Species variation and plasmid incidence among fluorescent Pseudomonas strains isolated from agricultural and industrial soils

Abstract: A total of 132 different fluorescent Pseudomonas strains were isolated from several agricultural and industrial soils. The bacteria from the two different soil environments were compared for species and biotype variation, antibiotic and heavy metal resistance profiles, ability to degrade polyaromatic hydrocarbons, and plasmid incidence. Irrespective of the soil type, the isolates belonged to Pseudomonas fluorescens biotypes I–VI and Pseudomonas putida biotype B. Except for a streptomycin resistant isolate from one of the industrial soils, all the strains had the same antibiotic resistance profile. However, there was a higher incidence of heavy metal resistance and polyaromatic hydrocarbon degradation phenotypes in the isolates from industrial soils than from the agricultural soils. Only 2 out of 68 strains from agricultural soil were found to carry plasmids, while 28 out of 64 strains from industrial soil had plasmids. A majority of the plasmids (56%) were estimated to be larger than 50 kb, indicating that they could encode transfer functions. However, transferability as indicated by the ability to mobilize an IncQ plasmid (tra⁻, mob⁺), was observed with only one plasmid. None of the plasmid(s) containing isolates hybridized to a ³²P-labelled repP probe suggesting that none of the indigenous plasmids in the soil fluorescent Pseudomonas strains was related to the IncP group of conjugative plasmids commonly associated with resistance and catabolic genes.     

Characterization of Fosfomycin Resistant Extended-Spectrum β-Lactamase-Producing Escherichia coli Isolates from Human and Pig in Taiwan

To investigate the efficacy of fosfomycin against extended-spectrum β-lactamases (ESBL) producing Escherichia coli in Taiwan and the resistance mechanisms and characterization of human and pig isolates, we analyzed 145 ESBL-producing isolates collected from two hospitals (n = 123) and five farms (n = 22) in Taiwan from February to May, 2013. Antimicrobial susceptibilities were determined. Clonal relatedness was determined by PFGE and multi-locus sequence typing. ESBLs, ampC, and fosfomycin resistant genes were detected by PCR, and their flanking regions were determined by PCR mapping and sequencing. The fosfomycin resistant mechanisms, including modification of the antibiotic target (MurA), functionless transporters (GlpT and UhpT) and their regulating genes such as uhpA, cyaA, and ptsI, and antibiotic inactivation by enzymes (FosA and FosC), were examined. The size and replicon type of plasmids carrying fosfomycin resistant genes were analyzed. Our results revealed the susceptibility rates of fosfomycin were 94% for human ESBL-producing E. coli isolates and 77% for pig isolates. The PFGE analysis revealed 79 pulsotypes. No pulsotype was found existing in both human and pig isolates. Three pulsotypes were distributed among isolates from two hospitals. ISEcp1 carrying bla _{CTX-M-group 9} was the predominant transposable elements of the ESBL genes. Among the thirteen fosfomycin resistant isolates, functionless transporters were identified in 9 isolates. Three isolates contained novel amino acid substitutions (Asn67Ile, Phe151Ser and Trp164Ser, Val146Ala and His159Tyr, respectively) in MurA (the target of fosfomycin). Four isolates had fosfomycin modified enzyme (fosA3) in their plasmids. The fosA3 gene was harboured in an IncN-type plasmid (101 kbp) in the three pig isolates and an IncB/O-type plasmid (113 kbp) in the human isolate. In conclusion, we identified that 6% and 23% of the ESBL-producing E. coli from human and pigs were resistant to fosfomycin, respectively, in Taiwan. No clonal spread was found between human and pig isolates. Functionless transporters were the major cause of fosfomycin resistance, and the fosA3-transferring plasmid between isolates warrants further monitoring.     

