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1.
Summary Four plasmids Rsc10–13 ranging in size from 5.1×106 to 13.4×106 Dalton have been isolated from a strain carrying the copy mutant R1drd-19B2 of the antibiotic resistance factor R1. The Rsc plasmids have been cloned by transformation in Escherichia coli C. They determine high level resistance to ampicillin and occur in the cell in multiple copies. Their copy number and stability in the bacterial cell depend on the plasmid and the host strain.Physical maps of these plasmids have been constructed by cleavage with restriction endonucleases HincII, EcoRI, HindIII, BamI and SmaI. The pattern of the cleavage fragments have been compared with the parent plasmid R1drd-19B2 and with a R1 deletion mutant, R1drd-16, which has lost the ampicillin resistance. For Rsc11 and Rsc10 the data indicate, that both plasmids derive from a continuous stretch of the R1drd-19B2 DNA extending from the ampicillin transposon (TnA) to the replication site of the R1 factor. The plasmids Rsc12 and 13 have lost a DNA sequence between TnA and the replication site of R1. They may be formed by translocation of TnA to different autonomously replicating fragments of R1drd-19B2 including the replication origin or by deletion of DNA sequences from Rsc10 and Rsc11.  相似文献   

2.
D D Womble  R H Rownd 《Plasmid》1979,2(1):79-94
The effects of inhibition of protein and ribonucleic acid (RNA) synthesis on the replication of the plasmids NR1 and F′lac in Escherichia coli were studied. When protein synthesis is inhibited, there is approximately a 25% increase in R plasmid deoxyribonucleic acid (DNA), but this newly synthesized DNA is not recoverable in the covalently closed circular (CCC) form until protein synthesis is allowed to resume. When RNA synthesis is inhibited, there is also approximately a 20% increase in R plasmid DNA, but this DNA is immediately recoverable in the CCC form. F′lac DNA, unlike R plasmid DNA, can continue to replicate for at least a generation time in the absence of protein synthesis, and this F′lac DNA is immediately recoverable in the CCC form.  相似文献   

3.
The spread of plasmids in model populations of Escherichia coli K12.   总被引:5,自引:0,他引:5  
J Cullum  J F Collins  P Broda 《Plasmid》1978,1(4):545-556
Comparison of R100 with its derepressed derivative R100-1 showed that the capacity to repress tra function does not significantly affect the spread by retransfer of R100. F′lac was used to investigate the contributions of growth and transfer to spread of a plasmid through a recipient population. Ability to transfer F′lac was lost rapidly when donor cultures entered stationary phase, but aggregate-forming ability was lost much more slowly. Comparison of F′lactra+ with F′lactraH88, which is unable to retransfer from recipients, showed the importance of retransfer. We used a mathematical model to calculate the amount of retransfer needed to explain the rate of increase of F′lac progeny. This showed that the lag between a cell receiving F′lac and being able to retransfer it was a less important constraint on this rate of increase than the inherent rate of plasmid transfer by established donors.  相似文献   

4.
The stability of inheritance of plasmid R1drd-19 was tested. The copy number of the plasmid was determined in two different ways: As the ratio between covalently closed circular DNA and chromosomal DNA, and by quantitative determination of single-cell resistance to ampicillin. In the latter case, strains carrying the R1 ampicillin transposon Tn3 on prophage λ was used as standard. The values were transformed to copy number per cell by using the Cooper-Helmstetter model for chromosome replication as well as by determination of chromosomal DNA per cell by the diphenylamine method. The copy number was found to be five to six per cell (or about four per newborn cell). Nevertheless, plasmid R1drd-19 was found to be completely stably inherited. This stability was shown not to be due to retransfer of the plasmid by the R1 conjugation system, since transfer-negative derivatives of the plasmid were also completely stably inherited. Smaller derivatives of plasmid R1drd-19 were found to be lost at a frequency of about 1.5% per cell generation. The copy-number control was not affected in these miniplasmids, since their copy numbers were the same as that of the full size plasmid. Quantitatively, the instability of the miniplasmids was in accord with random partitioning. It is, therefore, suggested that the plasmid R1drd-19 carries genetic information for partitioning (par) of plasmid copies at cell division, and that the par mechanism is distinct from the copy number control (cop) system. Finally, the par gene maps on the resistance transfer part of the plasmid, but far away from the origin of replication and the so-called basic replicon; this is in accord with the approximate location of the repB gene (Yoshikawa, 1974, J. Bacteriol.,, 118, 1123–1131).  相似文献   

