A cleavage map of the TOL plasmid of Pseudomonas putida mt-2.

Summary A cleavage map of the TOL plasmid pWWO has been determined for the restriction endonucleases HindIII and XhoI. A number of techniques were employed including (i) digestion of purified cleavage products with a second enzyme; (ii) hybridisation of purified XhoI fragments to Southern blots of HindIII digest products and (iii) analysis of a number of deletion mutants.     

Complete sequence of the IncP-9 TOL plasmid pWW0 from Pseudomonas putida

The TOL plasmid pWW0 (117 kb) is the best studied catabolic plasmid and the archetype of the IncP-9 plasmid incompatibility group from Pseudomonas. It carries the degradative (xyl) genes for toluenes and xylenes within catabolic transposons Tn4651 and Tn4653. Analysis of the complete pWW0 nucleotide sequence revealed 148 putative open reading frames. Of these, 77 showed similarity to published sequences in the available databases predicting functions for: plasmid replication, stable maintenance and transfer; phenotypic determinants; gene regulation and expression; and transposition. All identifiable transposition functions lay within the boundaries of the 70 kb transposon Tn4653, leaving a 46 kb sector containing all the IncP-9 core functions. The replicon and stable inheritance region was very similar to the mini-replicon from IncP-9 antibiotic resistance plasmid pM3, with their Rep proteins forming a novel group of initiation proteins. pWW0 transfer functions exist as two blocks encoding putative DNA processing and mating pair formation genes, with organizational and sequence similarity to IncW plasmids. In addition to the known Tn4651 and IS1246 elements, two additional transposable elements were identified as well as several putative transposition functions, which are probably genetic remnants from previous transposition events. Genes likely to be responsible for known resistance to ultraviolet light and free radicals were identified. Other putative phenotypic functions identified included resistance to mercury and other metal ions, as well as to quaternary ammonium compounds. The complexity and size of pWW0 is largely the result of the mosaic organization of the transposable elements that it carries, rather than the backbone functions of IncP-9 plasmids.     

Adaptation of Pseudomonas putida mt-2 to growth on aromatic amines

Pseudomonas putida mt-2 (ATCC 33015) carrying the TOL plasmid pWW0 could adapt to growth on the aromatic amines aniline and m- and p-toluidine. In strain UCC2, a derivative adapted to rapid growth on these compounds, they were oxidatively deaminated to catechol or 4-methylcatechol, which in turn were dissimilated by a meta-cleavage pathway. The aniline/toluidine oxygenase and the meta-cleavage pathway enzymes were inducible by aromatic amines. Evidence is presented that in strain UCC2, plasmid pWW0 has undergone deletion of its catabolic genes, and that it is a novel plasmid, pTDN1, which is involved in the catabolism of aniline and m- and p-toluidine. The meta-cleavage pathway genes which are carried by pTDN1 were shown not to have originated in pWW0.     

Complete nucleotide sequence and gene organization of the broad-host-range plasmid RSF1010

We present the complete nucleotide sequence of RSF1010, a naturally occurring broad-host-range plasmid belonging to the Escherichia coli incompatibility group Q and encoding resistance to streptomycin and sulfonamides. A molecule of RSF1010 DNA consists of 8684 bp and has a G + C content of 61%. Analysis of the distribution of translation start and stop codons in the sequence has revealed the existence of more than 40 open reading frames potentially capable of encoding polypeptides of 60 or more amino acids. To date, products of eleven such potential RSF1010 genes have been identified through the application of controlled expression vector systems, and for eight of them, the reading frame has been confirmed by N- and/or C-terminal amino acid sequence determinations on the purified proteins. The sequencing results are discussed in relation to the systems of replication, host range, conjugal mobilization and antibiotic resistance determinants associated with the RSF1010 plasmid.     

Complete nucleotide sequence and gene organization of plasmid NTP16.

