Functional Comparison of Conjugative Transposons Tn916and Tn925

During interspecies matings betweenBacillus subtilisandBacillus thuringiensissubsp.israelensis,transfer of conjugative transposon Tn916was detected at a frequency of 1.1 × 10⁻⁴transconjugants per donor. Tn916-dependent transfer of plasmids pC194 and pE194 was detected at frequencies of 1.4 × 10⁻⁵and 3.2 × 10⁻⁷transconjugants per donor, respectively. Similar frequencies were obtained during parallel matings with otherwise isogenic strains that contain Tn925instead of Tn916. Tn916- or Tn925-dependent transfer of plasmids pC194 or pUB110 from the recipient to the donor (retrotransfer) was not observed during inter- or intraspecies matings. Transposon-mediated plasmid transfer by Tn916and Tn925is a Rec independent event. Thus, the data from studies in which otherwise isogenic donor and recipient strains were used indicated that Tn916and Tn925are, from a functional point of view, much more similar than previously suggested.     

Mercury resistance determined by a self-transmissible plasmid inBacillus cereus 5

Summary Inducible mercuric reductase activity inBacillus cereus 5 was plasmid-encoded. Plasmid analysis revealed three plasmids with molecular masses of 2.6, 5.2 and 130 MDa. A mating system permitted transfer of the resistance determinant among strains ofB. cereus andB. thuringiensis. Transfer of mercury resistance fromB. cereus 5 toB. cereus 569 andB. thuringiensis occurred during mixed culture incubation on agar surfaces. The 130-MDa plasmid (pGB130) was responsible for transfer; frequencies ranged from 10^–5 to 10^–4.B. cereus 569 transconjugants inheriting pGB130 were also effective donors. High transfer frequencies and the finding that cell-free filtrates of donor cultures were ineffective in mediating transfer suggested mercury-resistance transfer was not phage-mediated. Transfer was also insensitive to DNase activity. Further evidence that pGB130 DNA carried the mercury-resistance determinant was transformation ofB. cereus 569 by electroporation with pGB130 DNA isolated fromB. cereus 5 and a mercury-resistantB. cereus 569 transconjugant. Mercury-resistant transconjugants and transformants exhibited mercuric reductase activity. Plasmid pGB130 also conferred resistance to phenylmercuric acetate.     

Batch cultures of recombinant Lactococcus lactis subsp. lactis in a stirred fermentor

Summary The transfer of plasmids was studied in a stirred fermentor in the course of mixed batch cultures combining recombinant strains of Lactococcus lactis subsp. lactis (donor strains) with L. lactis subsp. lactis CNRZ 268M3 (recipient strain). Donor strains contained one or two of the following plasmids (coding for erythromycin or chloramphenicol resistance): pIL205 (self-transmissible), pIL252, pIL253 (non-transmissible but mobilizable by pIL205, respectively small and large copy number) and pE194 (inserted in the chromosome). Only self-transmissible plasmid pIL205 was transferred, with frequencies ranging from 10^–7 to 10^–8 after 12 h of fermentation. These frequencies were 60–400 times lower than in unstirred M17 broth and 100 000 times lower than on agar medium. In the latter case, non-transmissible plasmids pIL252 and pIL253 were mobilized by pIL205 with a frequency of about 10^–5–10^–6. Correspondence to: C.-Y. Boquien     

Conjugational transfer systems of Rhodopseudomonas capsulata mediated by R plasmids

Plasmids RP1, R68.45 and RP4::Mu cts 61 were transferred into Rhodopseudomonas capsulata from Escherichia coli. The frequency of intraspecies transfer of these plasmids in R. capsulata was 10^-4–10^-5 per donor. The plasmids also mobilized chromosomal genes at a low frequency. Phototrophic recombinants from matings between recipient strains defective in the photosynthetic-apparatus and wild type donors were obtained at a frequency of 10^-7–10^-8 per donor.     