5.
Molecular characterization of a stable Flac plasmid   总被引:2,自引:0,他引:2  
FlacS is a thermostable extrachromosomal element isolated in Salmonella typhimurium which is altered in its replication as compared to its precursor Fts114lac. Sedimentation of both these plasmids in alkaline sucrose gradients has indicated a difference in their sizes. Contour length measurements of open circular plasmid DNA molecules photographed in the electron microscope have revealed the estimated molecular weight of Fts114lac to be 81 × 106 daltons while that of FlacS is 109 × 106 daltons. FlacS may carry a segment of S. typhimurium chromosomal or cryptic plasmid DNA.  相似文献   

6.
The isolation of conditional mutants with an altered copy number of the R plasmid R1drd-19 is described. Temperature-dependent as well as amber-suppressible mutants were found. These mutant plasmids have been named pKN301 and pKN303, respectively. Both types of mutations reside on the R plasmid. No difference in molecular weight could be detected by neutral sucrose gradient centrifugation for any of the mutant plasmids when compared with the wild-type plasmid. The number of copies of the plasmids was determined by measurement of the specific activity of the R plasmid-mediated β-lactamase and by measurement of covalently closed circular (CCC) DNA in alkaline sucrose gradients and dye-CsCl density gradients. Below 34 °C the temperature-dependent mutant, pKN301, had the same copy number as the wild type, while this was four times that of the wild type above 37 °C. The amber mutant pKN303 had a copy number indistinguishable from that of the wild-type plasmid in a strain containing a strong amber suppressor and a copy number about five times that of the wild-type plasmid in a strain lacking an amber suppressor. In a strain containing a temperature-sensitive amber suppressor, the amber mutant's copy number increased with the decrease in amber suppressor activity. Thus, the existence of the temperature-dependent and the amber-suppressible R-plasmid copy mutants indicates that the system that controls the replication of plasmid R1drd-19 contains an element with a negative function and that this element is a protein.  相似文献   

7.
Summary The recombinant plasmid pRK101 contains a DNA fragment which carries the complete replication origin of the antibiotic resistance factor R1drd-19 inserted into the vector plasmid pBR322. In a spontaneously arising mutant of this plasmid (pRK 103) a deletion of about 215 base pairs (bp) has been detected by heteroduplex analysis and mapping with restriction endonucleases. Essential parts of the replication origin must be located in the deleted sequence. The deletion mutant pRK103, in contrast to its parent plasmid pRK101 is not replicated under the control of the R1 replicon, even when the R1 factor or copy mutants of it are present within the same cell. These latter plasmids can complement a plasmid-specific protein not coded by pRK101 but essential for R1-directed replication. The nucleotide sequence of a 252 bp HpaII fragment covering about 170–200 bp of the deletion was determined. This piece of DNA is rich in G and C and contains a series of small palindromes, symmetrically arranged repeated sequences and short selfcomplementary structures which may be of significance for the initiation of the DNA replication. The possibility that the sequenced DNA fragment comprises a major part of the replication origin of R1drd-19 is discussed.  相似文献   

8.
The replication region fragments from Flac+ cloned in plasmids pSC138 and pML31 are identical with each other and with EcoRI fragment 5 of plasmid F.  相似文献   

9.
A terminal stage in the duplication of many bacterial plasmids involves the transient formation of catenated molecules containing two interlocked monomeric plasmid units. This property of plasmid replication was exploited to examine the relationship between F replication and the division cycle of Escherichia coli B/r cells growing in undisturbed, exponential-phase cultures. Various cultures of F′lac- or FKmr-containing cells were briefly exposed to [3H]thymidine, and then the transfer of radioactivity into, and out of, a catenated dimer consisting of two closed circular monomers was measured during a chase period. The fraction of plasmid molecules present in this dimer form was determined by separating cellular DNA in alkaline sucrose gradients. In addition, plasmid replication was studied in synchronously growing cultures by measuring both [3H]thymidine incorporation into covalently closed circular DNA and β-galactosidase inducibility. The results suggest that replication of F plasmids can take place throughout the cell division cycle, with the probability of replication increasing toward the end of the cycle. The presence of DNA homologous to the chromosome on the F′lac did not alter the replication pattern of the plasmid during the division cycle.  相似文献   

