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1.
A Bacteroides fragilis strain resistant to penicillin G, tetracycline, and clindamycin was screened for the presence of plasmid deoxyribonucleic acid (DNA). Agarose gel electrophoresis of ethanol-precipitated DNA from cleared lysates of this strain revealed two plasmid DNA bands. The molecular weights of the plasmids were estimated by their relative mobility in agarose gel and compared with standard plasmids with known molecular weights. The molecular weights were 3.40 +/- 0.20 x 10(6) and 1.95 +/- 0.05 x 10(6) for plasmids pBY1 and pBY2, respectively. Plasmid DNA purified by cesium chloride-ethidium bromide gradient centrifugation was used to transform a restriction- and modification-negative strain of Escherichia coli. Penicillin G- and tetracycline-resistant transformants were screened for the presence of plasmid DNA. A plasmid band corresponding to a molecular weight of 1.95 x 10(6) was present in all transformants tested. Curing experiments demonstrated that the plasmid, referred to as pBY22 when present in transformants, was responsible for penicillin G and tetracycline resistance. Plasmid pBY22 was mobilized and transferred to other E. coli strains by plasmid R1drd-19. Stability of pBY22 was examined in different E. coli strains and was shown to be stably maintained in both restriction-negative and restriction-positive strains. Unexpectedly, pBY2 and pBY22 were resistant to digestion by 12 different restriction endonucleases.  相似文献   

2.
The broad-host-range IncP beta plasmid R751 can mobilize itself from Escherichia coli to Bacteroides spp, but it is not maintained in Bacteroides spp. If R751 carries the Bacteroides transposon Tn4351, it can be integrated into the Bacteroides chromosome. Previously we showed that R751, integrated in the chromosome of Bacteroides uniformis, cannot mobilize itself out of B. uniformis into E. coli or isogenic B. uniformis strains. In this report, we showed that if the Bacteroides conjugative tetracycline resistance element Tcr ERL was coresident with the R751 insertion in B. uniformis, derivatives of R751 were transferred to E. coli, where they were recovered as plasmids. The most common derivatives were R751::Tn4351 and R751::IS4351, but some strains transferred R751 derivatives, containing additional DNA segments ranging in size from 10 to 23 kilobases. These DNA inserts cross-hybridized with chromosomal DNA from B. uniformis which did not carry the Tcr ERL element. Therefore, the inserts appeared to be segments of the wild-type B. uniformis chromosome and were not associated with the Tcr ERL element. The transfer of integrated R751 from B. uniformis was independent of the RecA phenotype of the E. coli recipients and did not appear to be due to transfer of B. uniformis chromosomal DNA, followed by RecA-dependent recombination between homologous IS4351 sequences to form the resultant R751 plasmid derivatives. Consistent with this, no transfer of Tn4351 (associated with the cointegrated R751) from B. uniformis donors to isogenic B. uniformis recipients was detected (< 10(-8)). Our data support the hypothesis that R751 excises from the B. uniformis chromosome by recombination involving flanking Tn4351 or IS4351 sequences and forms nonreplicating circles. The mobilization of these circular forms out of B. uniformis to E.coli is then facilitated by the Tcr ERL element.  相似文献   

3.
Since reduced metronidazole causes DNA damage, resistance to metronidazole was used as a selection method for the cloning of Bacteroides fragilis genes affecting DNA repair mechanisms in Escherichia coli. Genes from B. fragilis Bf-2 were cloned on a recombinant plasmid pMT100 which made E. coli AB1157 and uvrA, B, and C mutant strains more resistant to metronidazole, but more sensitive to far uv irradiation under aerobic conditions. The loci affecting metronidazole resistance and uv sensitivity were linked and located on a 5-kb DNA fragment which originated from the small 6-kb cryptic plasmid pBFC1 present in B. fragilis Bf-2 cells.  相似文献   

4.
Two clindamycin-erythromycin resistance transfer factors of Bacteroides fragilis, pBF4 and pBFTM10, were analyzed for regions of DNA homology. Although the plasmids were derived from different clinical isolates of B. fragilis and have different sizes, they showed homology in the clindamycin-erythromycin resistance region; no homology could be detected outside of this region.  相似文献   

5.
A number of cya and crp mutants of Escherichia coli HfrH were analyzed for several Tra functions of the F plasmid. The mutants were observed to be deficient in conjugal donor ability, absorption of phages MS2 and Q beta and surface exclusion. These defects were suppressed in cya mutants grown with cAMP supplementation. A cAMP concentration of 3 X 10(-4) M produced maximal suppression of donor ability defect in a cya strain. cAMP did not suppress the Tra- phenotype of crp mutants. Latent periods of MS2 were shorter in cya and crp bacteria. Phage T7 development appeared similar in wild type, cya, and crp cells. It is concluded that tra genes of F plasmid are expressed only to a small extent in cya and crp mutants and that cAMP and its receptor protein are required for the normal expression of tra genes.  相似文献   