Structure and putative origin of a plasmid from Staphylococcus hyicus that mediates chloramphenicol and streptomycin resistance

The structure and functional organization of Staphylococcus hyicus plasmid pSCGp3EB that mediates chloramphenicol and streptomycin resistance (Cm^rSm^r) is described and compared with another Cm^rSm^r plasmid, pSCS12, from Staphylococcus sciuri. Both plasmids appeared to be formed by co-integrate formation between plasmids that very closely resemble the chloramphenicol resistance (Cm^r) plasmid pC221 and the streptomycin resistance (Sm^r) plasmid pS194. In addition to the established recombination site B (RS_B) in pC221 and pS194, another area suitable for recombination immediately downstream of the cat gene in pC221 and upstream of the str gene in pS194 has been identified. Co-integration at these sites would lead to the structures we have observed in the wild-type Cm^rSm^r plasmids pSCGp3EB and pSCS12.     

Plasmid-borne mercury resistance in aquatic bacteria

Abstract Bacteria isolated from the River Mersey were analysed for their tolerance to mercury (HgCl₂). About 40% of the population was tolerant to mercury and in 13 of 52 mercury-tolerant isolates tested the mercury resistance (Hg^®) was transferred to Escherichia coli in conjugal matings. These 13 isolates represented a range of gram-negative genera and in each case mercury resistance was coded by a conjugative plasmid. These plasmids (75 kb to > 250 kb in size) all expressed mercury resistance of the narrow spectrum variety, volatilised HgCl₂ to elemental Hg° vapour and showed some degree of temperature sensitivity of transfer. None expressed resistance to nine different antibiotics. These 13 Hg^R plasmids were classified by restriction mapping into three distinct groups typified by pMER11, pMER327 and pMER610. The eight pMER610 group plasmids are identical and belong to the IncHI-2 group. Two of the four pMER327 group plasmids are closely related while the other two contain some common restriction fragments. pMER11 is quite distinct from the other groups. These results imply that within this aquatic environment plasmids play an important role in the response of bacteria to contaminating mercury and that there is widespread plasmid transfer and considerable genetic rearrangement.     

Tn4451 from Clostridium perfringens is a mobilizable transposon that encodes the functional Mob protein, TnpZ

The 6.3 kb Clostridium perfringens transposon Tn 4451 encodes a 50 kDa protein, TnpZ, which has amino acid sequence similarity to a group of plasmid mobilization and recombination proteins that comprise the Mob/Pre family. Members of this family interact with an upstream palindromic sequence called an RS_A site, and an RS_A-like sequence has been identified upstream of the tnpZ gene. In Escherichia coli , in the presence of a chromosomally integrated derivative of the broad-host-range IncP plasmid, RP4, TnpZ was able to promote plasmid mobilization in cis and was able to function in trans to enable the mobilization of a co-resident plasmid carrying an RS_A site. It was also able to mediate the conjugative transfer of plasmids from E. coli to C. perfringens . Site-directed mutagenesis of two bases within the RS_A site resulted in a significant reduction in mobilization frequency, demonstrating that the RS_A site is required for efficient plasmid mobilization. TnpZ is the only Mob/Pre protein known to be associated with a transposable genetic element, and Tn 4451 is the first mobilizable but non-self-transmissible transposon to be identified from a Gram-positive bacterium.     

Characteristics of penicillinase plasmids from Staphylococcus aureus strains

Penicillinase plasmids are present in most MRSA strains. They are very varying in their genotype and phenotype they confer. Penicillinase plasmids were transduced from 80 hospital MRSA strains to NCTC 8325 and the phenotype as well as the incompatibility group of plasmid were determined. Resistance to cadmium (high and low level), resistance to organic and nonorganic mercury compounds, arsenate/arsenite/antimonium resistance, resistance to bismuth and hypersensitivity to bismuth, resistance to macrolides as well as beta-lactamase production and its inductibility were checked. Among the examined strains 20 different phenotypes of penicillinase plasmids were found. Patterns of penicillinase plasmids were compared to DNA patterns of the investigated strains after digestion with SmaI and separation in pulsed field electrophoresis (PFGE). It was shown that strains with the same PFGE pattern often differ in the type of their penicillinase plasmid. Determining of penicillinase plasmid phenotype could be useful in differentiating S. aureus strains sharing the same pattern of PFGE.     

