Construction of plasmid vectors for gene cloning in Escherichia coli and Bacillus subtilis

The construction and some properties of new hybrid plasmids which are able to replicate in both Escherichia coli and Bacillus subtilis are presented. A 5.5 Md hybrid plasmid pJP9 was constructed from pBR322 (Tc, Ap) and pUB110 (Nm) plasmids. pIM1 (7.0 Md) and pIM3 (7.7 Md) plasmids are its different erythromycin resistant derivatives. Tetracycline, ampicillin, neomycin and possibly erythromycin resistance genes are expressed in E. coli while neomycin and erythromycin resistance genes are expressed in B. subtilis. Insertional inactivation of only one gene is possible using the pJP9 plasmid as a vector in B. subtilis. However, insertional inactivation of at least two different genes can be achieved and monitored in E. coli and B. subtilis transformants in cloning experiments with PIM1 and pIM3 plasmids. Insertional inactivation of antibiotic resistance genes present in pJP9 plasmid was achieved by cloning of Streptococcus sanguis DNA fragments generated by appropriate restriction endonucleases. The pJP9 plasmid and its derivatives were found to be stable in both hosts cells.     

Use of genetic and molecular characteristics of R plasmids as an epidemiological marker in an outbreak of hospital infection

Antibiotic sensitivity of 38 strains of enteric bacteria, such as Serratia marcescens Klebsiella pneumoniae and others and Ps. aeruginosa isolated during an outbreak of meningitis in a premature infant resuscitation department was studied. It was shown that all the isolates were multiple resistant, most frequently to 7 antibiotics. All the resistance markers were transferred on conjugation, segregation of some markers being observed. Investigation of the plasmid composition of the clinical strains and transconjugants of E. coli revaled the presence of 2 plasmids with the molecular weights of 40 and 60 Md or one of them. The restriction analysis demonstrated that the plasmids with the same molecular weights isolated from different strains were identical. It was suggested that such plasmids originated from the same source and were distributed by conjugation. The possible part of R plasmids in epidemiological analysis of hospital infections is discussed: the possible part as an additional marker in determination of the infection source and the possible part through its ability to change the host cell phenotype, including the phage and bacteriocin types.     

Characterization and mobilization of nonconjugative plasmids encoding resistance to streptomycin and sulfanilamide

Most of nonconjugative streptomycin (Sm)- and sulfanilamide (Su)- resistance of clinical isolates belonging to various species of Enterobacteriaceae and Pseudomonas were encoded by an Inc Q plasmid, molecular size of which was 5.5 Md. The SmSu plasmids were efficiently mobilized by Inc P plasmids between E. coli strains. Inc I group and Inc F group plasmids could mobilize the Inc Q plasmids at lower efficiencies. The Inc Q plasmid was also mobilized to various species of Enterobacteriaceae at high frequencies without accompanying the conjugative Inc P plasmid; as a result, most of the SmSu-resistant transconjugants were nontransferable. The above results may explain the wide distribution of nonconjugative SmSu strains among clinical isolates.     

Characteristics of new pKMR-plasmids detected in natural strains of Enterobacteriaceae

pKMR-plasmids controlling the antibiotic resistance and adhesive properties were isolated from clinical strains of E. coli O26 and O124, and Sh. sonnei. Two of them, i.e. pKMR 207 and pKMR 208 were conjugative. On conjugation they jointly transferred the features of the antibiotic resistance and capacity for production of the colonization antigen. The studies on transformation of E. coli K 12 802 with the plasmid DNA of E. coli O124 showed that the antibiotic resistance and colonization properties in E. coli O124 were controlled by the nonconjugative plasmid pKMR 209. It was found that plasmids pKMR 207 and pKMR 208 had the fi(-)-phenotype. None of the plasmids allotted the host cells sensitivity to the donor specific phages of the incompatibility groups F, N, P, W, and I. Probably, the plasmids did not belong to these incompatibility groups. When the cells of E. coli K 12 802 were transformed with the plasmid DNA of the wild strain to the hemolytic strain of S. typhimurium with multiple antibiotic resistance, 3 pKMR 210 plasmids with different markers of the antibiotic resistance were detected in the transformants. One of the plasmids controlled both the drug resistance and the capacity for production of hemolysin. The ability of the detected pKMR plasmids to inhibit fertility and relation to the donor specific phages was studied.     