We have determined the complete nucleotide sequence of the 8.3-kb multicopy plasmid NTP16 and produced a functional map of its gene organization. Sixty percent of the plasmid DNA comprises transposon-derived sequences; in the remaining 3320 bp, we have identified three protein coding regions. NTP16 has a ColE1-type replication system, a cis-acting stability locus and a mobilization system comprising an oriT site and one mobilization protein. The roles of the other two protein products of this plasmid are unknown, but they are possibly involved in the plasmid incompatibility system.     

Transposon mutagenesis analysis of meta-cleavage pathway operon genes of the TOL plasmid of Pseudomonas putida mt-2.

Hybrid plasmids containing the regulated meta-cleavage pathway operon of TOL plasmid pWWO were mutagenized with transposon Tn1000 or Tn5. The resulting insertion mutant plasmids were examined for their ability to express eight of the catabolic enzymes in Escherichia coli. The physical locations of the insertions in each of 28 Tn1000 and 5 Tn5 derivative plasmids were determined by restriction endonuclease cleavage analysis. This information permitted the construction of a precise physical and genetic map of the meta-cleavage pathway operon. The gene order xylD (toluate dioxygenase), L (dihydroxycyclohexidiene carboxylate dehydrogenase), E (catechol 2,3-dioxygenase), G (hydroxymuconic semialdehyde dehydrogenase), F (hydroxymuconic semialdehyde hydrolase), J (2-oxopent-4-enoate hydratase), I (4-oxalocrotonate decarboxylase), and H (4-oxalocrotonate tautomerase) was established, and gene sizes were estimated. Tn1000 insertions within catabolic genes exerted polar effects on distal structural genes of the operon, but not on an adjacent regulatory gene xylS.     

An endonuclease cleavage map of the plasmid pWWO-8, a derivative of the TOL plasmid of Pseudomonas putida mt-2.

Summary Cleavage sites on the pWWO-8 plasmid were determined for the restriction endonucleases HindIII and XhoI. Terminal labelling using DNA polymerase I was particularly useful both for the characterisation of the smaller cleavage products and for confirmation of the order of fragments in the intact plasmid.     

Stability of TOL plasmid pWW0 in Pseudomonas putida mt-2 under non-selective conditions in continuous culture

Pseudomonas putida mt-2, harbouring the TOL plasmid pWW0, was grown in chemostat culture under succinate-, sulphate-, ammonium- or phosphate-limitation at different dilution rates. The fraction of mutant cells lacking the plasmid-encoded enzymes for the degradation of toluene and xylene (TOL- cells), was determined. Genetic analysis revealed that all TOL- cells isolated harboured partially deleted plasmids, lacking the TOL catabolic genes. The growth-rate advantage of the TOL- cells was quantified from the kinetics of their increase as a fraction of the total population. At a dilution rate of 0.1 h-1 no growth-rate advantage of TOL- cells was found when phosphate or ammonium were limiting. Under sulphate-limitation, ingrowth of TOL- cells was evident but did not follow a straightforward pattern. Under succinate-limitation the growth-rate advantage was the highest, particularly at low dilution rates (about 50% at D = 0.05 h-1). In phauxostat culture, at the maximal growth rate, the growth-rate advantage of TOL- cells was less than 1%. The specific activity in TOL+ cells of the plasmid-encoded enzyme catechol 2,3-dioxygenase was relatively high at a low growth rate.     

游动双孢菌线型质粒pPR2的全序列测定及分析

[目的]获得游动双孢菌线型质粒pPR2的全序列,并揭示新型的端粒复制蛋白和可能的中间复制位点.[方法]用分段克隆的方法和序列拼接获得pPR2的全序列,利用软件分析端粒DNA的二级结构和可能的端粒复制蛋白,利用链霉菌原生质体转化的方法检测可能的中间复制的位点.[结果]pPR2全长为15520 bp,(G C)含量为68.1%.其端粒末端反向重复序列的长度为329 bp,不能像多数链霉菌的线型质粒那样能形成保守的"折返"的二级结构.pPR2虽然没有参与链霉菌端粒复制的保守的tap/tpg基因,但是pPR2.3c基因编码了一个双结构域蛋白,分别同链霉菌的端粒复制相关蛋白Tap和嗜血杆菌的解旋酶具有相似性.pPR2缺少典型的链霉菌重复序列-复制基因(iteron-rep)区段,将几乎覆盖全长pPR2的两段DNA进行克隆后,不能转化变铅青链霉菌.此外,pPR2基因还编码可能参与线型DNA复制的调控的单链结合蛋白(SSB)和与放线菌质粒接合转移相关的主要蛋白(Tva).[结论]pPR2是链霉菌之外的放线菌中最小的线型质粒,其序列在游动双孢菌属的线型质粒中是首次报道.pPR2可能具有新型的端粒复制的机制,其中pPR2.2c和pPR2.3c编码可能的端粒复制蛋白.     