Transfer of broad-host-range antibiotic resistance plasmids in soil microcosms

Broad-host-range plasmids, belonging to IncP (RP4 and pUPI102) and IncC (R57.b), were studied for intrageneric and intergeneric gene transfer in three different soil microcosms. RP4 was transferred intragenerically in clay loam, sandy loam, and sandy microcosms at frequencies of 0.71×10^–2, 0.83×10^–2, and 0.41×10^–2 respectively, optimally at 37°C and at 100% vol/wt moisture content. Under similar conditions, R57.b was also transferred at frequencies of 0.38×10^–2, 0.58×10^–2, and 0.80×10^–5 respectively at 30°C. Both RP4 and R57.b were transferred at low frequency at 20°C. Kinetics of plasmid transfer revealed that 48 h was the optimum time for intrageneric conjugal gene transfer. Gene transfer frequency was tenfold higher in all nutrient-amended soil microcosms than in the absence of nutrient amendment. RP4 was transferred to an indigenous soil bacteriumBeijerinckia indica in a nonsterile soil microcosm and to other indigenous soil bacteria, viz.Xanthomonas campestris, Azotobacter chroococcum, Acinetobacter calcoaceticus, Achromobacter agili, andRhizobium meliloti in sterile soil microcosms. pUPI102 was transferred fromA. calcoaceticus BD413 toEscherichia coli K12 J53 at a frequency of 0.75×10^–6 and 1.1×10^–6 in clay loam and sandy loam microcosms respectively. However, no gene transfer was observed in any soil microcosm when strains ofA. calcoaceticus BD413 (pUPI102) andE. coli K12 J53.2 (RP4) were used for conjugal mating. Plasmid RP4 was found to be 100% stable in all the above microorganisms.     

Interplasmidic illegitimate recombination in Bacillus subtilis

Summary The illegitimate recombination between Staphylococcus aureus plasmids pE194 (or pGG20, the hybrid between pE194 and Escherichia coli plasmid pBR322) and pBD17 (plasmid pUB110 without HpaII C-fragment) was studied in Bacillus subtilis. Cointegrates were generated with the frequency of 1–3x10^-8. Among 22 hybrids analysed 9 types of recombinants were found. Nucleotide sequences of all three parental plasmids were involved in intermolecular recombination. Nucleotide sequencing of recombinant DNA junctions revealed that in 8 cases recombination occurred between short homologous regions (9–15 bp). One recombinant was formed using nonhomologous sites. The similarity was demonstrated between nucleotide sequences of the recombination sites of two types of cointegrates and those used for pE194 integration into the B. subtilis chromosome. Possible mechanisms of illegitimate recombination are discussed.     

R factor variants with enhanced sex factor activity in Pseudomonas aeruginosa

Summary The R factor R68 readily promotes chromosome transfer in Pseudomonas aeruginosa strain PAT, but shows little such sex factor activity in strain PAO. A variant of this plasmid, R68.45, has been isolated which produces recombinants in PAO plate matings at frequencies of 10^-3–10^-5 per donor cell for markers in the 0–60 min region of the chromosome. Little or no chromosome transfer was shown in liquid media. The kinetics of chromosome transfer were studied by interrupting matings on solid media with nalidixic acid. Five chromosomal markers, mapping in widely spaced regions of the chromosome all entered 3–5 min after initiation of mating. These results, combined with linkage studies, indicate that R68.45, unlike the Pseudomonas sex factors FP2 and FP39, promotes chromosome transfer from a range of origin sites and can thus be used for mapping the region of the P. aeruginosa chromosome later than 40 min.R68.45 and other similar variants were isolated from rare chromosomal recombinants appearing in crosses between PAO(R68) donors and PAO recipients in which selection for argB ⁺ was made. Selection for other chromosomal markers did not result in such variants suggesting that plasmids of the R68.45 type arise by recombination of genetic material between the R68 plasmid and certain regions of the bacterial chromosome.     