10.
Plasmid deoxyribonucleic acid (DNA) replication was studied in Escherichia coli hosts carrying temperature-sensitive (ts) initiation mutations. The replication of the R plasmid NR1 continues at the nonpermissive temperature in a ts dnaA mutant host but at a decreasing rate in proportion to the residual chromosome synthesis. The replication of NR1, as well as of the F plasmid F′lac, ceases immediately at the nonpermissive temperature in a ts dnaC mutant host. The ability to reinitiate R plasmid replication in the absence of protein or ribonucleic acid synthesis is accumulated at the nonpermissive temperature in a dnaC mutant host.  相似文献   

11.
B C Kline 《Plasmid》1979,2(3):437-445
The specificity of F incompatibility genes (inc+) has been studied with the Flac and R386 plasmids, members of the IncFI incompatibility group. Recently, two inc+ regions, incA (46.4–49.3F) and incB (43.1–46.4F) were identified by cloning these F sequences onto pSC101 and subsequently demonstrating incompatibility of the recombinants with Flac. It is shown here that the FincA+ recombinant is incompatible with both Flac and R386 while the FincB+ recombinant is incompatible only with Flac. Also, a plasmid mutant is described that has reduced incompatibility against Flac and R386. The mutation is located on the BamHI restriction fragment that contains the FincA region. These genetic findings are consistent with the deduction of Palchaudhuri and Maas, based on heteroduplex analysis of IncFI plasmids, that placed the IncFI determinant in the 46.4–48.6F region. The findings also indicate that the FincB+ gene product, which has been implicated in negative control of F copy number, is specific for the F replicon.  相似文献   

12.
G. Bezanson   《Plasmid》1980,3(3):319-327
The kinetics of replication of the multicopy mini-R1 plasmid Rsc11, in the Escherichia coli K12 strain 1100 were determined by density-shift analysis. One generation after the shift, 7% of the plasmid population remained unreplicated, 86% had replicated once, and only 7% twice. Half a generation later the values were 4, 64, and 32%, respectively. This pattern is unlike that previously reported for the Rsc11 progenitor molecule, pKN102 (R1drd19-B2), and other multicopy plasmids, but closely resembles that of the chromosome and therefore suggests that Rsc11 copies are selected nonrandomly for replication. Another interpretation is discussed. Precursor incorporation into plasmid DNA is sharply curtailed upon transition to the stationary phase of growth. It is possible that Rsc11 replication is stringently controlled.  相似文献   

13.
J. Manis  B. Kline 《Plasmid》1978,1(4):480-491
The mini-F plasmid specifying resistance to kanamycin (Km), pML31, contains an origin of replication at kilobase coordinate 42.6 in the F DNA sequences. In previous research we found that this origin could be deleted by recombinant DNA techniques without the loss of plasmid maintenance functions. In this report we show that the deleted plasmid, designated pMF21, has normal incompatibility properties and a recA+-dependent ability to form cointegrates with an Flac plasmid. By comparison, pML31 does not form cointegrates with the Flac plasmid at a detectable frequency. The frequency for spontaneous loss of the Lac+ phenotype in strains containing pMF21:Flac cointegrates resembles that of the Flac plasmid; however, in some Lac variants the Kmr phenotype is retained. Examination of the plasmid DNA in four of these LacKmr clones revealed two with normal pMF21 plasmids and two with plasmids intermediate in size between pMF21 and the Flac.  相似文献   

14.
Summary Flac maintenance was aberrant at permissive temperature in a temperature-sensitive dnaC mutant of Salmonella typhimurium when the normally resident pLT2 plasmid was present. Flac was, however, efficiently transferred into the dnaC pLT2+ strain and the resulting Flac derivative was almost as efficient in transferring Flac as were dnaC + pLT2+ Flac strains indicating that aberrant Flac maintenance was not associated with appreciable inhibition of transfer replication. A range of F-like plasmids behaved like pLT2 in causing aberrant Flac maintenance when present in the dnaC pLT2- strain. Flac was, however, stably maintained in the dnaC strain in the absence of other plasmids. Although the F-like plasmids destabilized Flac, each was stably maintained when introduced into strain 11G dnaC pLT2+ and pLT2 was also apparently stable under these conditions. The destabilizing effect of pLT2 and other fi + plasmids was not consequent upon their inhibiting the formation of a repressible F transfer component needed for Flac replication in the dnaC strain. Incompatibility between Flac and the other plasmids induced by the dnaC lesion also appeared unlikely to be a cause of the aberrant Flac maintenance. The possibility is discussed that the initiation of Flac replication differs from that of pLT2 and the F-like plasmids with F competing less effectively than the others for the DnaC gene product.  相似文献   

