Effect of Genomic Location on Horizontal Transfer of a Recombinant Gene Cassette Between Pseudomonas Strains in the Rhizosphere and Spermosphere of Barley Seedlings

The use of genetically engineered bacteria in natural environments constitutes a risk of transfer of recombinant DNA to the indigenous bacteria. However, chromosomal genes are believed to be less likely to transfer than genes on mobilizable and conjugative plasmids. To study this assumption, horizontal transfer of a recombinant gene cassette inserted into the chromosome of a Pseudomonas stutzeri strain, into a mobilizable plasmid (pAGM42), and into a conjugative plasmid (pKJK5) isolated from barley rhizosphere was investigated. Horizontal transfer efficiencies of the gene cassette inserted into a conjugative plasmid was 8.20 × 10⁻³ transconjugants/(donors × recipients)^1/2 in the rhizosphere and 4.57 × 10⁻² transconjugants/(donors × recipients)^1/2 in the spermosphere. Mobilization of the plasmid pAGM42 by the plasmids RP4 and pKJK5 was also detected at high levels in the microcosms, transfer efficiencies were up to 4.36 × 10⁻³ transconjugants/(donors × recipients)^1/2. Transfer of chromosomal encoded genes could not be detected in the microcosms by conjugation or transformation. However, transformation did occur by using the same bacterial strains under laboratory conditions. The rhizosphere and especially the spermosphere thus proved to be hot spot environments providing favorable conditions for gene transfer by mobilization and conjugation, but these environments did not support transformation at a detectable level. Received: 21 July 2000 / Accepted: 21 August 2000     

Assessment of the Mobilizable Vector Plasmids pSUP202 and pSUP404.2 as Genetic Tools for the Predatory Bacterium <Emphasis Type="Italic">Bdellovibrio bacteriovorus</Emphasis>

Bdellovibrio and like organisms (BALOs) form the group of predatory bacteria which require Gram-negative bacteria as prey. Genetic studies with Bdellovibrio bacteriovorus can be performed with vectors which are introduced into the predator via conjugation. The usefulness of the two vectors pSUP202 and pSUP404.2 as genetic tools were assessed. Both vectors were transferable into B. bacteriovorus by conjugative matings with an Escherichia coli K12 strain as donor. The transfer frequency was higher for vector pSUP404.2 (approx. 10⁻¹–10⁻⁴) as for pSUP202 (approx. 10⁻⁵–10⁻⁶). Vector pSUP202 with a pMB1 origin is unstable in the predatory bacterium, whereas pSUP404.2 is stably maintained in the absence of selective antibiotics. pSUP404.2 harbors two plasmid replicons, the p15A ori and the RSF1010 replication region The copy number of pSUP404.2 was determined by quantitative PCR in B. bacteriovorus and averages seven copies per genome. pSUP404.2 harbors two resistance genes (chloramphenicol and kanamycin) which can be used for cloning either by selection for transconjugants or by insertional inactivation.     

IncP plasmids are most effective in mediating conjugation between Escherichia coli and streptomycetes

Mobilizable shuttle plasmids containing the origin of transfer (oriT) region of plasmid F (IncFI), ColIb-P9 (IncI1), and RP4/RP1 (IncPα) were constructed to test the ability of the cognate conjugation system to mediate gene transfer from Escherichia coli to Streptomyces. The conjugative system of the IncPα plasmids was shown to be most effective in conjugative transfer, giving peak values of (2.7 ± 0.2) × 10⁻² S. lividans TK24 exconjugants per recipient cell. To assess whether the mating-pair formation system or the DNA-processing apparatus of the IncPα plasmids is crucial in conjugative transfer, an assay with an IncQ-based mobilizable plasmid (RSF1010) specifying its own DNA-processing system was developed. Only the IncPα plasmid mobilized the construct to S. lividans indicating that the mating-pair formation system is primarly responsible for the promiscuous transfer of the plasmids between E. coli and Streptomyces. Dynamic of conjugative transfer from E. coli to S. lividans was investigated and exconjugants starting from the first hour of mating were obtained. The text was submitted by the authors in English.     

