Chlorobenzoate catabolism and interactions between Alcaligenes and Pseudomonas species from Bloody Run Creek

A mixed community of bacteria from surface runoff waters of the Hyde Park industrial landfill was enriched on 3-chlorobenzoate. Alcaligenes and Pseudomonas species were dominant in the community. Alcaligenes sp. BR60 carried an unstable plasmid specifying 3-chlorobenzoate catabolism. Metabolites detected in culture supernatants included chlorocatechol and chloro-cis,cis-muconic acid. Oxygen uptake in the presence of 3- and 4-substituted methyl-catechols revealed a catechol-1,2-oxygenase activity specific for substituted catechols with very limited activity for catechol. The isolate grew very slowly on benzoate. Alcaligenes sp. BR60 was isolated in co-culture with Pseudomonas fluorescens NR52. The latter contained no detectable plasmids and did not grow on benzoate or any of the chlorobenzoates in pure culture. Growth of the co-culture in Bloody Run Creek water supplemented with 3-chlorobenzoate indicated that phosphate concentrations in the water severely limited biodegradation. Under phosphate limited conditions in continuous culture, Pseudomonas fluorescens NR52 effectively scavenged available phosphate when it was present at a ratio of 1 cell to 20 of Alcaligenes sp. BR60. Under these conditions the growth of Alcaligenes sp. BR60 on 3-chlorobenzoate was reduced 5 fold, the frequency of plasmid deletion mutants increased, and 96% of the contaminant remained in the outflow in the form of the starting material or metabolites. No evidence was found for conjugation of the plasmid determining chlorobenzoate catabolism in Alcaligenes sp. BR60 to P. fluorescens NR52.Abbreviations 3 and 4 Cba chlorobenzoic acid isomers and growth phenotypes - Ba benzoic acid     

Transfer and Expression of the Catabolic Plasmid pBRC60 in Wild Bacterial Recipients in a Freshwater Ecosystem

3-Chlorobenzoate (3Cba)-degrading bacteria were isolated from the waters and sediments of flowthrough mesocosms dosed with various concentrations of 3Cba and inoculated with a 3Cba-degrading Alcaligenes sp., strain BR60. Bacteria capable of 3Cba degradation which were distinct from BR60 were isolated. They carried pBRC60, a plasmid introduced with Alcaligenes sp. strain BR60 that carries a transposable element (Tn5271) encoding 3Cba degradation. The isolates expressed these genes in different ways. The majority of pBRC60 recipients were motile, yellow-pigmented, gram-negative rods related to the group III pseudomonads and to BR60 by substrate utilization pattern. They were capable of complete 3Cba degradation at both millimolar and micromolar concentrations. Two isolates, Pseudomonas fluorescens PR24B(pBRC60) and Pseudomonas sp. strain PR120(pBRC60), are more distantly related to BR60 and both produced chlorocatechol when exposed to 3Cba at millimolar concentrations in the presence of yeast extract. These species showed poor growth in liquid 3Cba minimal medium but could degrade 3Cba in continuous cultures dosed with micromolar levels of the chemical. Laboratory matings confirm that pBRC60 can transfer from BR60 to species in both the beta and gamma subgroups of the proteobacteria and that 3Cba gene expression is variable between species. Selection pressures acting on pBRC60 recipients are discussed.     

Survival and Activity of a 3-Chlorobenzoate-Catabolic Genotype in a Natural System

A chlorobenzoate-degrading Alcaligenes strain, BR60, was introduced to flowthrough lake microcosms and exposed to 3-chlorobenzoate (3Cba) concentrations from 0 to 25 μM. A DNA probe specific for BR60 chlorobenzoate catabolic genes was used with the most probable number (MPN) technique to enumerate bacteria harboring this genetic information. This MPN-DNA hybridization method combined with [U-¹⁴C]3Cba uptake rate measurements allowed the correlation of the size and activity of a specific catabolic population in a natural mixed community for the first time. An experiment involving the release of a streptomycin-resistant strain of BR60 indicated that estimates of bacteria carrying the introduced catabolic genotype often outnumbered plate count estimates of viable BR60 by as much as 3 orders of magnitude, particularly when 3Cba inputs were high. The MPN-DNA hybridization method provided catabolic population estimates highly correlated to 3Cba exposure levels and the [U-¹⁴C]3Cba uptake rates in the microcosms. Plate counts of BR60 were poorly correlated with both 3Cba exposure levels and uptake rates. In the absence of chlorobenzoate selection, the catabolic genotype declined to very low levels by the MPN-DNA hybridization technique after 8 weeks in the microcosms.     