Inhibition of a conjugation-like gene transfer process in Bacillus thuringiensis subsp. israelensis by the anti-s-layer protein antibody

Extraction of the S-layer protein by treatment with 6 m urea revealed a high-molecularweight protein in the extracts obtained from Bacillus thuringiensis subsp. israelensis (B.t.i) strain 4Q2. This protein band was found to be absent in partially cured (4Q2-72) and completely cured (c4Q2-72) strains. The antibody toward this S-layer protein was prepared and used to locate its antigenic protein on B.t.i cells by using indirect immunofluorescence. Immunodiffusion reactions and Western blot analysis confirmed the specificity of the anti-S-layer protein antibody. It was found that the antibody against 4Q2 S-layer protein, inhibited plasmid transfer via a conjugationlike process between, B.t.i. strains 4Q2-16 and c4Q2-72. That is, the frequency of transfer of plasmid pBC16 was reduced from 9.7×10^-6 in the absence of the antibody to less than 1.0×10^-8 in the presence of the antibody. The antibody was also found to reduce the frequency of pBC16 plasmid transfer via a conjugation-like process between B.t.i. strains A084-16-194 and c4Q2-72 from 2.2×10^-5 in the absence of the antibody to 1.2×10^-6 in the presence of the antibody.     

Quantification and Modeling of Plasmid Mobilization on Seeds and Roots

Mobilization frequencies of the nonconjugative plasmid pMON5003 were quantified using Escherichia coli TB1(pRK2013) as donor of a helper plasmid, E. coli M182 (pMON5003) as donor of the nonconjugative plasmid, and Pseudomonas fluorescens as recipient. Initial mating experiments were conducted in nutrient and minimal salts media and pea seed exudates. Mobilization rates were higher during early stationary growth of donors, helpers, and recipients. Numbers of transconjugants were higher in biparental matings when donors contained both conjugative and nonconjugative plasmids, versus tri-parental matings. A mathematical model was developed to predict a nonconjugative plasmid transfer rate parameter (δ), estimating the proportion of conjugative matings in which a plasmid is mobilized. Values of δ ranged from 8 × 10⁻³ to 7.9 × 10⁻¹. Transfer frequencies for pMON5003 from E. coli to P. fluorescens on pea seeds and roots were determined. Transconjugants (P. fluorescens 2-79 (pMON5003)) were isolated from seeds, roots, and soil, but mobilization frequencies were lower than in liquid media.     

Isolation of a DNA sequence related to several plasmids from Bacillus thuringiensis after a mating involving the Streptococcus faecalis plasmid pAM beta 1

Summary The transmissible plasmid pAM1, which codes for resistance to erythromycin and lincomycin, was transferred from Streptococcus faecalis to several strains of Bacillus thuringiensis by a filter-mating process. Introduction of pAM1 into the Em^r transconjugant strains of B. thuringiensis was confirmed by Southern hybridisation using the ³²P-labelled pAM1 as a probe. In the B. thuringiensis transconjugant strains, used as donors, the plasmid conserved its ability to be transferred during intraspecific mating, with a frequency of 10^-4 per recipient cell. In addition, the transconjugant clones acted as donors of the erythromycin resistance marker and permitted the transfer of cryptic plasmids present in the B. thuringiensis () strains used as donors. From a transconjugant clone of B. thuringiensis a hybrid plasmid resulting from an in vivo insertion into pAM1 of a 3 Md DNA sequence was isolated. This 3 Md DNA molecule originated from a 54 Md plasmid of a kurstaki strain and is related to several plasmids found in different serotypes of B. thuringiensis.Abbreviations cry^– acrystalliferous mutant - CCC covalently closed circular DNA - Md megadalton - EMS ethyl methanesulphonate     

Introduction of plasmid pC194 into Bacillus thuringiensis by protoplast transformation and plasmid transfer