The Virulence Plasmid of Salmonella typhimurium Is Self-Transmissible

Most isolates of Salmonella enterica serovar Typhimurium contain a 90-kb virulence plasmid. This plasmid is reported to be mobilizable but nonconjugative. However, we have determined that the virulence plasmid of strains LT2, 14028, and SR-11 is indeed self-transmissible. The plasmid of strain SL1344 is not. Optimal conjugation frequency requires filter matings on M9 minimal glucose plates with a recipient strain lacking the virulence plasmid. These conditions result in a frequency of 2.9 × 10⁻⁴ transconjugants/donor. Matings on Luria-Bertani plates, liquid matings, or matings with a recipient strain carrying the virulence plasmid reduce the efficiency by up to 400-fold. Homologs of the F plasmid conjugation genes are physically located on the virulence plasmid and are required for the conjugative phenotype.     

Conjugative transfer of tetracycline resistance in rumen streptococcal strains

In 11% of testedStreptococcus bovis strains a conjugative transfer of tetracycline resistance was observed when mating experiments were carried out on membrane filters. The recipient strain used wasS. bovis BM114 with chromosomal resistance to rifampicin. In addition, in two strains tetracycline resistance was transferred also to recipient strainEnterococcus faecium AL6. The transfer frequencies were in the range of 10⁻⁶ to 10⁻³. The donor strains were screened for the presence of plasmids and one up to four bands of plasmid DNA in all tested strains were revealed. In spite of that isolation of plasmid DNA was successful only in 53/4/114 transconjugants. Transconjugant 32/114 contained amylase activity which was higher than in the donor strain.     

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.     

A Non-Restricting and Non-Methylating <Emphasis Type="Italic">Escherichia coli</Emphasis> Strain for DNA Cloning and High-Throughput Conjugation to <Emphasis Type="Italic">Streptomyces coelicolor</Emphasis>

Escherichia coli strains are used in secondary metabolism research for DNA cloning and transferring plasmids by intergeneric conjugation. Non-restricting strains are desirable for DNA cloning and non-methylating strains are beneficial for transferring DNA to methyl-restricting hosts, like Streptomyces coelicolor. We have constructed a non-methylating E. coli strain, JTU007, by deleting the DNA methylation genes dcm and dam from the widely used non-restricting cloning host DH10B. JTU007 was tested as donor for the conjugative transfer of a plasmid containing the 39 kb actinorhodin biosynthesis gene cluster to S. lividans and S. coelicolor. The Dcm⁻ Dam⁻ strain JTU007 transferred DNA into S. coelicolor A(3)2 derivatives at high frequency. To demonstrate the usefulness of E. coli JTU007 for gene cloning, we constructed a comprehensive S. toxytricini genomic cosmid library, and transferred it using high-throughput conjugation to the methyl-restricting S. coelicolor. One of the cosmid clones produced a brown pigment, and the clone was revealed to carry a tyrosinase operon. JTU007 is more useful than ET12567 because it does not restrict methylated DNA in primary cloning, and gives higher transformation and cosmid infection frequencies.     

Effects of Rhamnolipids from Pseudomonas aeruginosa DS10-129 on Luminescent Bacteria: Toxicity and Modulation of Cadmium Bioavailability

