Characterization of the plasmids comprising the “R Factor” R5 and their relationships to other R plasmids

The “R factor” R5 confers resistance to tetracycline (Tc), streptomycin (Sm) and spectinomycin (Sp), chloramphenicol (Cm), sulfonamides (Su), kanamycin (Km), and mercuric ion (Mer). This phenotype is mediated by the presence of two R plasmids: pMH1 and pMH2, having approximate weights of 18.5 and 62 megadaltons (Mdal), respectively. pMH1 encodes Sm, Su, Cm, Mer, and Km resistance, and is nonconjugative. pMH2 confers Sm, Su, Cm, Mer, and Tc resistance, is conjugative, and belongs to the FII incompatibility group. NR79 is a 63-Mdal R plasmid encoding the same resistances as “R5,” and was derived from the same geographical source. It belongs to the FII incompatibility group and is conjugative. Analysis of restriction endonuclease digestion patterns and polynucleotide sequence homologies indicate that pMH1, pMH2, and NR79 are closely related. In addition, pMH2 and NR79 exhibit nearly complete homology to R100. Restriction endonuclease maps and resistance gene locations for pMH1, pMH2, and NR79 have been derived and a model for the evolutionary relationships of these plasmids is presented.     

Comparative study of non-conjugative R-plasmids from enterobacteria and Pseudomonas aeruginosa

Nonconjugative R-plasmids pBS76 and pBS94 (Sm Su), pBS95 and pBS96 (Sm Su Ap) isolated from clinical strains of Pseudomonas aeruginosa and plasmids pKMR281-pKMN284 (Sm Su), pKMR285-pKMR286 (Sm Su Tc) isolated from clinical strains of enterobacteria have been studied. Restriction maps of these plasmids are presented in the paper with some of plasmid genes for antibiotic resistance localized on them. The resistance determinants of plasmids pBS95 and pBS96 are shown to be included in transposon Tn3612 analogous to Tn3. Plasmids pBS76, pBS94-96 are of the wide host range and belong to incompatibility group P4 (IncQ). Plasmids pKMR281-pKMR286 are mutually incompatible and share the conspicuous DNA homology. They are inherited only by enterobacteria and are compatible with IncQ plasmids but in contrast to them are mobilized by RP4 plasmid with lower frequency.     

Plasmids and transposable elements in Salmonella wien.

The plasmids from six clinical strains of Salmonella wien have been characterized. All the S. wien strains were found to carry three types of plasmids: an IncFI R-Tc Cm Km Ap (resistance to tetracycline, chloramphenicol, kanamycin, and ampicillin) plasmid, either conjugative or nonconjugative, of large size (90 to 100 megadaltons); an R-Ap Su Sm (resistance to ampicillin, sulfonamide, and streptomycin) plasmid of 9 megadaltons; and a very small (1.4 megadaltons) cryptic plasmid. The characteristics of conjugative R plasmids, recombinant between F'lac pro and the FI nonconjugative plasmid, indicated that regions coding for the donor phenotype were present on this plasmid. The molecular and genetic features of the R plasmids were very close to those described for the R plasmids isolated from S. wien strains of different origin. This fact supported the hypothesis of a clonal distribution of this serotype in Algeria and Europe. The analysis used to identify transposable elements showed the presence of only TnA elements, which were located on both the R-Tc Cm Km Ap and R-Ap Su Sm plasmids. They contained the structural gene for a TEM-type beta-lactamase and had translocation properties analogous to those reported for other TnA's.     

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.     

Salmonella typhimurium LT2 mutation affecting the deletion of resistance determinants on R plasmids.

Plasmid Rms312, specifying resistance to tetracycline (Tc), chloramphenicol (Cm), streptomycin (Sm), sulfonamide (Su), and mercury chloride (Mer), deletes both Tc and Cm Sm Su Mer determinants at a high frequency in Salmonella typhimurium LT2. S. typhimurium mutants that were stable carriers of Rms312 were isolated by alternate culture of R-bearing cells in a medium containing either tetracycline or chloramphenicol. In one of these mutants the deletion frequency of drug resistance determinants was decreased by about 100-fold not only Rms312, but also in R100, R1, and R6-5. This mutation caused a slight reduction of ultraviolet resistance but did not affect generalized genetic recombination, indicating that the mutation is different from recA. The mutation, designated dor (deletion of r-determinants), was mapped to a position near 57 units in the new linkage map of S. typhimurijm LT2 (K. E. Sanderson and P. E. Hartman, Microbiol. Rev. 42:471-519, 1978). The dor mutation had no effect on IS1-mediated illegitimate deletion, indicating that the dor mutation is different from the del mutation described by Nevers and Saedler (P. Nevers and H. Saedler, Mol. Gen. Genet. 160:209-214, 1978).     

