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1.
G Skogman  J Nilsson  P Gustafsson 《Gene》1983,23(2):105-115
The stability of different derivatives of plasmid vectors pBR322 and pACYC184 carrying the tryptophan operon of Escherichia coli was monitored in various media. It was found that in the absence of any special selective pressure, all plasmids were lost from the culture. The stability varied depending both on the orientation of the inserted tryptophan fragment and the growth media used. The pBR322::trp+ plasmids were lost at an average frequency of 0.3 to 0.8% per cell generation, while the pACYC184::trp+ plasmid was lost at a rate higher than 5%. In all cases the whole plasmid was lost at a rate higher than 5%. In all cases the whole plasmid was lost, indicating a high stability of the plasmid::cloned DNA as such. To increase the stability of the cloning vectors, the partition locus of plasmid pSC101 was added to both the pBR322::trp+ and pACYC184::trp+ plasmids. The addition of this gene increased the replicon stability at least 3- to 10-fold, with the pBR322::trp+-par+ plasmids being the most stable. Also in this case, the stability was dependent on the plasmid type and on the growth medium. In no case was there a discoordinate loss of the antibiotic-resistance and tryptophan genes from the vectors.  相似文献   

2.
The site-specific deletion in plasmid pBR322   总被引:3,自引:0,他引:3  
The formation of a deletion derivative of plasmid pBR322, designated pBR322 delta 1, was observed during cloning of various eukaryotic DNAs, when the BamHI site of the plasmid vector was used for construction of the recombinant molecules. The restriction analysis of six independently isolated pBR322 delta 1 plasmids allowed establishment of their complete identity. Similar deletion derivatives were also formed as a result of transformation of Escherichia coli cells by the linear form of vector pBR322 produced by BamHI cleavage, but not by SalI or HindIII. The endpoints of the deletion in one of the pBR322 delta 1 plasmids occurred at positions 375 and 16666 bp from the EcoRI site, as determined by sequence analysis. Formation of pBR322 delta 1 is most probably due to site-specific recombination between the sequence in the 1666-1670 bp region and the BamHI end of the linear pBR322 molecule. THe deletion was not controlled by the recA system of the host bacteria.  相似文献   

3.
4.
Transmission of ColE1/pMB1-derived plasmids, such as pBR322, from Escherichia coli donor strains was shown to be an efficient way to introduce these plasmids into Agrobacterium. This was accomplished by using E. coli carrying the helper plasmids pGJ28 and R64drd11 which provide the ColE1 mob functions and tra functions, respectively. For example, the broad host-range replication plasmid, pGV1150, a co-integrate plasmid between pBR322 and the W-type mini-Sa plasmid, pGV1106, was transmitted from E. coli to A. tumefaciens with a transfer frequency of 4.5 x 10(-3). As pBR322 clones containing pTiC58 fragments were unable to replicate in Agrobacterium, these clones were found in Agrobacterium only if the acceptor carried a Ti plasmid, thus allowing a co-integration of the pBR322 clones with the Ti plasmid by homology recombination. These observations were used to develop an efficient method for site-specific mutagenesis of the Ti plasmids. pTiC58 fragnents, cloned in pBR322, were mutagenized in vitro and transformed into E. coli. The mutant clones were transmitted from an E. coli donor strain containing pGJ28 and R64drd11 to an Agrobacterium containing a target Ti plasmid. Selecting for stable transfer of the mutant clone utilizing its antibiotic resistance marker(s) gave exconjugants that already contained a co-integrate plasmid between the mutant clone and the Ti plasmid. A second recombination can dissociate the co-integrate plasmid into the desired mutant Ti plasmid and a non-replicating plasmid formed by the vector plasmid pBR322 and the target Ti fragment. These second recombinants lose the second plasmid and they are identified by screening for the appropriate marker combination.  相似文献   