Mobilization of phase I plasmid in Shigella sonnei and stability of its inheritance in rough strains of Shigella and Escherichia

The plasmid pSS120, determining the synthesis of species specific I phase antigen of Shigella sonnei is mobilized for genetic transfer into E. coli K12 recipient cells with the frequency 12-41%. The frequency depends on the type of mobilized plasmid and recipient strain. The I phase antigen is normally expressed in II phase recipient cells and in E. coli cells. During mobilization pSS120 forms cointegrates representing a recombinant of mobilizing and mobilized plasmids DNA. The study of pSS120 inheritance stability has shown the plasmid to be unstable during culturing of bacteria and to be partially lost from the parent Shigella sonnei strains as well as from the "hybrid" transconjugants obtained. The 60 Md plasmid present in the donor strains of Shigella sonnei is prone to structural fragmentation particularly expressed in Shigella sonnei/E. coli hybrids.     

The R-factors of multiple antibiotic resistant faecal coliforms isolated from a domestic dog

The antibiotic resistant faecal flora of a domestic dog suffering from an acute enteric infection was examined. The flora exhibited overall resistance to a wide variety of antibiotics. However, following restoration of the animal to normal health, overall resistance to ampicillin (Ap), tetracycline (Tc), chloramphenicol (Cm) and streptomycin (Sm) was lost, although low numbers of bacteria resistant to these four antimicrobial agents could still be isolated up to one year later. A total of 11 strains were purified for further study. All 11 were positively identified as Escherichia coli and shown to be resistant to various combinations of the above antibiotics, and additionally to kanamycin (Km). Each strain harboured from one to five plasmids, although only four proved capable of transferring antibiotic resistance to Escherichia coli K-12. One of the strains was found to harbour two conjugal plasmids pNJ101 (60 Md) and pNJ102 (133 Md) which coded for resistance to Cm, Tc, Ap and Cm, Tc, Km respectively. A third plasmid pNJ103 (29 Md) remains cryptic. The possession of the two plasmids pNJ101 and pNJ102 appears to be an unstable situation as variants arose harbouring one or other of the plasmids.     

Characterization of R-plasmids in environmental isolates ofsalmonella: Host range and stability

Four environmental isolates ofSalmonella, resistant to several drugs, were examined for plasmid carriage with four different plasmid DNA isolation procedures. The method of Birnboim and Doly gave the best results. Three of the strains possessed a single plasmid with molecular weights of 60 (kanamycin resistant), 44.5 (kanamcin resistant), and 23.4 Md (ampicillin and amoxicillin resistant); the other strain (resistant to tetracycline) harbored two plasmids of 69.8 and 2.2 Md. The 69.8 Md was the one responsible for resistance. All plasmids were fi^–, and the 44.5 Md Kc^r plasmid synthesized a sex pilus type F. Some properties related to the dissemination of R-plasmids, such as host range, transfer frequencies, and in vitro stability, were studied. Plasmids generally showed a wide host range and high stability in the transconjugants tested. It could be concluded that these plasmids may be widely disseminated in the environment studied.     

Mobilization of the gonococcal 5.2 kb beta-lactamase plasmid pSJ5.2 into Escherichia coli by cointegration with several gram-conjugative plasmids

We report the mobilization by cointegration of the gonococcal 5.2 kb beta-lactamase plasmid pSJ5.2 in an Escherichia coli background. Transfer of pSJ5.2 was measured by filter mating assays with five different conjugative plasmids from Enterobacteriaceae and the gonococcal 41 kb tet(M). Plasmid pSJ5.2 was mobilized to E. coli at frequencies of 1.7x10(-6), 9.3x10(-8) and 2.7x10(-5) by the tet(M), R64 drd-33 and N3 conjugative plasmids, respectively. Mobilization of pSJ5.2 by the 41 kb tet(M) conjugative plasmid resulted in stable Amp(R) E. coli transconjugants consisting of pSJ5.2 plasmid with an insertion located in the 2.4 kb BamHI-BamHI fragment. Mobilization of pSJ5.2 by R64drd-33 and N3 conjugative plasmids involved stable cointegrates as detected by Southern Blot with a DIG-labelled PstI-digested pSJ5.2 probe. Restriction analysis of the R64::pSJ5.2 and N3::pSJ5.2 cointegrates and Southern Blot with the pSJ5.2 probe showed that cointegrates formed by deletion of DNA regions within the 1.8 kb BamHI-HindIII fragment of pSJ5.2. The plasmid thus appears to use multiple recombination mechanisms for cointegration with different conjugative plasmids. The complete nucleotide sequence of pSJ5.2 was determined, and will be a useful tool to further investigate the molecular mechanisms leading to its cointegrative transfer.     