The Staphylococcus aureus plasmid pC194 which codes for resistance to chloramphenicol was introduced into six Bacillus thuringiensis strains representing five varieties by protoplast transformation. Six other varieties could not be transformed. pC194 could be identified in transformed strains as autonomous plasmid. The transformed clones contained in addition a new extrachromosomal element of somewhat lower electrophoretic mobility hybridizing with pC194, and pC194 in multimeric forms. pC194 was also transferred from one B. thuringiensis variety to another and from Bacillus thuringiensis to Bacillus subtilis and vice versa by a conjugation-like process, requiring close cell-to-cell contact.Non-standard abbreviations BSA bovine serum albumin - CAT chloramphenicol acetyltransferase - Cm^R chloramphenicol resistant - PAB Penassay broth - SDS sodiumdodecylsulfate - Tc^R tetracycline resistant     

Conjugal transfer and expression of streptococcal transposons in Clostridium acetobutylicum

The transposon-containing streptococcal plasmids pAM211, pCF10, and pINY1275 have been transferred at high frequency (10^-2–10^-3 per recipient, selecting for tetracycline resistance) to the Gram-positive anaerobe Clostridium acetobutylicum. Selection in the presence of two antibiotics (tetracycline and erythromycin) with the plasmids pAM 180 and pINY1275 yielded only low numbers of transconjugants (10^-8 per recipient). Matings were done by combining liquid and filter mating procedures under anaerobic conditions. No plasmid DNA could be detected in the transconjugants selected on a minimal medium in the presence of tetracycline. DNA-DNA hybridization experiments with restricted chromosomal DNA using biotinylated pAM120::Tn916 as probe revealed the presence of homologous sequences in the transconjugants but not in Clostridium acetobutylicum wild type. The transconjugants were used as donors in mating experiments with tetracycline-sensitive Bacillus subtilis and Streptococcus lactis subspec. diacetylactis. In both cases tetracycline-resistant strains were found. Transfer frequencies in these experiments were less than 10^-7 per recipient.     

The aggregation-mediated conjugation system of Bacillus thuringiensis subsp. israelensis: Host range and kinetics of transfer

The aggregation-mediated conjugation system in Bacillus thuringiensis subsp. israelensis encoded on the plasmid pXO16 is characterized by the formation of aggregates when Agr⁺ and Agr⁻ cells are socialized in exponential growth. Using the aggregation phenotypes, we have identified potential recipients of the aggregation-plasmid pXO16 among Bacillus cereus, Bacillus subtilis, Bacillus megaterium, Bacillus sphaericus, and 24 subspecies of B. thuringiensis. We found 14 Agr⁻ strains, i.e., potential recipients of the aggregation system encoded by plasmid pXO16. Five strains contained a conjugative apparatus of their own and were excluded from further examinations. To monitor the transfer of plasmid pXO16, we constructed a transposon insertion of the plasmid with Tn5401. The study of the plasmid transfer of pXO16::Tn5401 indicated the secretion of bacteriocins from both donor strain and recipient strains. Only one out of the nine strains examined was unable to receive the aggregation-plasmid pXO16 and express the aggregation phenotype and the conjugative abilities. It was found that the transfer of plasmid pXO16 to Bacillus thuringiensis subsp. israelensis Agr⁻ strains was 100%. All recipients had acquired the aggregation-plasmid pXO16 and converted to the Agr⁺ phenotype. Received: 29 February 1996 / Accepted: 26 March 1996     

Differential transfer dynamics of pAW63 plasmid among members of the Bacillus cereus group in food microcosms

Aim: To assess the dynamics of plasmid transfer between Bacillus thuringiensis and B. cereus in various food microcosms using the B. thuringiensis pAW63 and Staphylococcus aureus pUB110 plasmids as models. Methods and Results: The conjugative behaviour of pAW63, which resembles the B. anthracis virulence plasmid pXO2, and the mobilization of pUB110 were investigated using kinetics studies performed in reference LB (lysogeny broth) medium, full‐cream and skimmed milks, soya milk and rice milk. Transfers of pAW63 and pUB110 were found to occur in the five tested media, with higher frequencies observed in food matrices, most notably in full‐cream milk, skimmed milk and soya milk, where the mean transfer frequencies reached 10^?3 transconjugants per recipient cell. The most notable observations were that the higher transfer frequencies obtained in foodstuffs compared to those observed in LB were because of an earlier onset of conjugation in combination with a higher transfer rate and/or a longer mating period. Conclusion: These results indicate that not only the potential for plasmid transfer but also the overall timing of conjugation is affected by each of these food matrices. Significance and Impact of the Study: This new approach to study plasmid transfer provides insights for a better understanding of conjugation in food microcosms from both animal and vegetable origins among members of the B. cereus group.     