Molecular cloning of the 4.2 Md EcoRI fragment of Aspergillus nidulans mitochondrial DNA.

Summary The 4.2 Md EcoRI fragment of Aspergillus nidulans mitochondrial DNA was cloned using the plasmid pBR 332 as vector and E. coli as host. Hitherto unknown sequence of HindIII sites within this region of mitochondrial genome was established.     

Genetic rearrangements in plasmids specifying total degradation of chlorinated benzoic acids

Summary Growth in a chemostat of the 3-chlorobenzoatepositive Pseudomonas putida cells harboring the plasmid pAC25, in presence of cells harboring the TOL plasmid, allows emergence of cells that can also utilize 4-chlorobenzoate (4Cba). Isolation of plasmid DNA from such cells demonstrate the deletion of a 11kb (Kilobase pair) EcoR1 fragment from the pAC25 plasmid; a portion of the TOL plasmid (41.5 kb TOL^*) is also found to be transposed onto the chromosome of such cells. Further enrichment of the 4-chlorobenzoate-positive cells with 3,5-dichlorobenzoate (3,5-Dcb) as a sole carbon source has produced cells that can also slowly utilize 3,5-dichlorobenzoate. Isolation of plasmid DNA from such cells demonstrates the appearance of a second plasmid (pAC29). Restriction hybridization of pAC29 EcoRI fragments with pAC25 and TOL demonstrates that pAC29 is derived primarily by duplication of a segment of the pAC27 plasmid and a fragment from TOL, with further mutational divergence. Southern hybridization of the EcoRI-digested chromosomal DNA with ³²P-labeled TOL, pTS11 and pTS71 plasmid DNAs demonstrates the presence of the TOL^* transposon containing xylD, G, E and F genes in both 4Cba⁺ (pAC27⁺) and 3,5-DCb⁺ (pAC27⁺, pAC29⁺) cells. Isolation of plasmid DNA from 3,5-Dcb⁺ faster growing variants, obtained from slow-growing pAC27⁺ pAC29⁺ cells, demonstrates the presence of a single type of plasmid, with identical size and EcoRI digestion profile as pAC27. The implications of gene duplications and subsequent homologous recombination with regard to the biochemical pathway of 3,5-dichlorobenzoate degradation have been discussed.     

In vivo generation of R68.45-pPGH1 hybrid plasmids conferring a Phl+ (meta pathway) phenotype

Summary Plasmid pPGH1 originating from Pseudomonas putida strain H carries all the genes required for the degradation of phenol (or cresols) via the meta cleavage pathway. Besides mobilization of pPGH1 by a plasmid of the incompatibility group P-1, hybrid plasmids conferring the Phl⁺ phenotype could be selected, when R68.45 was the conjugative plasmid. The hybrids contain the complete R68.45 and part of pPGH1. Integration of Phl-DNA of pPGH1 into R68.45 occurred exclusively via the IS21 region of R68.45.Dedicated to Udo Taubeneck on the occasion of his 60th birthday     

Restriction mapping of a chlorobenzoate degradative plasmid and molecular cloning of the degradative genes

The genes for the degradation of 3-chlorobenzoic acid ( 3Cba ) are present in a 110-kb plasmid pAC27 . A circular map is established using the restriction endonucleases EcoRI, HindIII and Bg/II. The map is derived from the results obtained by partial restriction digestion, complete single and double restriction digestion and finally confirmed with hybridization of the digested fragments using different purified fragments as probes. The 3Cba degradative genes are found to be clustered in one region of the map (EcoRI fragment A) as judged by molecular cloning with a broad host range vector pLAFRI . A portion of the 3Cba degradative gene cluster appears to undergo ready recombination with the chromosome, even in a recA host, suggesting the probable transposable nature of such gene cluster.     