5.
L Boe  K Gerdes    S Molin 《Journal of bacteriology》1987,169(10):4646-4650
Plasmid stabilization mediated by the parA+ and parB+ genes of the R1 plasmid and the ccd+ and sop+ genes of the F plasmid was tested on a mini-R1 plasmid and a pBR322 plasmid derivative. The mini-R1 plasmid is thought to be unstably inherited owing to a low copy number and to random segregation of the plasmid at cell division, whereas cells harboring the pBR322 derivative used in this work are lost through competition with plasmid-free cells, mainly as a result of the shorter generation time of cells without plasmids. The pBR322 derivative carries a fusion between part of the atp operon of Escherichia coli and the bacteriophage lambda pR promoter, and the cI857 repressor gene. The insertion of sop+ from the F plasmid or parB+ from the R1 plasmid reduced the loss frequency by a factor of 10(3) for the pBR322 derivative and by at least a factor of 10(2) for the mini-R1 plasmid. Insertion of parA+ from the R1 plasmid decreased the loss frequency of the pBR322 derivative by a factor of 10 and that of the mini-R1 plasmid by a factor of 50. When ccd+ from the F plasmid was inserted, the loss frequency of the pBR322 derivative was decreased by a factor of 10, but it had only a marginal effect on the stability of the mini-R1 plasmid. In no case was any significant structural instability of the plasmids observed.  相似文献   

6.
When E. coli was transformed with linearized pBR322 DNA, many transformants contained recircularized plasmids bearing deletions and other rearrangements. Most aberrant molecules were less than monomeric length and had lost the restriction site used for linearization, with the deleted region extending mono- (type Ia) or bi-directionally (type Ib). Type II deletants were greater than monomeric but less than dimeric and contained the pBR322 sequence in direct repeat with deletion at one or both junctions (type IIa) or in inverted repeat with loss of sequence at both junctions (type IIb). Type III deletants were greater than dimeric but less than trimeric, consisting of pBR322 sequences in both direct and inverse repeat with deletions at two or more junctions. Transformation frequencies for linear DNA were drastically reduced in xth-1- bacteria with type IIb deletants predominating in transformants. This indicates that exonuclease III is important for perfect recyclization of plasmids and the generation of type I deletants. In vivo recyclization of in vitro ligation products explains many of the aberrant DNA molecules that are encountered during gene cloning.  相似文献   

7.
8.
Stability of pBR322 and pBR327 plasmids was studied. Plasmid-containing Escherichia coli strains were grown in liquid growth medium without selection pressure. Plasmid pBR327 was shown to be more stable in E. coli CSH54 cells than pBR322. Essential heterogenity of individual plasmid-containing clones was recognized by the maintenance stability of plasmid DNA. The indicated clones with high stability failed to be cured from pBR327 plasmid by means of acridine orange. High stability of plasmid maintenance and the failure to cure cells containing this plasmid are suggested to correlate with and to be essentially determined by the cell functions.  相似文献   

9.
Maintenance of plasmids pBR322 and pUC8 in Escherichia coli that was nonculturable after exposure to seawater was studied. E. coli JM83 and JM101, which contained plasmids pBR322 and pUC8, respectively, were placed in sterile artificial seawater for 21 days. Culturability was determined by plating on both nonselective and selective agar, and plasmid maintenance was monitored by direct isolation of plasmid nucleic acid from bacteria collected on Sterivex filters. E. coli JM83 became nonculturable after incubation for 6 days in seawater yet maintained plasmid pBR322 for the entire period of the study, i.e., 21 days. E. coli JM101 was nonculturable after incubation in seawater for 21 days and also maintained plasmid pUC8 throughout the duration of the microcosm experiment. Direct counts of bacterial cells did not change significantly during exposure to seawater, even though plate counts yielded no viable (i.e., platable) cells. We concluded that E. coli cells are capable of maintaining high-copy-number plasmids, even when no longer culturable, after exposure to the estuarine or marine environment.  相似文献   