Evaluation of Bacillus thuringiensis bioinsecticidal protein effects on soil microorganisms

The effect of B. thuringiensis and its crystal protein on plant growth and on functional groups of microorganisms is not well understood. Soybean (Glycine max) var. Br 322 was grown in non-sterile soil infested with three B. thuringiensis (Bt) inocula: insecticidal crystal protein producer (Cry+), a mutant non-producer (Cry–), or insecticidal crystal protein (ICP), at a rate of 10⁷ cells g^–1 dry soil or 1.25 mg of protein g^–1 dry soil. Non-inoculated plants were maintained as control. Measurements were carried out on soil samples before sowing (time zero) and after sowing and inoculation (5, 15, 25, 35 and 45 d) on samples of rhizosphere soil. The effect of spore and crystal protein produced by B. thuringiensis on the populations of functional groups of microorganisms (bacteria including actinomycetes and fungi) involved in the biogeochemical cycling of carbon (cellulolytic, amylolytic and proteolytic), phosphorus (arbuscular mycorrhizal fungi), and nitrogen (number of nodules and proteolytic) were evaluated. Population sizes of culturable heterotrophic bacteria and saprophytic fungi were also evaluated. No difference was found in heterotrophic bacterial populations inoculated with B. thuringiensis. Difference was observed in functional groups of C-cycling microorganisms. Nodule formation and plant growth were increased by Cry+ strain and ICP when compared with uninoculated plants. Crystal protein did not show any effect on arbuscular mycorrhiza (AM) colonization. However, a deleterious effect was observed with Cry+ and Cry– strains that inhibited colonization of AM fungi when compared with uninoculated plants.     

Heterotrophic bacteria of the freshwater neuston and their ability to act as plasmid recipients under nutrient deprived conditions

Significantly higher numbers of Gram-negative heterotrophic bacteria were present at the air-water interface (neston) of freshwater lakes than in the bulk water. Neuston bacteria were distinguished as a population distinct from bacteria in the bulk water by a higher incidence of pigmented colony types and significantly greater levels of multiple resistance to antibiotics and heavy metals. The incidence of plasmids in 236 neuston and 229 bulk water strains were similar (14 and 16.2%, respectively). Nine of 168 plasmid-free strains and 2 of 14 plasmid carrying strains, isolated from both bulk water and neuston, acted as recipients of plasmid R68.45 in plate matings with aPseudomonas aeruginosa donor strain PAO4032 at 21°C, but at frequencies below that of matings with a restriction-minus recipient strain ofP. aeruginosa, strain PAO1168. In a model system composed of nutrient-free synthetic lake water, plasmid R68.45 was shown to transfer betweenP. aeruginosa strains at frequencies between 10⁻³ and 10⁻⁵. Transconjugants were detected about 100 times more frequently at the interface than in the bulk water, which in part reflected a greater enrichment of the donor at this site. None of the aquatic isolates were able to act as recipients of plasmid R68.45 in this model system with strain PAO4032 as donor. The results suggest that under nutrient deprived conditions, the spread of plasmid R68.45 and similar plasmids by lateral transfer into this particular aquatic population would be a rare event.     