The site-specific deletion in plasmid pBR322

The formation of a deletion derivative of plasmid pBR322, designated pBR322 delta 1, was observed during cloning of various eukaryotic DNAs, when the BamHI site of the plasmid vector was used for construction of the recombinant molecules. The restriction analysis of six independently isolated pBR322 delta 1 plasmids allowed establishment of their complete identity. Similar deletion derivatives were also formed as a result of transformation of Escherichia coli cells by the linear form of vector pBR322 produced by BamHI cleavage, but not by SalI or HindIII. The endpoints of the deletion in one of the pBR322 delta 1 plasmids occurred at positions 375 and 16666 bp from the EcoRI site, as determined by sequence analysis. Formation of pBR322 delta 1 is most probably due to site-specific recombination between the sequence in the 1666-1670 bp region and the BamHI end of the linear pBR322 molecule. THe deletion was not controlled by the recA system of the host bacteria.     

Involvement of a chlorobenzoate-catabolic transposon, Tn5271, in community adaptation to chlorobiphenyl, chloroaniline, and 2,4-dichlorophenoxyacetic acid in a freshwater ecosystem.

A chlorobenzoate-catabolic transposon (Tn5271) was introduced on a conjugative plasmid (pBRC60) in the natural host, Alcaligenes sp. strain BR60, into lake water and sediment flowthrough microcosms. Experimental microcosms were exposed to micromolar levels of 3-chlorobenzoate, 4-chloroaniline, 2,4-dichlorophenoxyacetate, or 3-chlorobiphenyl. The populations of the host, BR60, and organisms carrying Tn5271 were monitored over a 100-day period by use of selective plate counts and the most-probable-number-DNA hybridization method. Populations of Tn5271-carrying bacteria were significantly higher in microcosms dosed with 3-chlorobenzoate, 4-chloroaniline, and 3-chlorobiphenyl than in the control microcosms, indicating that each of these chemicals exerts a selective force on this particular genotype in natural systems. The rates of 3-chlorobenzoate uptake and respiration correlated with Tn5271-carrying populations, as did the rates of 4-chloroaniline uptake and respiration. Plasmid transfer in the 3-chlorobenzoate- and 3-chlorobiphenyl-dosed microcosms resulted in the selection of three phenotypic clusters of chlorobenzoate degraders, only one of which was closely related to the original pBRC60 (Tn5271) donor, Alcaligenes sp. strain BR60. Bacteria dominating 4-chloroaniline-dosed microcosms carried IS1071, the class II insertion sequence that brackets Tn5271, on a plasmid unrelated to pBRC60. The importance of plasmid transfer and transposition during chemical adaptation is discussed.     

Construction of a Tra? deletion mutant of pAgK84 to safeguard the biological control of crown gall

Summary Agrobacterium radiobacter strain K84 is used commercially for the biological control of crown gall. It contains the conjugative plasmid pAgK84, which encodes the synthesis of agrocin 84, an antibiotic that inhibits many pathogenic agrobacteria. A breakdown of control is threatened by the transfer of pAgK84 to pathogens, which then become resistant to agrocin 84. A mutant of pAgK84 with a 5.9-kb deletion overlapping the transfer (Tra) region was constructed using recombinant DNA techniques. The BamHI fragment B1 which covers most of the Tra region was cloned in pBR325 and its internal EcoRI fragments D1 and H, which overlap the Tra region, were removed, leaving 3.7 kb and 0.5 kb of pAgK84 on either side of the deletion. The latter was increased to 3.3 kb by adding EcoRI fragment D2 from a BamHI fragment C clone. The modified pBR325 clone was mobilized into Agrobacterium strain NT1 harbouring pAgK84 with a Tn5 insertion just outside the Tra region but covered by the deletion. A Tra⁺ cointegrate was formed between the Tn5-insertion derivative and the pBR325-based deletion construct by homologous recombination. The cointegrate was transferred by conjugation to a derivative of strain K84 lacking pAgK84, in which a second recombination event generated a stable deletion-mutant by deletion-marker exchange. The resultant new strain of A. radiobacter, designated K1026, shows normal agrocin 84 production. Mating experiments show that the mutant plasmid, designated pAgK1026, is incapable of conjugal transfer at a detectable frequency.     

Stable maintenance in chemostat-grownEscherichia coli of pBR322 and pACYC184 by disruption of the tetracycline resistance gene

Plasmid stability was studied in antibiotic-free chemo-stat cultures . Disruption, either by deletion or insertion, of the tetracycline resistance gene in the EcoRl/EcoRV region of the cloning vector pBR322 or in the HindIII]BamHl region of pACYCI84 yields plasmids markedly more stable than the parent plasmids. Thus, at least for these two instances, cloning of a partitioning (par) locus is not prerequisite for plasmid maintenance.Issued as NRCC publication No. 23992.     