An explanation for the apparent host specificity of Pseudomonas plasmid R91 expression.

Pseudomonas aeruginosa strain 9169 has been reported to contain a plasmid that expresses resistance to carbenicillin (Cb), kanamycin (Km), and tetracycline (Tc) in Escherichia coli but resistance only to Cb in certain Pseudomonas recipients. The triply resistant plasmid in E. coli belonged to incompatibility (Inc) group P or P-1, whereas the singly resistant plasmid in P. aeruginosa was compatible with IncP-1 plasmids and other plasmids of established Inc specificity but incompatible with plasmid pSR1 that is here used to define a new Pseudomonas Inc group P-10. Additional physical and genetic studies showed that strain 9169 contained not one but two plasmids: IncP-1 plasmid R91a, determining the Cb Km Tc phenotype, and IncP-10 plasmid R91, determining Cb that differed in molecular weight and in EcoRI and BamHI restriction endonuclease recognition sites. Plasmid multiplicity rather than host effects on plasmid gene expression can account for differences in the phenotype of strain 9169 transconjugants to E. coli and P. aeruginosa.     

Location of an ampicillin resistance transposon, Tn1701, in a group of small, nontransferring plasmids.

By restriction endonuclease cleavage mapping and electron microscopic examination of heteroduplexes, we have identified an ampicillin resistance determinant transposon, designated Tn1701, in a group of small, nontransferring plasmids which confer resistance to ampicillin (Ap), sulfonamide (Su), and streptomycin (Sm). Plasmid NTP1, which mediates Ap resistance, contains Tn1701. Recombinant plasmids NTP3 (Ap Su) and NTP4 (Ap Su Sm) contain Tn1701, indicating that they were derived by transposition of Tn1701 from NTP1 to an unrelated plasmid, NTP2 (Su Sm). The transposon Tn1701 is very similar to the known ampicillin resistance transposons Tn1, Tn2, and Tn3 in its size (3.2 x 10(6) daltons), base sequence homology observed by heteroduplex formation, restriction endonuclease cleavage sites, and possession of a short inverted repeat sequence at both ends. Like the other TnA elements, Tn1701 also specifies a type TEM beta-lactamase.     

Drug resistance of the causative agent of Grigo'rev-Shiga dysentery (Shigella dysenteriae 1)isolated in the USSR

Forty strains of S. dysenteriae 1 isolated in the USSR within 1986-1988 were tested for their resistance to 11 antibacterial drugs. It was shown that 92.5-97.5 per cent of the isolates were resistant to chloramphenicol (Cm) and tetracycline (Tc), 22.5 per cent to streptomycin (Sm), 17.5 per cent to nalidixic acid (Nal) and 10 per cent to ampicillin (Ap) and polymyxin (Pm). Resistance to Cm Tc (51.4 per cent) and Cm Tc Nal (13.5 per cent) represented the predominating phenotype. 35 per cent of the strains carried conjugative R plasmids. In the majority of the cases, the determinants of resistance to Cm and Tc were transferred, which must define the high frequency of the strains resistant to Cm and Tc. All the tested strains were sensitive to gentamicin, neomycin, rifampicin, cefamezin and ciprofloxacin. Since the strains of S. dysenteriae 1 proved to be highly sensitive to the tested drugs it appeared possible to consider them as the drugs of choice in etiotropic therapy of patients with dysentery caused by the pathogens of the Grigoryev-Shiga group.     

Characterization and construction of molecular cloning vehicles within Staphylococcus aureus.

