mutants (here called pkt for PemK tolerance), of which 9 were temperature sensitive for growth. We analyzed the nine mutants genetically and found that they could be classified into three complementation groups, pktA, pktB and pktC, which corresponded to three genes, ileS, gltX and asnS, encoding isoleucyl-, glutamyl- and asparaginyl-tRNA synthetases, respectively. Since these aminoacyl-tRNA synthetase mutants did not produce the PemK protein upon induction at the restrictive temperature, these mutants could be isolated because they behaved as if they were tolerant to the PemK protein. The procedure is therefore useful for isolating temperature-sensitive mutants of aminoacyl-tRNA synthetases.     

Cloning in E. coli of a streptomyces cellulase gene

Summary A gene bank fromStreptomyces A2, a cellulolytic actinomycete isolated from the gut of termites, has been constructed in theE. coli plasmid pAT153. The clones were screened for their capacity to degrade carboxymethylcellulose by the Congo red and cellulose azure techniques. A plasmid (pCSF1) showing cellulase activity in both tests was isolated and characterized. A restriction map of pCSF1 is reported.     

Properties and products of the cloned int gene of bacteriophage P2

Summary Fragments of DNA of the temperate phage P2, generated by treatment with the restriction enzyme PstI, have been cloned into the plasmid pBR322. One such fragment, which has its endpoints within phage genes T and C, carries the structural P2 int gene as well as its promoter and the phage att site. When introduced into a suitable bacterial host, the cloned fragment mediates the integration and excision of int ^- mutants of P2 and recombination within the phage att site in mixed infection. All these activities are independent of the orientation of the fragment within the plasmid.When introduced into minicells, the fragment produces, in addition to the products of genes D and U, a protein of 35–37,000 daltons identified as the int protein. A study of the map location of two amber int mutants, together with the sizes of the polypeptides they produce, indicates that the P2 int gene is transcribed from right to left on the P2 map, i.e. starting near gene C and proceeding toward att.     

The large endogenous plasmid of Anacystis nidulans: Mapping, cloning and localization of the origin of replication

Summary Anacystis nidulans contains two cryptic plasmids of 8.0 (pANS) and 48.5 (pANL) kilobasepairs (kbp). A clone bank of the large plasmid pANL consisting of 7 Bam HI fragments has been established. The cloned fragments were used as radioactive probes to Bam HI, Sal I, Hind III and Eco R1 digests of pANL in blot hybridization experiments to verify the clones and map the restriction fragments. Further size characterization of the physical map was done by restriction analysis of the cloned fragments. The origin of replication has been located in the largest Bam HI fragment of the large plasmid.     

Isolation of Lactococcus lactis nonsense suppressors and construction of a food-grade cloning vector

Nonsense suppressor strains of Lactococcus lactis were isolated using plasmids containing nonsense mutations or as revertants of a nonsense auxotrophic mutant. The nonsense suppressor gene was cloned from two suppressor strains and the DNA sequence determined. One suppressor is an ochre suppressor with an altered tRNA_gin and the other an amber suppressor with an altered tRNA_ser. The nonsense suppressors allowed isolation of nonsense mutants of a lytic bacteriophage and suppressible auxotrophic mutants of L. lactis MG1363. A food-grade cloning vector based totally on DNA from Lactococcus and a synthetic polylinker with 11 unique restriction sites was constructed using the ochre suppressor as a selectable marker. Selection, following etectroporation of a suppressible purine auxotroph, can be done on purine-free medium. The pepN gene from L. lactis Wg2 was subcloned resulting in a food-grade plasmid giving a four- to fivefold increase in lysine aminopeptidase activity.     

Isolation and expression analysis of two yeast regulatory genes involved in the derepression of glucose-repressible enzymes

Summary Yeast strains carrying one of the two regulatory mutations cat1 and cat3 are defectve in derepression of several glucose-repressible enzymes that are necessary for utilizing non-fermentable carbon sources. Hence, these strains fail to grow on ethanol, glycerol or acetate. The synthesis of isocitrate lyase, malate synthase, malate dehydrogenase and fructose-1,6-bisphosphatase is strongly affected in cat1 and cat3 strains. Genes CAT1 and CAT3 have been isolated by complementation of the cognate, mutations after transformation with an episomal plasmid gene library. The restriction map of CAT1 proved its allelism to the earlier isolated SNF1 gene. Both genes appear to exist as single-copy genes per haploid genome as indicated by Southern hybridization. Northern analysis has shown that the 1.35 kb CAT3 mRNA is constitutively expressed, independent of the carbon source in the medium. Derepression studies with CAT3 transformants using a multi-copy plasmid showed over-expression of glyoxylate cycle enzymes. This result would be consistent with a direct effector function for the CAT3 gene product.     

Characterization of a large plasmid of Rhizobium meliloti involved in enhancing nodulation

Summary The plasmid pattern of Rhizobium meliloti strain GR4 was studied and a gene bank of one of the large plasmids (pRmeGR4) of 140 Mdal, was constructed using the broad host range vector pRK290. A restriction map was established with EcoRI. Two regions of this plasmid involved in the infectivity of GR4 on Medicago sativa were identified. An EcoRI fragment hybridizing with the PstI-nif fragment of pID1 was also identified. However, no homology to the cloned Klebsiella pneumoniae nitrogenase genes (pSA30) was detected.     

The ability of nisin F to control Staphylococcus aureus infection in the peritoneal cavity, as studied in mice

Aims: To evaluate the outer membrane porin F gene (ompF) for the specific detection of Salmonella species by real‐time PCR assay. Methods and Results: Two hundred and eighteen isolates belonging to Salmonella enterica (subspecies I‐VI) and Salmonella bongori were examined using primers designed to detect the ompF gene. The DNA of the bacteria was extracted from pure culture. The target was present in all the 218 Salmonella isolates including all the subspecies of Salm. enterica and Salm. bongori. The ompF gene was absent in 180 non‐Salmonella strains tested. The limit of detection was determined to be three colony forming units per reaction in pure culture. In artificially contaminated food experiments with ten or less colony forming units per 25 g, the assay was successful in identifying the target in 100% of the samples after 22‐ to 24‐h incubation in enrichment broth. Conclusions: Based on this study, the ompF gene is 100% inclusive for Salmonella species and 100% exclusive for non‐Salmonella species for the strains tested. Significance and Impact of the Study: ompF gene was present in all the Salmonella strains tested and has the potential to be a good target for the rapid molecular identification of Salmonella.