Soil microbial population dynamics following bioaugmentation with a 3-chlorobenzoate-degrading bacterial culture

Changes in microbial populations were evaluated following inoculation of contaminated soil with a 3-chlorobenzoate degrader. Madera sandy loam was amended with 0, 500, or 1000 g 3-chlorobenzoate g^-1 dry soil. Selected microcosms were inoculated with the degrader Comamonas testosteroni BR60. Culturable bacterial degraderswere enumerated on minimal salts media containing 3-chlorobenzoate. Culturableheterotrophic bacteria were enumerated on R2A. Isolated degraders were grouped by enterobacterial repetitive intergenic consensus sequence-polymerase chain reaction fingerprints and identified based on 16S ribosomal-DNA sequences. Bioaugmentation increased the rate of degradation at both levels of 3-chlorobenzoate. In both the 500 and 1000 g 3-chlorobenzoate g^-1 dry soil inoculated microcosms, degradersincreased from the initial inoculum and decreased following degradation of 3-CB.Inoculation delayed the development of indigenous 3-chlorobenzoate degrading populations. It is unclear if inoculation altered the composition of indigenous degrader populations. In the uninoculated soil, degraders increased from undetectable levels to 6.6 × 10⁷ colony-forming-units g^-1 dry soil in the 500 g 3-chlorobenzoate g^-1 dry soil microcosms, but none were detected in the 1000 g 3-chlorobenzoate g^-1 dry soil microcosms. Degraders isolated from uninoculated soil were identified as one of two distinct Burkholderia species.In the uninoculated soil, numbers of culturable heterotrophic bacteria initially decreased following addition of 1000 g 3-chlorobenzoate g^-1 dry soil. Inoculation with C. testosteroni reduced this negative impact on culturable bacterial numbers. The results indicate that bioaugmentation may not only increase the rate of 3-chlorobenzoate degradation but also reduce the deleterious effects of 3-chlorbenzoate on indigenous soil microbial populations.     

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.     

Cloning and endonuclease restriction analysis of argF and of the control region of the argECBH bipolar operon in Escherichia coli.

A 1.8 kb DNA fragment, liberated by endonuclease HindIII, contains the control region of the argECBH bipolar operon near one end and the weak secondary promoter of argH at the other extremity; it has been cloned in plasmid pBR322. The same plasmid vector has been used to clone the argF gene liberated from the chromosome by endonuclease BamHI. Restriction patterns for the two hybrid plasmids have been determined, using enzymes AluI, BglI, EcoRI, HaeIII, HincII, HindIII, HpaI and II, PstI and SalI. Two AluI sites situated on either side of and close to a HincII target delineate two short fragments covering the whole of the argECBH control region. The argF control elements are located in a region accessible to further dissection by BamHI, EcoRI, PstI and HindIII. Carriers of the argF plasmid produce extremely high amounts of ornithine carbamoyltransferase, a feature useful for purification of this enzyme.     

Plasmids in the bacterial assemblage of a dystrophic Lake: Evidence for plasmid-encoded nickel resistance

Sixty-two aerobic bacterial strains isolated from the unproductive dystrophic Lake Skärshultsjön (South Sweden) were screened for plasmids. The lake is considered to be an extreme environment because of its high concentration of persistent but nontoxic humic compounds. One-third of the isolates harbored multiple plasmids usually of similar high molecular weights (>25 Mdal). The plasmid-bearing strains were members of the common aquatic taxaPseudomonas spp.,Acinetobacter sp.,Alcaligenes sp.,Aeromonas/Vibrio group, andEnterobacteriaceae (taxonomy is tentative). The majority of isolates displayed multiple resistance to antibiotics and heavy metals. Some of them were capable of degrading aromatic compounds. Three isolates were chosen for curing experiments. Only strain S-68, anAlcaligenes sp., could be cured of one of its two plasmids. It harbored the two cryptic plasmids pQQ32 and pQQ70 of 32 and ca. 70 Mdal, and the latter was segregated during ethidium bromide treatment. Parental strain S-68 was capable of degrading some of nonchlorinated phenolic compounds and displayed resistance to a broad spectrum of antibiotics and the heavy metals Co²⁺, Ni²⁺, Zn²⁺, Cd²⁺, and Hg²⁺. Derivative strain S-68-41 lost its resistance to nickel, suggesting segregated plasmid PQQ70 coded for nickel resistance. Transformation experiments to restore nickel resistance in the cured derivative strain were not successful.     