Physicochemical properties of the pKMR plasmids controlling antibiotic resistance and the capacity to produce colonization antigen

KMR plasmids controlling antibiotic resistance and the capacity for production of the colonization antigen were identified in wild strains of E. coli (026, 0126, 0124) and S. sonnei isolated from patients with acute intestinal diseases. The strains of E. coli 026 and E. coli 0126 carried p KMR207-1 plasmid determining resistance to chloramphenicol and tetracycline and the adhesive properties. The molecular weight of the plasmid is 98 mD. The strain of S. sonnei carried p KMR 208-1 plasmid responsible for resistance to streptomycin, chloramphenicol and tetracycline and the adhesive properties. The molecular weight of this plasmid is 98 mD. The resistance to streptomycin and tetracycline and the capacity for the synthesis of the colonization antigen in E. coli 0214 was controlled by p KMR209 plasmid with the molecular weight of 2.66 mD. The restriction analysis suggests that p KMR207a-1 and p KMR 207b-1 plasmids detected in E. coli of different serotypes were identical, since they could be broken with BamH1 endonuclease into equal numbers of fragments similar by their molecular weights. p KMR207-1 and p KMR208-1 plasmids differed in their sensitivity to BamH-1 endonuclease. However, they were broken into 6 fragments similar by their molecular weights. p KMR207-1 and p KMR208-1 plasmids are probably closely related but not identical.     

Study of the transmissibility of multiple drug resistance and the capacity to ferment lactose in a clinical strain of Kl. pneumoniae]

The donor properties of K. pneumoniae PI 220 with multiple drug resistance were studied. It was shown that the above strain carried 2 plasmids, i.e. R-plasmid pPI 220 controling resistance to ampicillin, streptomycin, tetracycline, chloramphenicol, kanamycin and sulphanylamides and plasmid pPI 221 controlling lactose fermentation. Both plasmids can be transfered on conjugation to strain E. coli P678 at a temperture of 28 degrees C at a rate of 10(-5) for pPI 220 and 10(-4) for pPI 221. The drug resistance controlled by pPI 221 was transfered mainly in a "blocks" simultaneously to 6 drugs. Deletion of plasmid pPI 220 was observed rarely. The donor properties of the strain were defined by the conjugative plasmid pPI 220 controlling the self-transfer and mobilization of plasmid pPI 221 incapable of the self-transfer. E. coli P678 (pPI 220) (PPI 221) acquired the donor properties and transfered both plasmids to E. coli J62 on crossing simultaneously at a rate of 10(-2), as well as to S. typhimurium LT2 and P. rettgeri at a rate of 10(-5). In all the recipient strains studied the transfered plasmids were unstable and segregated also simultaneously at a rate being the highest for P. retgari PI 230. The clones with stable preservation of the plasmids could be obtained by selection.     

Development of a host-vector system in a Rhodococcus strain and its use for expression of the cloned nitrile hydratase gene cluster.

Two different types of plasmid were isolated from strains of Rhodococcus rhodochrous. Two plasmids, of the same type but from different strains, were combined with Escherichia coli plasmids carrying antibiotic resistance markers to develop E. coli-Rhodococcus shuttle vectors. The ampicillin and kanamycin resistance markers served for selection in Rhodococcus. Electroporation was used to introduce recombinant plasmid DNA into R. rhodochrous ATCC 12674 at a frequency of 5 x 10(7) transformants per microgram DNA. With these host-vector and transformation systems, the nitrile hydratase and amidase genes of a Rhodococcus strain were introduced into the host strain and were efficiently expressed.     

Integration of temperature-sensitive nonconjugative plasmid carrying kanamycin gene into conjugative R plasmids.

A nonconjugative R plasmid, rMS3, whose molecular weight was 2.4 X 10(7) daltons, possessed a kanamycin resistance gene and was thermosensitive in its maintenance in Escherichia coli strains. We mobilized rMS3 with a conjugative R plasmid, R100 or T-tet, and obtained cointegrates carrying all the parental resistance markers. Various markers of the cointegrates were frequently deleted by P1 transduction and the deletion patterns among the different cointegrates were differed from each other. The cointegrates were thermoresistant, but the thermosensitive replicon could be segregated from the thermoresistant cointegrate by deletion. Some cointegrates between rMS3 and T-tet showed a derepressed state of transferability because of the integration of rMS3 and T-tet showed a derepressed state of transferability because of the integration of rMS3 into the regulator gene of the transfer loci. The genome size of the cointegrate so far tested was the sum of the sizes of the parental plasmids, indicating that the whole genome of rMS3 could integrate into various sites of the conjugative plasmids R100 and T-tet.     