6.
Many bacterial genera, including Bacteroides spp., harbor mobilizable transposons, a class of transfer factors that carry genes for conjugal DNA transfer and, in some cases, antibiotic resistance. Mobilizable transposons are capable of inserting into and mobilizing other, nontransferable plasmids and are implicated in the dissemination of antibiotic resistance. This paper presents the isolation and characterization of Tn5520, a new mobilizable transposon from Bacteroides fragilis LV23. At 4,692 bp, it is the smallest mobilizable transposon reported from any bacterial genus. Tn5520 was captured from B. fragilis LV23 by using the transfer-deficient shuttle vector pGAT400DeltaBglII. The termini of Tn5520 contain a 22-bp imperfect inverted repeat, and transposition does not result in a target site repeat. Tn5520 also demonstrates insertion site sequence preferences characterized by A-T-rich nucleotide sequences. Tn5520 has been sequenced in its entirety, and two large open reading frames whose predicted protein products exhibit strong sequence similarity to recombinase-integrase enzymes and mobilization proteins, respectively, have been identified. The transfer, mobilization, and transposition properties of Tn5520 have been studied, revealing that Tn5520 mobilizes plasmids in both B. fragilis and Escherichia coli at high frequency and also transposes in E. coli.  相似文献   

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Bacteroides-Escherichia coli shuttle vectors containing a nonmobilizable pBR322 derivative and either pBFTM10 (pDP1, pCG30) or pB8-51 (pEG920) were mobilized by IncP plasmid R751 or pRK231 (an ampicillin-sensitive derivative of RK2) between E. coli strains and from E. coli to Bacteroides recipients. IncI alpha R64 drd-ll transferred these vectors 1,000 times less efficiently than did the IncP plasmids. pDP1, pCG30, and pEG920 could be mobilized from B. uniformis donors to both E. coli and Bacteroides recipients by a conjugative Bacteroides Tcr (Tcr ERL) element which was originally found in a clinical Bacteroides fragilis strain (B. fragilis ERL). However, the shuttle vector pE5-2, which contains pB8-51 cloned in a restriction site that prevents its mobilization by IncP or IncI alpha plasmids, also was not mobilized at detectable frequencies from Bacteroides donors by the Tcr ERL element. The mobilization frequencies of pCG30, pDP1, and pEG920 by the Tcr ERL element in B. uniformis donors to E. coli recipients was about the same as those to isogenic B. uniformis recipients. Transfer of the shuttle vectors from B. uniformis donors to E. coli occurred at the same frequencies when the matings were done aerobically or anaerobically. Growth of the B. uniformis donors in tetracycline (1 microgram/ml) prior to conjugation increased the mobilization frequencies of the vectors to both E. coli and Bacteroides recipients 50 to 100 times.  相似文献   

9.
Gene transfer between organisms is a prime contributor to evolution. Bacterial conjugation is probably the most important mechanism by which genes are spread among prokaryotes and perhaps also contributes to eukaryotic evolution. Conjugation is mediated by plasmids. The mechanism of conjugation remains ill-understood despite progress in the identification, mapping and sequencing of genes required for plasmid transmission. All conjugation-specific genes (those required only for DNA transfer and establishment) identified to date map to plasmids. We found that IncP plasmids could enter and subsequently convert maxicells, which are trapped in a metabolic state that prevents de novo expression of chromosomal genes, into conjugative donors. This suggests that IncP plasmids encode not only necessary functions but indeed all functions specific to DNA transmission. Thus, like viruses, plasmids can convert non-viable cells into gene vectors.  相似文献   

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13.
The nucleotide sequence of the DNA mobilization region of the 5-nitroimidazole resistance plasmid pIP421, from strain BF-F239 of Bacteroides fragilis, was determined. It contains a putative origin of transfer (oriT) including three sets of inverted repeats and two sequences reminiscent of specific integration host factor binding sites. The product of the mobilization gene mob421 (42.2 kDa) is a member of the Bacteroides mobilization protein family, which includes the MobA of pBI143, NBUs, and Tn4555. Sequence similarity suggests that it has both oriT binding and nicking activities. The transfer frequency of pIP421 in a B. fragilis donor strain possessing a Tc(r) or Tc(r) Em(r)-like conjugative transposon was significantly enhanced by tetracycline. Moreover, the mobilization region of pIP421 confers the ability to be mobilized from Escherichia coli by an IncP plasmid.  相似文献   