Development of genetic markers in cyanobacteria and stability of genetically marked strains in soil

Reporter marker GUS (-glucuronidase gene from Escherichia coli) and luc operon from the American firefly were introduced into cyanobacteria and the stability of these markers in soil was examined. To transfer the integrational vector into cyanobacteria, the genomic DNA library of Synechocystis sp. or Anabaena cylindrica maintained in pBR 322, pCY 100 and pCY 101 were transformed with HB 101 containing pRL 528 and selected for Cm^r and Amp^r. These clones of HB 101 containing pRL 528 and the vectors carrying different cyanobacterial chromosomal DNA fragments were used for triparental mating with HB 101 [pRK 2013/pRK 2073] and cyanobacteria. The frequency of transconjugants for integrational vectors was between 2.1 × 10^–5 and 4.0 × 10^–4. The transfer frequency of RSF 1010 based vectors (pDSK 519 and pCY 106) was 1.0–4.5 × 10^–4 in Synechocystis sp. whereas A. cylindrica failed to maintain these vectors. Low frequency transfer (2.0–2.3 × 10^–6) of RK 2 based vectors pVK 100 and pCY 104 was observed in A. cylindrica but these were unable to replicate in Synechocystis sp. The vectors in general were stable at least by 74.9% for 60 days of incubation in BG-11 medium. The markers were less stable in A. cylindrica (74.9–84.2%) compared to Synechocystis sp. (80.1–88.8%) at 60 days of incubation. Integrational vectors were almost 85% stable in both the strains. The RK 2 derivative of pCY 104 was less stable in A. cylindrica (74.9–77.3%) than the RSF 1010-based vector pCY 106 in Synechocystis sp. (80.1–81.0%). A maximum of 64.7% of the markers were lost in soil. The chromosomal markers through integrational vectors were found to be highly stable and 68.2–72.7% of these markers were retained in cyanobacteria at 60 days of incubation. Plasmid markers were less stable, with a loss of 64.7–48.7% at the end of the experiment. In A. cylindrica 58–65% of the RK 2 vector was lost whereas in Synechocystis sp. 49–61% of RSF 1010 was lost at 60 days of incubation.     

Genetic variance of mating frequency in the honeybee (Apis mellifera L.)

Summary. The genetic variance of queen mating frequency was studied in honeybees (Apis mellifera carnica). Worker offspring (N = 966) of 28 naturally mated half sister-queens (r = 0.25) from seven unrelated breeding lines were genotyped at four DNA microsatellites. The mating frequencies of the queens were derived from the offspring genotypes. The number of observed matings per queen ranged from 10 to 28 with an average of 17.32 ± 1.10 (number of estimated matings: 24.94 ± 2.51; number of effective matings: 20.09 ± 1.73). Half-sib analyses of the breeding lines were used to estimate heritability. Heritability was h² = 0.449 ± 0.135 for the estimated number of matings and h² = 0.262 ± 0.103 for the number of effective males, which are both significantly different from zero. We conclude that a high genetic variance for polyandry in honeybees can be favored by balanced selection between individual queen and colony level.Received 16 October 2003; revised 4 May 2004; accepted 4 May 2004.     

Kinetics of plasmid transfer among <Emphasis Type="Italic">Bacillus cereus </Emphasis>group strains within lepidopteran larvae

The cry toxin encoding plasmid pHT73 was transferred from Bacillus thuringiensis subspecies kurstaki KT0 to six B. cereus group strains in three lepidopteran (Spodoptera exigua, Plutella xyllostella and Helicoverpa armigera) larvae by conjugation. The conjugation kinetics of the plasmid was precisely studied during the larval infection using a new protocol. The infections were performed with both vegetative and sporulated strains. However, larval death only occurred when infections were made with spore and toxin preparations. Likewise, spore germinations of both donor and recipient strains were only observed in killed larvae, 44–56 h post-infection. Accordingly, kinetics showed that gene transfer between B. thuringiensis strain KT0 and other B. cereus strains only took place in dead larvae among vegetatively growing bacteria. The conjugational transfer ratios varied among different strain combinations and different larvae. The highest transfer ratio reached 5.83 × 10⁻⁶ CFU/donor between the KT0 and the AW05R recipient in Helicoverpa armigera, and all transconjugants gained the ability to produce the insecticidal crystal. These results indicated that horizontal gene transfer among B. cereus group strains might play a key role for the acquisition of extra plasmids and evolution of these strains in toxin susceptible insect larvae.