Regulation of the degradative pathway enzymes coded for by the TOL plasmid (pWWO) from Pseudomonas putida mt-2

Pseudomonas putida mt-2 carries a plasmid (TOL, pWWO) which codes for a single set of enzymes responsible for the catabolism of toluene and m- and p-xylene to central metabolites by way of benzoate and m- and p-toluate, respectively, and subsequently by a meta cleavage pathway. Characterization of strains with mutations in structural genes of this pathway demonstrates that the inducers of the enzymes responsible for further degradation of m-toluate include m-xylene, m-methylbenzyl alcohol, and m-toluate, whereas the inducers of the enzymes responsible for oxidation of m-xylene to m-toluate include m-xylene and m-methylbenzyl alcohol but not m-toluate. A regulatory mutant is described in which m-xylene and m-methylbenzyl alcohol no longer induce any of the pathway enzymes, but m-toluate is still able to induce the enzymes responsible for its own degradation. Among revertants of this mutant are some strains in which all the enzymes are expressed constitutively and are not further induced by m-xylene. A model is proposed for the regulation of the pathway in which the enzymes are in two regulatory blocks, which are under the control of two regulator gene products. The model is essentially the same as proposed earlier for the regulation of the isofunctional pathway on the TOL20 plasmid from P. putida MT20.     

A third transposable element,ISPpu12, from the toluene-xylene catabolic plasmid pWW0 of Pseudomonas putida mt-2

A 3,372-bp insertion sequence, ISPpu12, has been identified on the archetypal toluene-xylene TOL catabolic plasmid pWW0 from Pseudomonas putida mt-2. The insertion sequence element is located on the plasmid between bases 84397 and 87768 in a region which also contains the termini and transposase genes of the catabolic transposons Tn4651 and Tn4653 (A. Greated, L. Lambertson, P. A. Williams, and C. M. Thomas, Environ. Microbiol., in press). ISPpu12 has terminal inverted repeats of 24 bp with three mismatches and contains four open reading frames, a tnpA homologue and three open reading frames (lspA, orf1, and orf2) of undetermined function. After insertion in vitro of a Km(r) cassette into ISPpu12 either in the intergenic region between orf1 and orf2 or directly into the orf1 gene and ligation into a suicide vector, the modified ISPpu12-Km transposes at high frequency, often in multiple copies, into the chromosome of a P. putida recipient. Inactivation of lspA, orf1, and orf2 by introducing a 7-bp deletion into the 5' region of each gene had no major effect upon transposition, but a similar mutation of tnpA completely eliminated transposition. Analysis of the literature and of strains derived from the chlorobenzoate-degrading Pseudomonas sp. strain B13 suggests that the promiscuity of this element has played an important role in the history of plasmid pWW0. Database comparisons and the accompanying paper (A. J. Weightman, A. W. Topping, K. E. Hill, L. L. Lee, K. Sakai, J. H. Slater, and A. W. Thomas, J. Bacteriol. 184:6581-6591, 2002) show that ISPpu12 is a transposable element also found in other bacteria.     

Complete genome sequence of the nicotine-degrading Pseudomonas putida strain S16

Pseudomonas putida S16 is an efficient degrader of nicotine. The complete genome of strain S16 (5,984,790 bp in length) includes genes related to catabolism of aromatic and heterocyclic compounds. The genes of enzymes in the core genome and a genomic island encode the proteins responsible for nicotine catabolism.