10.
Replication of the miniF plasmid pML31 was examined during the division cycle of Escherichia coli growing with doubling times between 40 and 90 min at 37 degrees C and compared to the replication of plasmid pBR322 and the minichromosome pAL70. The replication pattern of pML31 was indistinguishable from that of pBR322 at all growth rates and very different from the cell-cycle-specific replication of the minichromosome. It is concluded that both pML31 and pBR322 plasmids can replicate at all stages of the division cycle, with a probability of replication that increases gradually, but perhaps not exponentially, during the cycle. In contrast, the modes of segregation of pML31 and pBR322 plasmids into daughter cells at division appeared to differ, raising the possibility that pML31 may segregate in a nonrandom fashion similar to that of chromosomes and minichromosomes.  相似文献   

11.
The abilities of three Escherichia coli strains with thermosensitive dnaG alleles to maintain plasmids pSC101 or pBR322 or an RP4 derivative were studied at elevated growth temperatures. Under these conditions, pSC101 segregated from cells to a greater extent than did pBR322. No segregation of the primase-encoding RP4 derivative was observed.  相似文献   

12.
Maintenance of plasmids pBR322 and pUC8 in Escherichia coli that was nonculturable after exposure to seawater was studied. E. coli JM83 and JM101, which contained plasmids pBR322 and pUC8, respectively, were placed in sterile artificial seawater for 21 days. Culturability was determined by plating on both nonselective and selective agar, and plasmid maintenance was monitored by direct isolation of plasmid nucleic acid from bacteria collected on Sterivex filters. E. coli JM83 became nonculturable after incubation for 6 days in seawater yet maintained plasmid pBR322 for the entire period of the study, i.e., 21 days. E. coli JM101 was nonculturable after incubation in seawater for 21 days and also maintained plasmid pUC8 throughout the duration of the microcosm experiment. Direct counts of bacterial cells did not change significantly during exposure to seawater, even though plate counts yielded no viable (i.e., platable) cells. We concluded that E. coli cells are capable of maintaining high-copy-number plasmids, even when no longer culturable, after exposure to the estuarine or marine environment.  相似文献   

13.
Escherichia coli plasmids pBR313 and pBR322 were transduced by phage M13 with low efficiency (10(-8) transductants/phage). Hybrid plasmids pHV12 or pHV33, composed of Staphylococcus aureus plasmid pC194 and pBR313 or pBR322, respectively, were transduced much more efficiently (10(-4) transductants/phage). Inactivation of either of the two zones necessary for pC194 replication, one coding for a protein, the other not, reduced the transforming efficiency of hybrids to the level of pBR322. Activity of the pC194 replication region was not necessary for the formation of chimeras between M13 and the transduced plasmid in the donor cells, but rather for the establishment of the plasmid in the recipient cells.  相似文献   

14.
The exposure of plasmid pUC18 and pBR322 DNA to high hydrostatic pressure increased the ability of plasmids to transform competent Escherichia coli cells. For pUC18 plasmid, a pressure of 400 MPa, and for pBR322, a pressure of 200 MPa was found to provide the highest transformation efficiency. The DNA duplexes of the two plasmids were found to be the most stable for melting conditions at these pressures. At pressures higher than these, both the stability of the duplex DNA and the transformation efficiency were affected. The stabilizing effect of high hydrostatic pressure on the hydrogen bond may be responsible for the observed increase in transformation efficiency of the pressure-exposed plasmid DNA. The possibility of pressure-induced changes in the structure and conformation of DNA was studied using various techniques. In agarose gel electrophoresis, pressure-treated plasmids (pUC18 at 400 MPa and pBR322 at 200 MPa) consistently showed visibly distinct higher mobility compared to untreated plasmids. Pressure-treated pUC18 as well as pBR322 DNA showed significant reduction in ethidium bromide binding as is evident from the reduced intensity of fluorescence of the dye bound pressure-treated DNA. Spectroscopic studies using circular dichroism and Fourier transform infrared (FTIR) spectroscopy also showed significant differences in the absorption profiles of pressure-treated plasmids as compared to an untreated control. These studies revealed that the pressure-induced changes in the conformation of these DNAs may be responsible for the observed increase in the transformation ability of the plasmids. On the other hand, the exposure of competent cells of E. coli to a high hydrostatic pressure of 50 MPa not only reduced their colony-forming ability but also drastically reduced their ability to take up plasmid DNA.  相似文献   