Two different types of fosfomycin resistance in clinical isolates of Klebsiella pneumoniae

Abstract The fosfomycin susceptibility of 100 clinical isolates of Klebsiella pneumoniae and the resistance mechanisms utilized by resistant strains were examined. Washed cells prepared from the strains demonstrating MICs of more than 8 μg ml⁻¹ of fosfomycin inactivated the drug. A crude extract from strain Tf129B, highly resistant to fosfomycin, was used to study the enzymatic properties of the drug-inactivating enzyme. The optimum pH for inactivation was 7.8 and the optimum temperature of the reaction was 37°C. Glutathione was shown to be effective as a cofactor in the inactivation. It was suggested that the inactivating enzyme of Klebsiella pneumoniae was fosfomycin: glutathione-S-transferase, a constitutive enzyme located in the periplasmic space. A good correlation was found between the specific activities of this enzyme and the MIC levels; however, certain strains showed a low level of fosfomycin: glutathione-S-transferase activity which could not account for the increased MIC. Strains Tf129B and Tf408E, both demonstrating MICs of more than 1024 μg ml⁻¹ of fosfomycin carried a transferable resistance plasmid. In strain Tf129B, the mechanism of fosfomycin resistance was due to a high level of enzymic activity. In strain Tf408E, it was determined to be mainly due to the reduced permeability of the cell membrane.     

Phosphoenolpyruvate carboxylase in Corynebacterium glutamicum is dispensable for growth and lysine production

Abstract The symbiotic plasmid pRHc1J and the helper plasmid pJB3JI were transferred from Rhizobium "hedysari" strain RJ77 to Agrobacterium tumefaciens strain GMI9023. Transconjugants harboured recombinant plasmids (R-prime plasmids) consisting of pJB3JI carrying DNA fragments, of different sizes, surrounding the Tn 5 mob insert in pRHc1J. Two of these R-prime plasmids (pR1 and pR2) carried nod genes and were able to restore the Nod⁺ phenotype of pSym⁻ derivatives of R. "hedysari" . The R. "hedysari" nod genes harboured by both R-primes were expressed in R. leguminosarum biovar trifolii wild-type but not in a pSym⁻ derivative.     

Diversity and stability of plasmid transfer in isolates from a single field population of Rhizobium leguminosarum bv. viciae

Abstract Isolates of R. leguminosarum bv. viciae from pea and lentil nodules taken at one field site in France were tested in the laboratory for their ability to donate and receive plasmids by conjugation. Five isolates of 20 tested as donors were found to be capable of donating a plasmid which restored the ability to nodulate V. sativa to an isolate which had spontaneously lost this ability. Of 16 isolates tested as recipients all were found to be competent to receive one or more Tn5-labelled test plasmids at a frequency that varied widely (10⁻⁹− 10⁻³ per recipient) dependent upon both the recipient and the plasmid transferred. Three distinct plasmids carrying genes essential for symbiotic functions (pSym) were consistently shown to be transferred at a lower frequency than a cryptic plasmid. Collectively, these results indicate a significant potential for plasmid transfer within the natural soil population. During this work, several independent derivatives were obtained which contained two bv. viciae pSym. These plasmids usually appeared to be compatible together in cells ex planta, but the one acquired in matings was apparently frequently lost (10⁻² per cell) in nodules of V. sativa . Hybrid derivatives containing bv. viciae and bv. phaseoli pSym, apparently retained both plasmids in nodules when P. vulgaris was the host plant but lost the bv. phaseoli pSym at high frequency (4 × 10⁻¹ per cell) in nodules of V. sativa . Structural rearrangements among the plasmids of these transconjugants were also detected in cells recovered from nodules.     