Construction and characterization of new cloning vehicles. I. Ampicillin-resistant derivatives of the plasmid pMB9.

In vitro recombination via restriction endonucleases and the in vivo genetic translocation of the Ap resistance (Apr) gene resulted in the construction of a new cloning vehicle, the plasmid pBR313. This vector was derived from a ColE1-like plasmid and, while it does not produce colicon E1, it still retains colicin E1 immunity. The Apr and tetracycline resistance (Tcr) markers carried in pBR313 were derived from the ampicillin transposon (TnA) of pRSF2124 and pSC101 respectively. During the construction of pBR313, the TnA component was altered and the Apr gene in pBR313 can no longer be translocated. This plasmid has a molecular weight of 5.8 Mdalton and has been characterized using thirteen restriction enzymes, six of which (EcoRI, SmaI, HpaI, HindIII, BamHI and SalI) cleave the plasmid at unique restriction sites. This allows the molecular cloning of DNA fragments generated by these six enzymes. The restriction sites for the latter three enzymes, HindIII, BamHI and SalI, are located in the Tcr gene(s). Cloning DNA fragments into these sites alters the expression of the Tcr mechanisms thus providing a selection for cells carrying recombinant plasmid molecules. An enrichment method for AprTcS cells carrying recombinant plasmid molecules is described.     

Analysis of IS21-mediated mobilization of plasmid pACYC184 by R68.45 in Escherichia coli

Escherichia coli plasmids like pACYC184 or pBR325 can be mobilized by the P-type plasmid R68.45, which carries a tandem duplication of insertion element IS21, at a frequency of 10^?3–10^?5 per donor cell. Analysis of exconjugant cells revealed that plasmid mobilization occurs via cointegrate formation involving transposition of IS21. No resolution of cointegrates of pACYC184 and the P-type plasmid could be found in recA recipient cells. In the cointegrate, the E. coli plasmid is flanked by single copies of IS21 in direct orientation. After resolution of the cointegrate in recA⁺ recipients, the mobilizing plasmid R68.45 lost one copy of IS21 becoming indistinguishable from plasmid R68. It was shown that during mobilization, insertion element IS21 transposes to the mobilized plasmid. Insertion sites and orientations of IS21 in 33 pACYC184::IS21 insertion mutants have been determined: IS21 was found to be integrated in plasmid pACYC184 in different regions but only in one orientation. The IS21 tandem structure of plasmid R68.45 and its role in the mobilization process is discussed.     

DNA rearrangements generating artificial promoters

The promoter-cloning plasmid pBRH4 (a derivative of pBR322 with a partially deleted promoter of the tet gene) is shown to contain a sequence which is located near the EcoRI site and can operate as an effective Pribnow box, but is not the remainder of the deletion-inactivated tet promoter of pBR322. If there is a sequence homologous to the '-35' promoter region at the border of the DNA fragment inserted at the EcoRI site, then a compound promoter arises and activates the tet gene. Point mutations in the nonfunctional--35 region of pBRH4 also activate the cryptic Pribnow box. Several compound promoters were obtained through deleting small portions of DNA around the HindIII site of pBR322; the deletions moved various sequences that could operate as Pribnow boxes towards the -35 region of the tet promoter.     

Properties of plasmids from Methylomonas clara

Three independently isolated clones of the obligate methylotrophic bacterium Methylomonas clara (ATCC 31226) were tested for their plasmid content. Strains B45-BE-2 and B45-BE-3 were shown to harbor one class of plasmid molecules each, with molecular sizes of 28 MDa (46 kb) and 10 MDa (16 kb), respectively. Strain B45-BE-1 does not contain extrachromosomal DNA. Restriction maps of plasmid pBE-2 from strain B45-BE-2 and of plasmid pBE-3 from strain B45-BE-3 were established and the smaller plasmid pBE-3 shown to be a linear deletion derivative of plasmid pBE-2. Two other deletions were characterized. When subcloned into the Escherichia coli vector pBR322, plasmid pBE-3 was unable to complement for the polymerase A dependence of the pBR322 replicon. Additional experiments indicate a general failure of the M. clara specific replicon to function in E. coli.