15.
A 4.84-kilobase-pair plasmid was isolated from Proteus vulgaris (ATCC 13315) and cloned into the plasmid vector pBR322. Plasmid pBR322 contains substrate sites for the restriction endonucleases PvuI and PvuII. The recombinant plasmids were resistant to in vitro cleavage by PvuII but not PvuI endonuclease and were found to cause production of PvuII endonuclease or methylase activity or both in Escherichia coli HB101. The approximate endonuclease and methylase gene boundaries were determined through subcloning, Bal 31 resection, insertional inactivation, DNA-dependent translation, and partial DNA sequencing. The two genes are adjacent and appear to be divergently transcribed. Most E. coli strains tested were poorly transformed by the recombinant plasmids, and this was shown by subcloning and insertional inactivation to be due to the PvuII methylase gene. At a low frequency, stable methylase-producing transformants of a methylase-sensitive strain were obtained, and efficiently transformed cell mutants were isolated from them.  相似文献   

16.
Leucine and histidine biosynthetic genes from Streptomyces rochei HP1 that complemented auxotrophic mutations in S. lividans TK54 were cloned in pIJ61. DNA from one leucine recombinant plasmid was subcloned into pBR322. From the latter, a recombinant plasmid was obtained that complemented the leuA mutation in Escherichia coli CV512 but not other leucine markers in E. coli. Analysis of this and several subclones, including mutant plasmids constructed in vitro, established that the cloned S. rochei gene was expressed in E. coli from the tetracycline promoter of pBR322 to produce a polypeptide of 67 kDa; the corresponding coding region was shown to be within a 1.7 kbp DNA fragment. Blot hybridization revealed corresponding homologous genes in several other streptomycetes.  相似文献   

17.
alpha-Santonin, a compound extracted from the flower heads of Arthemisia maritima plant, was effective in elimination of small, multicopy, relaxed plasmids (pBR322 and pBR329 with CoLE1 origin of replication in Escherichia coli, whereas plasmids of IncF1, H1 and X group were totally refractory under similar conditions, suggesting that this agent was specific in curing the CoLE1 group of plasmids.  相似文献   

18.
Replication region of bacteriophage lambda DNA was cloned into pBR322 plasmid by the use of two restriction enzymes--PstI and HindIII. The restriction analysis of four obtained plasmids revealed that lambda DNA was cloned in both orientations. Recombinant plasmids were transferred to the minicell-producing strain of E. coli and synthesis of the plasmid-mediated proteins was analysed by polyacrylamide-gel electrophoresis. All four recombinant plasmids produced lambda DNA replication proteins pO and pP as well as some proteins specific for pBR322. The orientation of cloned fragment did not affect the synthesis of lambda DNA replication proteins.  相似文献   

19.
The lagging strand DNA synthesis of the Escherichia coli bacterial chromosome and plasmids is thought to be initiated by the mobile promotor, the primosome. This primosome is assembled at a specific site on single-stranded DNA. This process is initiated by the interaction of one of the at least seven components, the n' protein, with this site. Indeed n' protein activator sites are found in the plasmids Col E1 and pBR322. To investigate the in vivo function of these n' protein sites, deletion derivates of pBR322 were constructed in which the n' protein sites are removed. The deletion plasmids show no change in stability and only threefold reduction in copy number compared to pBR322. Using a transduction system for single-stranded plasmid DNA it was shown that no other specific initiation signals for lagging strand DNA synthesis were present in the deletion plasmids. It was concluded that the n' protein activator sites in pBR322 are not essential for its DNA replication in vivo.  相似文献   

20.
ArgA and argECBH genes of Escherichia coli K-12 were cloned on the pBR322 vector. Restriction maps of the recombinant plasmids were constructed. Deletion mutants of these recombinant plasmids, retaining the functional argA and argE genes, were obtained using different restriction enzymes. All of the recombinant derivatives have the replication properties of the pBR322 vector.  相似文献   

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