15.
Summary R124 and R124/3 are R plasmids that carry the genes for two different restriction and modification systems. The phenotype of strains carrying either of these plasmids along with the F'lac + plasmid, is restriction-deficient (Res-). The Res- phenotype is not due to selection of preexisting mutants but rather to a complex mutational event caused by the F plasmid. Restriction-deficient mutants carry extensive deletions and other DNA rearrangements. Tn7 insertion is used to locate the restriction gene. Many of the Res- mutants are genetically unstable and revert at exceptionally high frequencies. Reversion is accompanied by DNA rearrangements which result in a net gain of 9 kb of DNA. F derivates of F+ which do not cause restriction-deficiency but do cause deletion were used to distinguish between the DNA rearrangements associated with restriction-deficiency and those associated with deletion. From Res+ revertants of strains carrying F'lac + and R124 or R124/3 we have isolated F plasmids that now carry the genes for the R124 or R124/3 restriction and modification systems. It is suggested that interaction between part of the F plasmid and that segment of the R plasmid which controls the switch in Res-Mod specificity which has been observed (Glover et al. 1983) is responsible for the production of restriction-deficiency.  相似文献   

16.
A small derivative of plasmid R1 was used to integratively suppress a chromosomal dnaA(Ts) mutation. The strain obtained grew normally at 42°C. The integratively suppressed strain was used as recipient for various plasmid R1 derivatives. Plasmid R1 and miniplasmid derivatives of R1 could be established in the strain that carried an integrated R1 replicon, but they were rapidly lost during growth. However, plasmids also carrying ColE1 replication functions were almost completely stably inherited. The integratively suppressed strain therefore allows the establishment of bacteria diploid with respect to plasmid R1 and forms a useful and sensitive system for studies of interaction between plasmid R1 replication functions. Several of the chimeric plasmids caused inhibition of growth at high temperatures. All plasmids that inhibited growth carried one particular PstI fragment from plasmid R1 (the PstI F fragment), and in all cases the growth inhibition could be ascribed to repression of initiation of chromosome replication at 42°C, i.e., they carry a trans-acting switch-off function. Furthermore, the analogous PstI fragments from different copy mutants of plasmid R1 were analyzed similarly, and one mutant was found to lack the switch-off function. The different chimeric plasmids were also tested for their incompatibility properties. All plasmids that carried the switch-off function (and no other plasmids) also carried R1 incompatibility gene(s). Since the PstI F fragment, which is present on all these plasmids, is very small (0.35 × 106), it is suggested that the switch-off regulation of replication (by an inhibitor), incompatibility, and copy number control are governed by the same gene.  相似文献   

17.
The Escherichia coli conjugative plasmid Flac has a restricted host range, in that transfer to Pseudomonas aeruginosa is not detectable. The molecular basis for this host-range restriction was studied by a separate comparison of the replication and conjugation systems of Flac with those of the broad host-range plasmid RK2. The origin of transfer of Flac (oriTF) was cloned onto a small RK2 replicon. The hybrid plasmid, pDG2906, could be transferred efficiently by both the Flac and RK2 conjugation systems to an E. coli recipient. The Flac conjugation system was able to transfer pDG2906 to P. aeruginosa, but only at a frequency of 10?4 of that of the RK2 conjugation system. A second hybrid plasmid, containing the replication region of Flac with the transfer region of RK2, could not be established in P. aeruginosa. These results show that Flac is able to mediate low frequency transfer to P. aeruginosa, and that the lack of replication in Pseudomonas is ultimately responsible for the restricted host range.  相似文献   