Four chloramphenicol resistance (Cm) and four tetracycline resistance (Tc) plasmids from Staphylococcus aureus were characterized by restriction endonuclease mapping. All four Tc plasmids had molecular masses of 2.9 megadaltons (Mdaltons) and indistinguishable responses to seven different restriction endonucleases. The four Cm plasmids (pCW6, pCW7, pCW8, and pC221) had molecular masses of 2.6, 2.8, 1.9, and 2.9 Mdaltons, respectively. The four Cm plasmids also differed both in the level of resistance to Cm and in susceptibility to retriction endonucleases. Single restriction endonuclease sites contained within each plasmid included the following: in pCW6 for HindIII, XbaI, HpaII, and BstEII; in pCW7 for HindIII, BstEII, BglII, HaeIII, and HpaII; in pCW8 for HindIII, HaeIII, and HpaII; in pC221 for HindIII, BstEII, and EcoRI. The molecular cloning capabilities of pCW8 and pC221 were determined. Cm and erythromycin resistance (Em) recombinant plasmids pCW12, PCW13, and pCW14 were constructed and used to transform S. aureus 8325-4. A 2.8-Mdalton HindIII fragment from plasmid pI258 was found to encode Em resistance and contain single sites for the retriction endonucleases BglII, PstI, HaeIII, and HpaII. The largest EcoRI fragment (8 Mdaltons) from pI258 contained the HindIII fragment encoding Em resistance intact. Cloning of DNA into the BglII site of pCW14 did not alter Em resistance. Cloning of DNA into the HindIII site of pCW8 and the HindIII and EcoRI sites of pC221 did not disrupt either plasmid replication of Cm resistance.     

New shuttle-type vectors for cloning in Escherichia coli and Agrobacterium tumefaciens

The vectors capable of replication in Escherichia coli and Agrobacterium tumefaciens have been constructed on the basis of the plasmid pUB5502. The constructed vectors pVA12, pVA12-2, pVA12-4 contain the mini-replicon and trimethoprim resistance gene (Tp) of a broad host-range plasmid R388 (IncW). The pVA12 vector (8.8 kb) has been constructed by insertion of a kanamycin resistance gene (Km) from the plasmid pUC-4K into a Psti site. It possesses 7 unique restriction sites for XhoI, SmaI, PvuI, PvuII, HindIII, EcoRI, BamHI and the markers for kanamycin and trimethoprim resistance (Km and Tp). The pVA12-2 and pVA12-4 vectors were obtained as a result of changing of the PvuII-EcoI fragment of pVA12 carrying the Tp gene for the PvuII-EcoRI fragment of pBR322 carrying the Tc gene. These plasmids have the same size of 9.7 kb and 8 unique sites for restriction endonucleases XhoI, SmaI, PvuI, PvuII, EcoRI, EcoRV, SalI, BalI and Km and Tc genes. No difference has been registered between the two plasmids by restriction analysis, but pVA12-4 has the dramatically increased copy number in Escherichia coli cells. All three vectors are transferable to Agrobacterium tumefaciens with the same frequencies by transformation or conjugation and do not affect the oncogenicity of pTi.     

Reversible translocation of antibiotic resistance determinants in Salmonella ordonez.

Summary Salmonella ordonez (BM 2000) codes for kanamycin (Km, aphA), ampicillin (Ap), streptomycin (SmSp: aadA and Sm: aphC), chloramphenicol (Cm), tetracycline (Tc) and sulfornamide (Su) resistances and for production of colicin Ib (Cib). Genetical analysis by incompatibility testing, conjugation, transformation and physical studies using electron microscopy, agarose gel electrophoresis, led us to associate the Km and Cib characters to a 98.7 kilobase (kb) IncII plasmid (pIP565), and the Sm (aphC) and Su determinants to a 8.3 kb plasmid (pIP605). The ApCmSmSp(aadA)SuTc determinants were not associated in BM2000 S. ordonez with a plasmid structure. Following conjugation of S. ordonez to E. coli, the ApCmSmSpSuTc determinants were found stably associated with a single plasmid structure (pIP173, 127.5 kb) belonging to IncII group. Agarose gel electrophoresis of plasmid DNA restriction endonuclease digests and electron microscopy heteroduplex analysis showed that the acquisition of the ApCmSmSpSuTc determinants resulted from the insertion into pIP565 of a 28.8 kb DNA sequence. This sequence coding for ApCmSmSpSuTc resistances in S. ordonez could be translocated either to pIP565 plasmid or to several IncII plasmids but never to plasmids belonging to IncW, IncP or IncFII, suggesting the existence of specific sequences on the IncII receptor plasmids. Mereover, R-determinants were translocated back en bloc from pIP173 to the chromosome of a susceptible S. ordonez. The results were consistent with the presence in BM2000 S. ordonez chromosomal DNA of an integrated translocatable sequence encoding ApCmSmSpSuTc resistances. Such a structural association could account for the stability of these resistances in the Salmonella ordonez serotype.     