14.
Summary The 30 megadalton (Mdal)-conjgaative, fi- plasmid pRSD1 determines inducible tetracycline resistance (Tc) in Escherichia coli. As shown by restriction analysis, a 3.5 Mdal-EcoRI fragment of pRSD1 spliced into the small plasmid pRSD2124 comprises the entire Tc determinant (tet) region. A restriction map of pRSD1 is presented which includes the location of the tet region and of an underwound loop not related to Tc (Burkardt et al., 1978). Selective amplification of tet genes is demonstrated by three lines of evidence. (i) The resistance level of cell harbouring pRSD1 increases approximately tenfold by induction with 10g/ml of tetracycline. Further groth in the presence of 100 g/ml of the drug (tet-racycline stress) selects for cells with even higher resistance levels (about 300 g/ml) in rec + cells. In a recA strain, a smaller proportion of cells attains these high resistance levels suggesting the involvement of host recombination. (ii) Electron micrographs of pRSD1-DNA isolated from tetracycline-stressed cells reveal a heterogeneous population of circular DNA molecules ranging between 1.7 and 21.6 m. The distribution of contour lengths shows a discrete pattern ascribed to the presence of autonomous single-and multiple-copy Tc determinants and to intact plasmids containing zero to six tet regions in tandem repeats. (iii) This interpretation is supported by heteroduplex and restriction analyses which demonstrate the presence of multiple copies of the 3.5 Mdal-element encompassing the tet region in pRSD1 molecules selected by tetracycline stress. It has been concluded that gene amplification leading to tandem repetition of the tet region ensues in pRSD1. Such plasmids confer increased tetracycline resistance and can, therefore, be selected by high doses of the drug.  相似文献   

15.
A 4.4-megadalton penicillinase plasmid, pWD2, from Neisseria gonorrhoeae was transformed into Escherichia coli. pWD2 was efficiently mobilized by IncP plasmids in E. coli but not by Flac, R1drd-19, or R64drd-11. pWD2 could be isolated as a DNA-protein relaxation complex with properties similar to the well characterized ColE1 complex. The host range of pWD2 was shown to include gonococci, Enterobacteriaceae, and Hemophilus influenzae, but not Acinetobacter calcoaceticus or Pseudomonas aeruginosa. These findings suggest that P-group plasmids could have played a role in the dissemination of the TEM beta-lactamase to pathogenic gram-negative bacteria.  相似文献   

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The influence of biotic and abiotic factors on plasmid transfer between Escherichia coli strains in terms of the variation in the number of transconjugants formed and the variation in transfer frequency was investigated. The density of parent cells affected the number of transconjugants, reaching a maximum when the cell density was on the order of 10(8) CFU ml-1. As the donor-to-recipient ratios varied from 10(-4) to 10(4), the number of transconjugants varied significantly (P less than 0.001), reaching a maximum with donor-to-recipient ratios between 1 and 10. The concentration of total organic carbon in the mating medium affects both the number of transconjugants and the transfer frequency, being significantly higher (P less than 0.001) when the total organic carbon concentration was higher than 1,139 mg of C liter-1. However, the transconjugants were detected even with less than 1 mg of C liter-1. Linear regression of log10 transconjugants versus mating temperature showed a highly significant regression line (P less than 0.001). Neither the transfer frequency nor the transconjugant number varied significantly in the range of pHs assayed. We can conclude that plasmid transfer by conjugation can take place within a wide range of conditions, even in such adverse conditions as the absence of nutrients and low temperatures.  相似文献   

18.
A genomic bank was constructed in Escherichia coli HB101, consisting of DNA fragments from Bacteroides thetaiotaomicron strain 489 inserted within the vector pBR322. By screening on complex medium containing blue dextran, 10 stable dextranase-positive (Dex+) clones were isolated. Seven groups of Dex+ inserts were identified on the basis of their restriction maps and hybridization responses. Dextanase activity of the recombinant clones was weak, and was revealed on the selection medium after 15 days. Subcloning of a Sau3AI partially digested 3.2-kb insert in the expression vector pDR720 greatly enhanced dextranse activity on blue dextran plates in one clone, but the delay remained unaltered. This suggested that the enzyme was released by cell lysis. Expression of this 0.7-kb subcloned insert was dependent on the promoter region of tryptophan operon carried by pDR720.  相似文献   

19.
Escherichia coli mutants defective in the assimilation of iron from ferrienterochelin were isolated and characterized. One mutant was able to bind ferrienterochelin to its outer membrane but could not transport it into the cell. Complementation tests with lambda hybrid phage were employed to distinguish the defective gene, which we term fepB, from fepA, the structural gene for the outer membrane ferrienterochelin receptor protein. These same physiological and genetic tests were employed to tentatively classify several previously described fep mutants as carrying either fepA or fepB. The data demonstrate the existence of fepB and provide an explanation for previous difficulties in identifying fepB mutants.  相似文献   

20.
Thirty-six strains of Escherichia coli isolated from animals in Bario, a remote area in Sarawak, Malaysia, were examined for presence of plasmid DNA and their susceptibility to nine antimicrobial agents. Of the total 36 isolates, five bovine and six canine isolates were found to contain plasmid DNA ranging in sizes from 2.6 to 70 kilobases. All were susceptible to chloramphenicol, erythromycin, gentamicin, nalidixic acid and neomycin but resistance to ampicillin (47%), erythromycin (19%), streptomycin (25%) and tetracycline (11%) was observed. Resistance was associated with carriage of a 47 kb (SC98), 70 kb, (SC133) and 56 and 4.6 kb (SC119) plasmids which were transmissible to the Escherichia coli K12 recipient. It is concluded that animals form a potential reservoir of R plasmids carrying E. coli in the study area.  相似文献   

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