In this study, the mixture of mono- and di-rhamnolipids produced by Pseudomonas aeruginosa DS10-129 was characterized for its toxicity and modulatory effects on Cd availability to different bacteria. Gram-negative naturally bioluminescent Vibrio fischeri and recombinant bioluminescent Pseudomonas fluorescens, P. aeruginosa, Escherichia coli, and Gram-positive Bacillus subtilis were used as model organisms. Rhamnolipids reduced the bioluminescence of these bacteria in less than a second of exposure even in relatively low concentrations (30-min EC₅₀ 45–167 mg l⁻¹). Toxicity of Cd to Gram-negative bacteria (30-min EC₅₀ values 0.16 mg l⁻¹ for E. coli, 0.96 mg l⁻¹ for P. fluorescens, and 4.4 mg l⁻¹ for V. fischeri) was remarkably (up to 10-fold) reduced in the presence of 50 mg l⁻¹ rhamnolipids. Interestingly, the toxicity of Cd to Gram-positive B. subtilis (30-min EC₅₀ value 0.49 mg l⁻¹) was not affected by rhamnolipids. Rhamnolipids had an effect on desorption of Cd from soil: 40 mg l⁻¹ rhamnolipids increased the water-extracted fraction of Cd twice compared with untreated control. However, this additionally desorbed fraction of Cd remained bound with rhamnolipids and was not available to bacteria. Hence, in carefully chosen concentrations (still effectively complexing heavy metals but not yet toxic to soil bacteria), rhamnolipids could be applied in remediation of polluted areas.     

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     

The lipopolysaccharide of recipient cells is a specific receptor for PilV proteins, selected by shufflon DNA rearrangement, in liquid matings with donors bearing the R64 plasmid

Shufflon DNA rearrangement selects one of seven PilV proteins with different C-terminal segments, which then becomes a minor component of the thin pili of Escherichia coli strains bearing the plasmid R64. The PilV proteins determine the recipient specificity in liquid matings. A recipient Escherichia coli K-12 strain was specifically recognized by the PilVA′, -C, and -C′ proteins, while E. coli B was recognized only by the PilVA′ protein. To identify specific PilV receptors in the recipient bacterial cells, R64 liquid matings were performed using various E. coli K-12 waa (rfa) mutants and E. coli B transformants as recipient cells. E. coli K-12 waa mutants lack receptors for specific PilV proteins. E. coli B cells carrying waaJ or waaJKL genes of E. coli K-12 were recognized by donors expressing the PilVC′ protein or the PilVC and -C′ proteins, respectively, in addition to the PilVA′ protein. Addition of E. coli K-12 or B lipopolysaccharide (LPS) specifically inhibited liquid matings. We conclude that the PilV proteins of the thin pili of R64-bearing donors recognize LPS molecules located on the surface of various recipient bacterial cells in liquid matings. Received: 2 September 1999 / Accepted: 18 November 1999     

Identification and characterization of a novel nitrilase from <Emphasis Type="Italic">Pseudomonas fluorescens</Emphasis> Pf-5

Nitrile groups are catabolized to the corresponding acid and ammonia through one-step reaction involving a nitrilase. Here, we report the use of bioinformatic and biochemical tools to identify and characterize the nitrilase (NitPf5) from Pseudomonas fluorescens Pf-5. The nitPf5 gene was identified via sequence analysis of the whole genome of P. fluorescens Pf-5 and subsequently cloned and overexpressed in Escherichia coli. DNA sequence analysis revealed an open-reading frame of 921 bp, capable of encoding a polypeptide of 307 amino acids residues with a calculated isoelectric point of pH 5.4. The enzyme had an optimal pH and temperature of 7.0°C and 45°C, respectively, with a specific activity of 1.7 and 1.9 μmol min⁻¹ mg protein⁻¹ for succinonitrile and fumaronitrile, respectively. The molecular weight of the nitrilase as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and gel filtration chromatography was 33,000 and 138,000 Da, respectively, suggesting that the enzyme is homotetrameric. Among various nitriles, dinitriles were the preferred substrate of NitPf5 with a K _m = 17.9 mM and k _cat/K _m = 0.5 mM⁻¹ s⁻¹ for succinonitrile. Homology modeling and docking studies of dinitrile and mononitrile substrate into the active site of NitPf5 shed light on the substrate specificity of NitPf5. Although nitrilases have been characterized from several other sources, P. fluorescens Pf-5 nitrilase NitPf5 is distinguished from other nitrilases by its high specific activity toward dinitriles, which make P. fluorescens NitPf5 useful for industrial applications, including enzymatic synthesis of various cyanocarboxylic acids.     

