Class of small multicopy plasmids originating from the mutant antibiotic resistance factor R1 drd-19B2. (33/782)

The large mutant R-factor R1drd-19B2 gives rise to several classes of small, covalently closed circular deoxyribonucleic acids (DNAs), designated as Rsc DNAs, when harbored by the K-12 strain CRT46 which carries a dnaA mutation. The molecular weights of these DNA molecules range from 3 X 106 to 8.4 X 106. Cells arising from single colonies of CRT46-R1drd-19B2 harbor only one to two copies of the large mutant R-factor and in addition 10 to 20 copies of Rsc plasmid of a discrete size class per chromosome. The larger Rsc DNAs carry the ampicillin resistance gene. After transformation the small circular DNAs are present in Escherichia coli C in a large number of copies, up to 100 copies per chromosome. Hybridization studies between Rsc plasmids indicate that they possess common DNA sequences.  (+info)

Engineering EGFP reporter constructs into a 200 kb human beta-globin BAC clone using GET Recombination. (34/782)

GET Recombination, a simple inducible homologous recombination system for Escherichia coli, was used to target insertion of an EGFP cassette between the start and termination codons of the beta-globin gene in a 200 kb BAC clone. The high degree of homology between the promoter regions of the beta- and delta-globin genes also allowed the simultaneous generation of a delta-globin reporter construct with the deletion of 8.8 kb of intervening sequences. Both constructs expressed EGFP after transient transfection of MEL cells. Similarly, targeting of the EGFP cassette between the promoter regions of the gamma-globin genes and the termination codon of the beta-globin gene enabled the generation of reporter constructs for both (A)gamma- and (G)gamma-globin genes, involving specific deletions of 24 and 29 kb of genomic sequence, respectively. Finally the EGFP cassette was also inserted between the epsilon- and beta-globin genes, with the simultaneous deletion of 44 kb of intervening sequence. The modified constructs were generated at high efficiency, illustrating the usefulness of GET Recombination to generate large deletions of specific sequences in BACs for functional studies. The establishment of stable erythropoietic cell lines with these globin constructs will facilitate the search for therapeutic agents that modify the expression of the individual globin genes in a physiologically relevant manner.  (+info)

Transduction of a Proteus vulgaris strain by a Proteus mirabilis bacteriophage. (35/782)

Only Proteus vulgaris strain PV127 out of many P. vulgaris, P. morganii and Providence strains was transduced to kanamycin resistance by high-frequency transducing variants, 5006MHFTk and 5006MHFTak, of phage 5006M, a general transducing phage for P. mirabilis strain PM5006. The phages adsorbed poorly to strain PV127 and did not form plaques. The transduction frequency of PV127 by these phages was 5 x 10(-8)/p.f.u. adsorbed. Phage 5006M increased the transduction frequencies. Abortive transductants were not detected. Transductants segregated kanamycin-sensitive clones at high frequency and this, together with data from the inactivation of transducing activity of lysates by ultraviolet irradiation, indicated that transduction was by lysogenization. The general transducing property of the phages was not expressed in transductions to auxotrophs of PV127. Transductants (type I) resulting from low multiplicities of phage input adsorbed phage to the same extent as PV127. This suggested a defect in the transducing particles (or host) because single phage 5006M infection converted strain PM5006 to non-adsorption of homologous phage. Type I transductants did not liberate phage, suggesting a defective phage maturation function. Transductants (type II) which arose from higher multiplicities of phage input did not adsorb phage, indicating possible heterogeneity among transducing particles. Phage derived from type II transductants adsorbed poorly to PV127 and transduced it to kanamycin resistance at frequencies similar to those of phages 5006MHFTk and 5006MHFTak, ruling out host-controlled modification as a cause of the low transduction frequencies. This phage transduced PM5006 to antibiotic resistance at high frequencies but generalized transduction was again not detected. It was suggested that general transduction could be performed by particles which, due to a different composition and/or mode of chromosomal integration, made material they carried susceptible to host-cell modification.  (+info)

Plasmid incompatibility and control of replication: copy mutants of the R-factor R1 in Escherichia coli K-12. (36/782)

Plasmid incompatibility was studied in Escherichia coli K-12. By double-antibiotic selection, clones were constructed that carried the two R-factors R1 and R100, both belonging to the compatibility group FII. After release of the selection pressure, each of the two plasmids was lost at the same rate (8% per generation). Mutants of R-factor R1 showing an increased number of copies per chromosome (copy mutants) were tested for their incompatibility towards R-factor R100. The results indicate that plasmid incompatibility is quantitative and not just a qualitative property. All copy mutants studied affected incompatibility, and there were two classes of mutants: one increasing and one decreasing the incompatiblity exerted towards the test plasmid R100. Evidence is presented that incompatibility is related to the mechanisms that control replication. The implications of such a relation on proposed models for control of replication are discussed. The data do not support the hypothesis that plasmid incompatibility is due to competition for a replicational or segregational site.  (+info)