R factors of pathogenic strains of Escherichia coli isolated from infant diarrhoea

Several drug resistance patterns were determined in 170 pathogenic strains of E. coli isolated in 6 Polish towns from infant diarrhoea. The most frequent were strains resistant to 5 different drugs: ampicillin, tetracycline, chloramphenicol, streptomycin and sulfonamide. Conjugative R factors of 30 strains of the same resistance pattern (Ap Tc Cm Sm Su) were characterised by determining their Fi(F) character, incompatibility and molecular weight.     

Conjugative transfer of multiple antibiotic resistance markers in Streptococcus pneumoniae.

Two antibiotic-resistant isolates of Streptococcus pneumoniae were investigated for conjugative transfer of their drug resistance markers into streptococcal (groups B and D) and pneumococcal (encapsulated and non-encapsulataed) recipients. Of these, 7 wild-type donor pneumococci transferred all their resistance markers (except Pc [penicillin], Su [sulfonamide], and Tp [trimethoprim]) into group D Streptococcus and non-encapsulated S. pneumoniae recipients at a low frequency (10(-5) to 10(-6)). The resistance markers transferred were Tc (tetracycline); Tc and Cm (chloramphenicol); Tc and MLS (macrolides, lincosamides, and streptogramin B); Tc, MLS, Km (kanamycin), and Cm. The transconjugants obtained retransferred their resistance markers into appropriate streptococcal or pneumococcal recipients or both. The resistance markers of streptococcal transconjugants could not be cured by chemical agents. All attempts to detect extra-chromosomal deoxyribonucleic acid from pneumococcal or streptococcal transconjugants were unsuccessful. The molecular weight of a streptococcal conjugative R plasmid (pIP501) was investigated after transfer into the non-encapsulated S. pneumoniae recipient and was found to be similar to that of the wild-type group B Streptococcus host (20 x 10(6)).     

Plasmid-Mediated Sulfanilamide Resistance

Dihydropteroate synthetase (DHPS) is specified by a substrain of Escherichia coli K12, ML1410. This enzyme activity is inhibited by sulfanilamides (Sa) and is known to be heat-stable, i.e., an Sa-sensitive normal enzyme. Another DHPS activity specified by E. coli ML1410 carrying drug resistance plasmids is Sa-resistant but heat-sensitive, i.e., an Sa-resistant enzyme. Most plasmids encoding single Sa or double (Sa. Tc or Sa. Sm) (Tc, tetracycline; Sm, streptomycin) resistance mediate the formation of this type of DHPS. Therefore, E. coli carrying these plasmids becomes diploid for DHPS, i.e., an Sa-resistant and an Sa-sensitive normal enzyme. The biochemical mechanism of Sa resistance mediated by plasmids encoding triple (Cm.Sm.Sa; Tc.Sm.Sa) and quadruple (Cm.Tc.Sm.Sa) resistance is not due to the formation of an altered DHPS but probably due to the decrease in permeation of the drug into the cell. The evolutionary process of the formation of Sa-resistance determinants on plasmids is discussed based on the presence of two types of Sa resistance mechanism.     

Fecal coliforms in sewage. II. Transfer of markers and the presence of plasmids

The transference of the genetic markers and the presence of DNA plasmidial in 240 cultures of Escherichia coli was investigated. The strains were originated from Waste Treatment Plant (inffluent and effluents) located in Ilha do Governador, Rio de Janeiro. By conjugation analysis, E. coli K 12 allowed the isolation of the transconjugants resistant to antibiotics Su, Sm, Tc, Cm, Ap; heavy metals (Cu, Hg and Zn) and colicinogenic factors (Ia, Ib and V) mainly in coliforms isolated Cm and Ap from the terminals of the treatment plant. The percentual distribution of the plasmids was prevalent in the cultures of E. coli originated from material collected in the effluents and reached a rate higher than 65%.     