Nickel and cobalt resistance of various bacteria isolated from soil and highly polluted domestic and industrial wastes

Abstract From enrichment cultures in the presence of 1 mM NiCl₂ 200 strains of aerobic bacteria were isolated from 50 samples collected in the metal-processing industry, waste water treatment plants and from solid waste, highly polluted by heavy metals. The strains isolated were characterized with respect to their substrate spectrum and resistance to nickel, cobalt, zinc and cadmium salts and assigned to 21 groups. One representative of each group was described with respect to cell morphology. All strains were Gram-negative, non-sporing rods or cocci. The highest concentrations of nickel, cobalt, zinc, cadmium, copper, mercury, and silver allowing growth on solid media were estimated. Two strains were able to grow at 20 mM NiCl₂ and CoCl₂, one strain tolerated 12 mM and one 7.5 mM concentrations of these salts.
Fifteen out of 21 strains contained at least one plasmid two contained two plasmids. The plasmid sizes varied between 50 and 340 kbp, except strain 10A, which contained a miniplasmid (2.6 kbp). Attempts to cure four selected strains by exposure to mitomycin C or growth at elevated temperature failed.
By helper-assisted and unassisted conjugation the plasmids of strain 31A were shown to carry nickel and cobalt resistance determinants. Alcaligenes eutrophus strains H16 and N9A and denative of strain CH34 lacking one or both of its native metal resistance plasmids were used as recipients. Both plasmids, p TOM8 and pTOM9, of strain 31A carried resistance properties which were expressed in all recipients except. A. eutrophus H16, in which only nickel resistance was expressed.
Plasmid pTOM3 residing in strain 10A could not be transferred as such. However, transconjugants derived from helper (pULB113)-assisted matings carried co-integrates of various sizes and were resistant to nickel and cobalt.     

Plasmid-mediated resistance to fosfomycin in Staphylococcus epidermidis

Staphylococcus epidermidis strain BM2641, isolated from a patient, was resistant to penicillin G, methicillin, aminoglycosides, chloramphenicol, macrolide, lincosamide and streptogramin B-type (MLS) antibiotics, and to high levels of fosmycin. Resistance to forsfomycin and/or to MLS was lost at low frequencies either spontaneously or after curing with novobiocin. The plasmid DNA from BM2641 and its cured derivatives was purified, analyzed by agarose gel electrophoresis and transferred to a nitrocellulose sheet. Comparative analysis of the resistance phenotypes with the plasmid content of the strains indicated that fosfomycin and MLS resistance were encoded by plasmids pIP1842 (2.5 kb) and pIP1843 (2.6 kb), respectively. Southern hybridization with a probe specific for gene fosA of Serratia marcescens showed that the fosfomycin resistance determinant in Staphylococcus is not homologous to that of Gram-negative bacteria.     

Contributions of traT and iss genes to the serum resistance phenotype of plasmid ColV2-K94

Abstract A genetic determinant for serum resistance, designated iss , has been found previously on the colicinogenic plasmid ColV2-K94. In this work we have identified a second serum resistance gene, traT , on ColV2-K94. The serum resistance mediated by derivatives of ColV2-K94 was due to presence of one or both of the iss and traT genes. Plasmid pWS12 (TraT⁺ Iss⁺) contained the kanamycin (Km) resistance transposon Tn 903 inserted near the origin of replication of ColV2-K94, and plasmids pWS15 (TraT⁺), pWS16 (TraT⁺) and pWS18 (TraT⁺ Iss⁺) were deletion derivatives of pWS12 constructed in vitro and in vivo. pWS12 and pWS18 conferred a 20-fold increase in relative resistance to 20% guinea pig serum when introduced into the serum-susceptible, genetically defined recA strain of Escherichia coli K-12, AB2463. Plasmids pWS15 and pWS16, from which iss had been deleted, still conferred 5-fold increases in relative resistance on AB2463. The level of resistance conferred on this strain by the antibiotic resistance plasmid R100–1 (which expresses the traT serum resistance gene) was comparable to that of plasmids pWS15 and pWS16. The 25-kDa traT gene product was identified by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) analysis of the outer membrane proteins of strain AB2463 carrying ColV2-K94. This protein cross-reacted immunologically with the traT protein expressed by F or R100–1. Our results indicated that both traT and iss are capable of mediating serum resistance in ColV2-K94.     