High Frequency Plasmid Recombination Mediated by 28 bp Direct Repeats

The stability in Escherichia coli of a mammalian expression vector (pCIneo) and its derivative candidate DNA vaccine (pGPV-PV) is described. These multicopy pMB1-type plasmids were found to recombine in several recA E. coli strains due to the presence of two 28 bp direct repeats flanking intervening sequences of 1.6 kb (pCIneo) and 3.2 kb (pGPV-PV). In this recombination event, one of the direct repeats and the intervening sequence were deleted or duplicated, originating monomeric or/and hetero-dimeric plasmid forms, respectively. Additionally, the plasmid rearrangement led to the acquisition of a kanamycin resistance phenotype. Recombination frequencies between 7.8 × 10⁻⁷ and 3.1 × 10⁻⁵ were determined for DH5α and JM109(DE3) strains, respectively. Higher recombination frequencies were found in cells previously grown up to stationary growth phase being the monomeric plasmid form the prevalent one. Real-time PCR quantification revealed the presence of approximately 1.5 × 10⁴ recombined molecules per 2 × 10⁵ cells pre-kanamycin exposure. Under selective pressure of this antibiotic, the number of recombined molecules increased approximately 2,000-fold in a 48-h period replacing the original plasmid form. The high frequency, at which deletion-duplication occurred in the absence of kanamycin selective pressure, should be regarded as a safety concern. This work highlights the impact of mutational hot spots on expression and cloning plasmid vectors and the need to carefully design plasmid vectors. Sofia C. Ribeiro and Pedro H. Oliveira contributed equally to this work.     

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.     

Over-production of β-carotene from metabolically engineered Escherichia coli

To produce recombinant β-carotene in vitro, synthetic operons encoding genes governing its biosynthesis were engineered into Escherichia coli. Constructs harboring these operons were introduced into either a high-copy or low-copy cloning vector. β-Carotene production from these recombinant E. coli cells was either constitutive or inducible depending upon plasmid copy number. The most efficient β-carotene production was with the low-copy based vector. The process was increased incrementally from a 5 l to a 50 l fermentor and finally into a 300 l fermentor. The maximal β-carotene yields achieved using the 50 l and 300 l fermentor were 390 mg l⁻¹ and 240 mg l⁻¹, respectively, with overall productivities of 7.8 mg l⁻¹ h⁻¹ and 4.8 mg l⁻¹ h⁻¹.     

Electroporation and conjugal plasmid transfer to members of the genus Aquaspirillum

Electroporation methods and conjugal matings were used to transfer several plasmid vectors to Aquaspirillum dispar and Aquaspirillum itersonii. The incompatibility P class plasmid RP4 was conjugally transferred from Escherichia coli HB101 to these spirilla, and the transconjugants subsequently donated the molecule to plasmid-free E. coli and A. dispar strains via conjugal matings. High-voltage electrotransformation was used to transfer plasmids pUCD2, pSa151 and RP4 to A. dispar and A. itersonii, at efficiencies as high as 3×10⁴ transformants per μg plasmid DNA. RP4 DNA isolated from spirillum hosts, but not RP4 from E. coli cells was successfully transferred to A. dispar and A. itersonii by electrotransformation, suggesting that modification and/or restriction activity may be present in these Aquaspirillum species.     

Carbon isotope ratio and photosynthetic activity of phytoplankton in the eutrophic Mikawa Bay,Japan

Primary production by phytoplankton in the eutrophic Mikawa Bay, Japan, was studied by simultaneous measurements of natural carbon isotope ratio (δ ¹³C) and short-term carbon uptake rates (¹³C tracer study) of size-fractionated nannoplankton (<10 μm) and net plankton (>10 μm) samples. Short-term photosynthetic rates, which represent the physiological state of algae, were variable regardless of standing stock sizes. Theδ ¹³C values of particulate organic carbon (POC) in June and July displayed horizontal variations for both the net plankton fraction (−19.8 to −12.7‰) and the nannoplankton fraction (−22.0 to −12.8‰). For both fractions, low concentrations of POC had more negativeδ ¹³C values (−22 to −18‰). Highδ ¹³C values for the net plankton were found when POC concentrations were much higher, due to red tide. This suggests that the increase in algal standing crop for the net plankton fraction resulted from accelerated photosynthetic activity. However the nannoplankton fractions with higher POC values have relatively lowδ ¹³C values.     