A simple procedure for transferring genes cloned in Escherichia coli vectors into other gram-negative bacteria: phenotypic analysis and mapping of TOL plasmid gene xylK

A simple method to transfer non-conjugative Escherichia coli plasmids to other Gram-negative bacteria and their maintenance is described. This method involves generation of inverse transposition-mediated cointegrates of the non-conjugative E. coli plasmid with a conjugative IncW broad-host-range plasmid, R388, carrying Tn10. Isolation of such cointegrates was readily effected by conjugal transfer from an E. coli donor containing the two plasmids to an E. coli recipient, with selection for transconjugants expressing a marker of the E. coli plasmid. This method is particularly useful when large series of E. coli vector-based clones need to be expressed in other Gram-negative bacteria to be functionally analysed, either by complementation or recombination. Utility of the method is shown by a functional analysis in Pseudomonas putida of pBR322 hybrid plasmids containing catabolic genes of TOL plasmid pWW0.     

杭州市淋病奈瑟菌质粒酶切图谱分析研究

目的 :了解杭州市淋病奈瑟菌质粒携带及质粒谱型分布情况。方法 :采用碱裂解法对门诊 2 0 0 0年 1月～ 2 0 0 1年 10月分离的 2 0 7株淋病奈瑟菌进行了质粒抽提及质粒谱分型研究 ,并对菌株的青霉素耐药现象和耐药性质粒的关系进行探讨。结果 :2 0 7株淋病奈瑟菌中 194株 (93 .7% )检见质粒带 ,其中含一条质粒带的 112株 (5 4.11% ) ,含两条质粒带的 12株 (5 .8% ) ,含三条带的 70株 (3 3 .82 % ) ,尚有 13株(6.2 8% )未检测到质粒。以 E.coli V5 17细菌质粒作分子量标准 ,测得这些分子量分别为 2 .6、4.5、和 2 4.5Md。质粒谱型以 2 .6 4.5 2 4.5 Md(3 3 .82 % )多见。结论 :杭州地区质粒酶切图谱的分析研究有助于淋病的治疗和防治 ,这将对该地区淋病奈瑟菌的分子流行病学调查和淋病监控提供依据     

Study of five penicillinase producing Neisseria gonorrhoeae isolated in Italy

Five penicillinase producing Neisseria gonorrhoeae (PPNG) were isolated from urethral specimens of men admitted to the "Santa Chiara" Hospital (Trento, Italy). All strains proved to be resistant to penicillin and ampicillin, and sensitive to cefuroxime, erythromycin, tetracycline, spectinomycin, nalidixic acid and ciprofloxacin. PPNG plasmid profiles showed that four of the isolates carried the 3.2 MDa "Africa" plasmid and one the 4.5 MDa "Asia" plasmid, the two well-known phenotypes reported in the USA and Europe as well as in Asian and African countries. Membrane matings were performed using N. gonorrhoeae carrying the 24.5 MDa conjugative plasmid as donors and E. coli K12 J 53 as recipient. The transfer of beta-lactamic antibiotic resistance was supported by the presence of 4.5 or 3.2 MDa plasmid bands and by beta-lactamase production in the transconjugants. Restriction analysis of Asian and African plasmids is reported.     

A plasmid cloning vector for the direct selection of strains carrying recombinant plasmids

A plasmid cloning vector with ampicillin-resistance and streptomycin-sensitivity markers is suitable for the direct selection of strains carrying recombinant plasmids. The selection for plasmid transformants utilizes their ampicillin resistance whereas selection for recombinant plasmids is based on the inactivation of the rpsL gene contained on the plasmid. When streptomycin-resistant Escherichia coli strains are used as recipients in transformation, transformants carrying the parental plasmid are phenotypically sensitive to streptomycin while those carrying hybrid plasmids are resistant to streptomycin.     