Chromosome-plasmid interaction in Escherichia coli K-12 carrying a thermosensitive plasmid, Rts1, in autonomous and in integrated states. (37/782)

An Hfr strain of Escherichia coli K-12 was obtained by integrative suppression with a thermosensitive plasmid, Rts1. The R plasmid was integrated into the chromosome between rif and thr, and transfer of the chromosome occurred counterclockwise. The thermosensitivity of host cell growth due to the dnaA mutation was markedly but not completely reduced in this integratively suppressed Hfr strain. When the dnaA mutation was removed by transducing the dnaA+ genome to this Hfr, the thermosensitivity of cell growth due to existence of Rts1 was suppressed in contrast to strains carrying it autonomously. Thermosensitivity of cell growth appeared again when the plasmid was detached from the chromosome to exist autonomously. Contrary to the effect on cell growth, the transfer of the chromosome and the plasmid itself and the ability to "restrict" T-even phages were still thermosensitive in all of these strains carrying Rts1, irrespective of its state of existence. The detached plasmid as well as the original Rts1 were segregated upon growth at 42 C. These data are discussed in relation to chromosome-plasmid interaction. One of the most important conculusions is that some plasmid genes, related to their replication, are phenotypically suppressed by the chromosome when it is integrated.  (+info)

Transformation of Pseudomonas putida and Escherichia coli with plasmid-linked drug-resistance factor DNA. (38/782)

Conditions optimal for the transformation of Pseudomonas putida and E. coli with a drug-resistance factor (RP 1) DNA, which specifies resistance to carbenicillin, tetracycline, kanamycin, and neomycin, are described. The transformants retain all the fertility, incompatibility, and drug-resistance characteristics present in the parent. Covalently-closed circular molecules of almost identical contour lengths have been isolated from the parent and the transformants. The frequency of transformation is drastically reduced by treatment of RP 1 DNA with DNase and by denaturation or sonication. Shearing of RP 1 DNA in vitro and their subsequent introduction in P. putida cells, by transformation, produces transformants that exhibit a wide range of drug-resistant phenotypes, including those which are resistant to neomycin but sensitive to kanamycin. Isolation of such neomycin-resistant but kanamycin-sensitive transformants indicates that there might be two separate mechanisms specified by RP 1 for resistance to the two antibiotics.  (+info)

Cost-effectiveness of management strategies for acute urethritis in the developing world. (39/782)

OBJECTIVE: To recommend a cost-effective approach for the management of acute male urethritis in the developing world, based on the findings of a theoretical study. METHODS: A model was developed to assess the cost-effectiveness of three urethritis management strategies in a theoretical cohort of 1000 men with urethral syndrome. (1) All patients were treated with cefixime and doxycycline for gonococcal urethritis (GU) and nongonococcal urethritis (NGU), respectively, as recommended by WHO. (2) All patients were treated with doxycycline for NGU; treatment with cefixime was based on the result of direct microscopy of a urethral smear. (3) All patients were treated with cotrimoxazole or kanamycin for GU and doxycycline for NGU. Cefixime was kept for patients not responding to the first GU treatment. Strategy costs included consultations, laboratory diagnosis (where applicable) and drugs. The outcome was the rate of patients cured of urethritis. Cost-effectiveness was measured in terms of cost per cured urethritis. RESULTS: Strategy costs in our model depended largely on drug costs. The first strategy was confirmed as the most effective but also the most expensive approach. Cefixime should cost no more than US$ 1.5 for the strategy to be the most cost-effective. The second strategy saved money and drugs but proved a valuable alternative only when laboratory performance was optimal. The third strategy with cotrimoxazole was the least expensive but a low follow-up visit rate, poor treatment compliance or lower drug efficacy limited effectiveness. Maximizing compliance by replacing cotrimoxazole with single-dose kanamycin had the single greatest impact on the effectiveness of the third strategy. CONCLUSION: Our model suggested that a cost-effective approach would be to treat gonorrhoea with a single-dose antibiotic selected from locally available products that cost no more than US$ 1.5.  (+info)

VirB/D4-dependent protein translocation from Agrobacterium into plant cells. (40/782)

The Agrobacterium VirB/D4 transport system mediates the transfer of a nucleoprotein T complex into plant cells, leading to crown gall disease. In addition, several Virulence proteins must somehow be transported to fulfill a function in planta. Here, we used fusions between Cre recombinase and VirE2 or VirF to directly demonstrate protein translocation into plant cells. Transport of the proteins was monitored by a Cre-mediated in planta recombination event resulting in a selectable phenotype and depended on the VirB/D4 transport system but did not require transferred DNA.  (+info)