Transfer and Expression of a Multiple Antibiotic Resistance Plasmid in Marine Bacteria

Conjugal transfer of a multiresistance plasmid from Pseudomonas fluorescens to halophilic and halotolerant bacteria was studied under in vitro and in situ conditions. Mating conducted in broth as well as on plates yielded a plasmid transfer frequency of as high as 10⁻³. Among these two, plate mating facilitated conjugal transfer of plasmid, because the cell-to-cell contact is more in plate mating. When P. fluorescens was incubated in seawater, the organism progressively lost its colony forming activity within 15 days. Microscopic examination revealed the presence of very short rods, indicating that the cells have become viable but nonculturable (VNC). Mating conducted in natural seawater without any added nutrients revealed that the conjugal transfer is influenced by the physical state of the donor and the recipients as well as the availability of nutrients. But a plasmid transfer frequency of 10⁻⁷ was obtained even after the donor cells have become VNC suggesting that the nonculturable state and nutrient deprived condition may not limit plasmid transfer. The results suggest that the terrestrial bacteria entering into the seawaters with antibiotic resistance plasmids may be responsible for the prevalence of resistance genes in the marine environment. Received: 4 May 1998 / Accepted: 18 June 1998     

Conjugal plasmid transfer between lactococci on solid surface matings and during cheese making

Abstract The concept of deliberate use of genetically enginereed microorganisms in dairy products requires a clear understanding of their behaviour and of the dissemination of introduced DNA in these strains. Thus, transfer of a self-transmissible plasmid and a non-self-transmissible but mobilizable plasmid from an engineered strain of Lactococcus lactis subsp. lactis IL 1403 to wild-type strains of L. lactis subsp. lactis and subsp. cremoris of technological interest was studied on standard solid surface matings and in cheese during manufacture. On solid surface matings, transfer of the conjugative plasmid occurred at frequencies ranging from < 2.3 × 10⁻⁹ to 2.8 × 10⁻⁴. Mobilization of the non-conjugative plasmid was observed at a lower frequency (ca. 10⁻⁵) in only one recipient which was then selected along with another recipient strain (presenting intermediate transfer frequencies) for making Camembert cheese. During cheese making, only the transfer of the self-transmissible plasmid was observed. It occurred in the early stages of manufacturing. The transfer frequencies were 7.0 × 10⁻⁸ or 7.6 × 10⁻¹ 1, depending upon the recipient strain. These were about 3 to 4 orders of magnitude lower than on solid surface matings. Mobilization of the non-conjugative plasmid was never detected in cheese.     

Isotopic signature of nitrate in two contrasting watersheds of Brush Brook,Vermont, USA

We used the dual isotope method to study differences in nitrate export in two subwatersheds in Vermont, USA. Precipitation, soil water and streamwater samples were collected from two watersheds in Camels Hump State Forest, located within the Green Mountains of Vermont. These samples were analyzed for the δ¹⁵N and δ¹⁸O of NO₃⁻. The range of δ¹⁵N–NO₃⁻ values overlapped, with precipitation −4.5‰ to +2.0‰ (n = 14), soil solution −10.3‰ to +6.2‰ (n = 12) and streamwater +0.3‰ to +3.1‰ (n = 69). The δ¹⁸O of precipitation NO₃⁻ (mean 46.8 ± 11.5‰) was significantly different (P < 0.001) from that of the stream (mean 13.2 ± 4.3‰) and soil waters (mean 14.5 ± 4.2‰) even during snowmelt periods. Extracted soil solution and streamwater δ¹⁸O of NO₃⁻ were similar and within the established range of microbially produced NO₃⁻, demonstrating that NO₃⁻ was formed by microbial processes. The δ¹⁵N and δ¹⁸O of NO₃⁻ suggests that although the two tributaries have different seasonal NO₃⁻ concentrations, they have a similar NO₃⁻ source.