Conjugative R plasmids isolated from hospital strains of Pseudomonas aeruginosa]

It was shown that Pseudomonas aeruginosa hospital strains isolated from patients and environment in the Republican Centre of Burns in Tbilisi contained conjugative R plasmids. The plasmids were marked pM15 and pM19, respectively. The plasmid pM15 determined resistance to carbenicillin, kanamycin and tetracycline and plasmid pM19 determined resistance to carbenicillin, kanamycin, tetracycline, chloramphenicol, gentamicin and streptomycin. Plasmid pM15 had a molecular weight of 45.8 MD and seven sites for EcoRI, six sites for HindIII and five sites for Hpa-I-restrictase. This plasmid, as others, belongs to the Inc-P1 incompatibility group.     

Trimethoprim resistance plasmids in Escherichia coli isolated from cases of diarrhoea in cattle, pigs and sheep

A total of 1572 isolates of Escherichia coli obtained from the faeces of young farm animals with diarrhoea over the period 1980–1983 were screened for resistance to trimethoprim (Tp). Resistance to Tp was detected in263/954 (28%) of bovine isolates,59/441 (13%) of porcine isolates and15/177 (9%) of ovine isolates. Seventy-five resistant isolates from separate outbreaks of infection on farms within a 25 mile radius of Nottingham were examined in detail. Sixty-eight (91%) of the 75 isolates were resistant to > 1024 mg Tp/1 and 34 (50%) of these 'highly resistant' isolates (45% of total resistant isolates) transferred their Tp resistance to E. coli K12. A further 13 (17%) isolates were demonstrated to carry non-self-transferable plasmids which were capable of being mobilized to E. coli K12 by the broad host range plasmid RP4. Thirty-one self-transferable Tp R plasmids were divided between the following incompatibility groups: IncB (14 plasmids), IncF_***H (4 plasmids), IncH₂ (1 plasmid), IncIaP (10 plasmids), IncIdT (1 plasmid) and IncP (1 plasmid). In terms of antibiotic resistance patterns and incompatibility properties, many of these plasmids closely resembled those isolated from human patients in the same area, suggesting that there may be a common pool of Tp R plasmids.     

Characteristics of ARG-carrying plasmidome in the cultivable microbial community from wastewater treatment system under high oxytetracycline concentration

Studies on antibiotic production wastewater have shown that even a single antibiotic can select for multidrug resistant bacteria in aquatic environments. It is speculated that plasmids are an important mechanism of multidrug resistance (MDR) under high concentrations of antibiotics. Herein, two metagenomic libraries were constructed with plasmid DNA extracted from cultivable microbial communities in a biological wastewater treatment reactor supplemented with 0 (CONTROL) or 25 mg/L of oxytetracycline (OTC-25). The OTC-25 plasmidome reads were assigned to 72 antibiotic resistance genes (ARGs) conferring resistance to 13 types of antibiotics. Dominant ARGs, encoding resistance to tetracycline, aminoglycoside, sulfonamide, and multidrug resistance genes, were enriched in the plasmidome under 25 mg/L of oxytetracycline. Furthermore, 17 contiguous multiple-ARG carrying contigs (carrying ≥ 2 ARGs) were discovered in the OTC-25 plasmidome, whereas only nine were found in the CONTROL. Mapping of the OTC-25 plasmidome reads to completely sequenced plasmids revealed that the conjugative IncU resistance plasmid pFBAOT6 of Aeromonas caviae, carrying multidrug resistance transporter (pecM), tetracycline resistance genes (tetA, tetR), and transposase genes, might be a potential prevalent resistant plasmid in the OTC-25 plasmidome. Additionally, two novel resistant plasmids (containing contig C301682 carrying multidrug resistant operon mexCD-oprJ and contig C301632 carrying the tet36 and transposases genes) might also be potential prevalent resistant plasmids in the OTC-25 plasmidome. This study will be helpful to better understand the role of plasmids in the development of MDR in water environments under high antibiotic concentrations.

     

Characterization of plasmids from antibiotic-resistant Shigella isolates by agarose gell electrophoresis.