18.
Summary The miniR1-(Rsc)-plasmids which derive from the copy mutant R1drd-19B2 (pKN102) are nonconjugative extrachromosomal elements which can not be co-transferred by various transfer factors to recipient strains under standard mating conditions. The attempts to mobilize Rsc11 by F'lac lead to transconjugants carrying F'lac::Tn3 with Tn3 mainly inserted into the lac operon. In addition it can be shown that Rsc11 can become inserted as a complete unit into the transfer factor giving rise to rather unstable recombinant intermediates. Dissociation of these intermediates may lead to alterations of the original plasmids.The Tn3 part of Rsc13 can be enlarged or deleted by in vitro manipulations. In vitro insertion of EcoRI-fragments into an EcoRI+ site of Tn3 leads to new transposable units which can be transposed to the RTF part of R1. This new genetic entity can be stably integrated into the chromosome of E. coli by integrative suppression of a dnaAts-mutation.Deletions at one end or the central region of Tn3 abolish the capability of transposition. However, the Rsc-plasmids containing the deleted Tn3 can still be inserted into the transfer factor as complete units. The resulting recombinants are unstable leading after dissociation in some cases to new plasmids with altered properties.  相似文献   

19.
Selection detects mutants but does not cause mutations. Contrary to this dictum, Cairns and Foster plated a leaky lac mutant of Escherichia coli on lactose medium and saw revertant (Lac+) colonies accumulate with time above a nongrowing lawn. This result suggested that bacteria might mutagenize their own genome when growth is blocked. However, this conclusion is suspect in the light of recent evidence that revertant colonies are initiated by preexisting cells with multiple copies the conjugative F′lac plasmid, which carries the lac mutation. Some plated cells have multiple copies of the simple F′lac plasmid. This provides sufficient LacZ activity to support plasmid replication but not cell division. In nongrowing cells, repeated plasmid replication increases the likelihood of a reversion event. Reversion to lac+ triggers exponential cell growth leading to a stable Lac+ revertant colony. In 10% of these plated cells, the high-copy plasmid includes an internal tandem lac duplication, which provides even more LacZ activity—sufficient to support slow growth and formation of an unstable Lac+ colony. Cells with multiple copies of the F′lac plasmid have an increased mutation rate, because the plasmid encodes the error-prone (mutagenic) DNA polymerase, DinB. Without DinB, unstable and stable Lac+ revertant types form in equal numbers and both types arise with no mutagenesis. Amplification and selection are central to behavior of the Cairns–Foster system, whereas mutagenesis is a system-specific side effect or artifact caused by coamplification of dinB with lac. Study of this system has revealed several broadly applicable principles. In all populations, gene duplications are frequent stable genetic polymorphisms, common near-neutral mutant alleles can gain a positive phenotype when amplified under selection, and natural selection can operate without cell division when variability is generated by overreplication of local genome subregions.  相似文献   

20.
Summary The conjugative R plasmid R1drd-19, mediating antibiotic resistance to ampicillin (Ap), chloramphenicol (Cm), kanamycin (Km), streptomycin (Sm) and sulfonamides (Su) was mapped using the restriction endonucleases BamHI, HindIII, EcoRI and SalI. BamHI generates 5 fragments (A-E) with molecular weights between 46×106 dalton (representing mainly the RTF) and 0.25×106 dalton, and HindIII 8 (A-H) between 42×106 dalton (representing the main part of the RTF) and 0.1×106 dalton. EcoRI recognises 17 sites and produces fragments (A-Q) with molecular weights between 11.7 and 0.1×106 dalton. SalI yields 7 fragments (A-G) of 16.5 to 2.0×106 dalton.A physical map was constructed from fragments obtained by partial digestion of R1drd-19 with one restriction enzyme, by double and triple digestion of the DNA with two or three enzymes with and without isolation of individual bands from preparative gels. In addition the restriction patterns of several mutants of R1drd-19 were compared with it.Evidence is presented which indicates that the derivatives of R1 investigated are generated by extende deletions, namely the copy mutant pKN102 which has lost the Km resistance, R1 drd-16, which has lost all resistances other than Km and the Kms derivative of R1drd-16, which represents the pure RTF. The map of R1drd-19 is remarkably different from those of R100 and R6-5. Its molecular weight was estimated to be 62.5 Md. The circular fragment order for BamHI is: A-C-B-D-E, for HindIII: A-D-C-B-F-H-E-G, for EcoRI: A-C-K-B-F-J-O-D-H-L-G-P-Q-N-I-E-M-and for SalI A-B-C-D-G-F-E.  相似文献   

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