Artificial Tn2551 transposon with replicative properties

A hybrid plasmid, pBE10 was constructed. It consists of DNAs of RSF2124 (ColE1 :: Tn3) plasmid and pUB110 plasmid of Staphylococcus aureus. The latter can be stably maintained in Bacillus subtilis. BamHI cleaved pUB110 was introduced into the BamHI site of transposon Tn3 and the resulting enlarged Tn3 (Tn2551) was transposed from pBE10 onto phage lambda and than to pMB9 (Tc) and RSF1010(Sm Su) plasmids. Restriction and heteroduplex analysis of pMB9 :: Tn2551(pBE21) and RSF1010 :: :: TN2551(pBE32) was carried out. Plasmids pBE10, pBE21 and pBE32 demonstrated some kind of molecular instability when introduced by transformation into Bacillus subtilis.     

Molecular epidemiology of plasmid patterns in Shigella dysenteriae type I obtained from an outbreak in West Bengal (India)

Abstract Multiple antibiotic-resistant Shigella dysenteriae type 1 isolates from a recent epidemic in West Bengal (India) showed identical plasmid patterns. All isolates were resistant to ampicillin (Am), chloramphenicol (Cm), tetracycline (Tc), streptomycin (Sm) and trimethoprim (Tp) and contained 6 plasmids, ranging from 2.5–120 kb. The Am resistance determinant was located on the 120 kb plasmid. This plasmid was unstable when the S. dysenteriae strains were grown above 37°C. The Bangladesh strains of S. dysenteriae type 1 showed identical plasmid patterns, except that many isolates were Am-sensitive and lacked the 120 kb plasmid. In strains from both Bangladesh and West Bengal, predominantly group-B plasmids conferred resistance to Cm and Tc. Comparisons of Eco R1 fragments generated from the total plasmid DNA content of each strain support the view that the plasmids present in the S. dysenteriae type 1 strains isolated from all recent epidemics in India and Bangladesh were identical.     

Experimental production of colicin type V ofShigella sonnei unusual in nature

Col V factor of Fredericq’s strainEscherichia coli 1.7a was mobilized for a transfer by the R (Sm, Cm, Tc, Su) factor ofShigella sonnei strain in three component test. The strainE. coli K13 HfrR (a universal indicator for evidence of colicinogeny) andS. sonnei strain became the recipient of both plasmids.S. sonnei, a producer of colicin V has not been found in natural conditions as yet.     

Gram-negative bacteria resistant to antibiotics in foods

From 154 food samples, including vegetables (lettuce), milk and meals served at school it was possible to isolate and identify 400 Gram negative bacilli distributed among 339 enteric bacteria (Escherichia, Shigella, Citrobacter, Klebsiella, Enterobacter, Serratia and Proteus) and other 61 non enteric bacilli (Acinetobacter, Flavobacterium, Aeromonas and Pseudomonas). Submitting this cultures to the drugs sulfadiazine (Su), streptomycin (Sm), tetracycline (Tc), chloramphenicol (Cm), kanamycin (Km), ampicillin (Ap), nalidixic acid (Nal) and gentamycin (Gm) it was observed only six stocks susceptible to all drugs and total sensibility to Gm. Among enteric bacteria the profiles Su (27,6%) and Su-Ap (39,6%) predominated, while for the non enteric bacilli percentages of 18.0 for Ap and 9.8 for Su-Ap were detected. Aiming to better characterization of resistance, experiments of conjugation were made with standard strains of Escherichia coli K 12. Great concern was raised by the recognition of these cultures due to the elevated R+ taxes for the enteric bacilli that were close to 90% (milk and food at school) and about 70% in relation to lettuce.     

Characterization of restriction endonuclease maps of hepatitis B viral DNAs

The HBV DNA isolated from Dane particles of 9 patients' plasma was cloned into the EcoRI or BamHI site of the pUC8 plasmids. Two plasmids with full length HBV DNA and four plasmids containing the HBV surface antigen gene were obtained. Based on our cloned HBV DNA and a comparison with 7 complete sequences and 5 restriction endonuclease patterns of HBV DNA published by others, we can recognize common restriction sites shared by different subtypes (adw, adr, ayw, and adyw): (1) a HincII site in the S gene, (2) a BamHI site in the X region, and (3) two BglII sites in the C gene. In addition adw has specific sites for HincII, BamHI, and PstI in the pre-S region. A unique XhoI site is present in the pre-S region in all subtypes except for adw.