Gel electrophoresis of DNA from 95 clinical isolates of Shigella sonnei and Shigella flexneri resistant to antibiotics revealed a heterogeneous plasmid population. Most of the plasmids were smaller than 6 megadaltons (Mdal). Six S. sonnei isolates with the most common antibiotic resistance pattern were characterized. They had two plasmids in common: one was a self-transmissible Fi+ plasmid of 46 Mdal encoding resistance to streptomycin and sulphafurazole. In addition, several cryptic plasmids ranging in size from 1.0 to 24.5 Mdal were present. Mobilization of the 5.5 Mdal SuSm plasmid and a 1.0 Mdal cryptic plasmid was demonstrated with all six S. sonnei isolates during conjugation. This mobilization was mediated by the 46 Mdal self-transmissible Fi+ R plasmid and also by a 24.5 Mdal Fi- plasmid carrying no known drug resistance determinants.     

Large plasmids in an actinomycete

Abstract Using a modified procedure large indigenous plasmids were detected in cells of three strains belonging to a group of phenotypically similar actinomycetes isolated from the rhizoplane and root nodules of Alnus spp. M _r values of the plasmids were estimated to be about 80 · 10⁶ and 120 · 10⁶. The plasmid profiles of different strains of the group were found to be almost identical. This remarkable plasmid similarly is discussed in relation to the common source of isolation.     

Instability of the morpholine-degradative phenotype in mycobacteria isolated from activated sludge

The stability of the morpholine-degradative phenotype was studied in a group of nine distinct strains of mycobacteria, all isolated from an activated sludge plant treating morpholine.
Variants incapable of morpholine degradation arose from all strains at high frequency following growth under non-selective conditions. However, strains differed with respect to the frequency at which Mor⁻ variants arose. No spontaneous reversion to wild type could be demonstrated. Six of the nine mycobacterial strains contained plasmids, each had a different plasmid profile. The plasmid profiles of wild type and Mor⁻ variants were compared. In no case could loss of the ability to grow on morpholine be correlated with loss of a complete plasmid. However, evidence is presented which suggests that in two strains loss of the morpholine-degradative phenotype may be correlated with a decrease in the size of a very large plasmid implying deletion of the DNA encoding morpholine degradation. The techniques employed to screen for plasmids in mycobacteria are discussed.     

Plasmid profile and antibiotic resistance in coagulase-negative staphylococci isolated from polluted water

Four different species of coagulase-negative staphylococci (CNS) were isolated from polluted waters in Fez, Morocco and found to be Staphylococcus simulans, Staph. lenticus, Staph. hyicus and Staph. xylosus . Eight isolates belonging to these four species were analysed for their plasmid content. Southern blot hybridizations were performed to define the resistance determinants of the plasmids harboured by these species. These determinants were found to be carried mainly by Class I staphylococcal plasmids (1–5 kb). A plasmid (4·3 kb) carrying a tetracycline resistance gene was present in five isolates from all identified species. Plasmids carrying a chloramphenicol resistance gene were more frequently encountered and found to be of different sizes. Plasmids carrying erythromycin, neomycin, and streptomycin resistance genes were less frequent and were the same size. The results indicate that the occurrence of multi-resistant CNS in polluted waters may constitute a reservoir for disseminating antibiotic-resistance into the community.     

Characterisation of plasmids purified from Acetobacter pasteurianus 2374

Four cryptic plasmids pAP1, pAP2, pAP3, and pAP4 with their replication regions AP were isolated from Gram-negative bacteria Acetobacter pasteurianus 2374 and characterised by sequence analyses. All plasmids were carrying the kanamycin resistance gene. Three of four plasmids pAP2, pAP3, and pAP4 encode an enzyme that confers ampicillin resistance to host cells. Moreover, the tetracycline resistance gene was identified only in pAP2 plasmid. All plasmids are capable to coexist with each other in Acetobacter cells. On the other hand, the coexistence of more than one plasmid is excluded in Escherichia coli. The nucleotide sequence of replication regions showed significant homology. The nucleotide and protein sequence analyses of resistance genes of all plasmids were compared with transposons Tn3, Tn10, and Tn903 which revealed significant differences in the primary structure, however no functional changes of gene were obtained.