Transposon Mutagenesis and Excision of R' Plasmids by Conjugative, Chimeric Plasmid pUW942 in Extra-Slow-Growing Rhizobium japonicum Strains

Transposons Tn501 (specifying mercury resistance) and Tn7 (specifying resistance to trimethoprim and streptomycin) were introduced into extra-slow-growing Rhizobium japonicum by conjugal transfer of the 82 kilobase chimeric plasmid pUW942. Mercury-resistant transconjugants were obtained at a frequency of 10 to 10. The transfer frequency of streptomycin resistance was lower than that of mercury resistance, and Tn7 was relatively unstable. pUW942 was not maintained as an autonomously replicating plasmid in R. japonicum strains. However, some of the Hg transconjugants from the RJ19FY, RJ17W, and RJ12S strains acquired antibiotic markers of the vector plasmid pUW942. Southern hybridization of plasmid and chromosomal DNA of R. japonicum strains with P-labeled pUW942 and pAS8Rep-1, the same plasmid as pUW942 except that it does not contain Tn501, revealed the formation of cointegrates between pUW942 and the chromosome of R. japonicum. More transconjugants with only Tn501 insertions in plasmids or the chromosome were obtained in crosses with strains RJ19FY and RJ17W than with RJ12S. These retained stable Hg both in plant nodules and under nonselective in vitro growth conditions. One of the RJ19FY and two of the RJ12S Hg transconjugants with vector plasmid-chromosome cointegrates conjugally transferred plasmids of 82, 84 or 86, and 90 kilobases, respectively, into plasmidless Escherichia coli C. These plasmids strongly hybridized to pUW942 and EcoRI digests of total DNA of each respective R. japonicum strain but not to indigenous plasmid DNA of the R. japonicum strains. These R' plasmids consisted of pUW942-specific EcoRI fragments and an additional one or two new fragments derived from the R. japonicum chromosome.     

Amikacin resistance of clinical strains of Enterobacteriaceae and Pseudomonas]

Amikacin resistance was studied in 380 bacterial strains of Enterobacter, Klebsiella, Serratia, Pseudomonas and E. coli isolated in clinics of the Moscow Region. It was shown that 69 isolates were resistant to amikacin. Plasmid DNA was detected in 10 amikacin resistant isolates. Three of them belonging to Klebsiella and 3 belonging to E. coli contained plasmids controlling resistance to amikacin. The plasmids isolated from the strains of Klebsiella determined as well resistance to kanamycin and streptomycin but did not control resistance to sisomicin, tobramycin and gentamicin while the plasmids isolated from the strains of E. coli determined resistance to amikacin, kanamycin, gentamicin, tobramycin and sisomicin.     

Characterization of large plasmids encoding resistance to toxic heavy metals in Salmonella abortus equi

Salmonella abortus equi vaccine strains were found to be resistant to high levels of toxic heavy metals--arsenic, chromium, cadmium, and mercury. The two strains 157 and 158 were resistant to ampicillin also. Curing of these strains resulted in loss of one or more resistance marker indicating plasmid borne resistance. Plasmid profile of strain 157 showed presence of three plasmids of 85, 54, and 0.1 Kb, whereas 158 strain showed presence of 85 Kb and 2 Kb plasmids. Plasmids were isolated from strain 157 and introduced into E. coli DH5alpha with a transformation efficiency of 2 x 10(3) transformants/microg DNA. Interestingly the transformants were resistant to antibiotics, heavy metals (As, Cr, Cd, Hg) and was also able to utilize citrate, a trait specific to Salmonella species. We report and establish for the first time the transferable large plasmids encoding resistance to various heavy metals, antibiotics and biochemical nature of S. abortus equi.     

Plasmid characteristics of Salmonella strains of various origins

Salmonella antibiotic-resistant strains, isolated from patients with hospital infections and from various environmental objects, showed lower virulence than antibiotic-sensitive strains in experiments on mice infected by intraperitoneal and enteral routes. Salmonella strains, sensitive to antimicrobial preparations, contained 1-2 plasmids, while those with multiple drug resistance contained 3-10 plasmids varying in their molecular weight. All these strains, with the exception of one laboratory strain, carried a plasmid with a molecular weight of about 60 Md. A decrease in the virulence of Salmonella strains, carrying R-plasmid, with respect to mice, their natural host, in experimental infection by the above-mentioned routes was probably unrelated to the loss of this plasmid. 80% of Salmonella strains with multiple resistance to antibiotics yielded positive results in the keratoconjunctival and conjunctival tests as compared with 42% of sensitive strains. These data suggest that Salmonella strains, carrying R-plasmid, retained pronounced capacity for local colonization.