Genetic manipulations in Rhizobium meliloti utilizing two new transposon Tn5 derivatives

Summary Two derivatives of the prokaryotic transposon Tn5 were constructed in vitro. In Tn5-233, the central area of Tn5, which carries resistance to kanamycin/neomycin, bleomycin and streptomycin, is replaced by a fragment carrying resistance to the aminocyclitol antibiotics gentamycin/kanamycin and streptomycin/spectinomycin. In Tn5-235, the Escherichia coli -galactosidase gene is inserted within the streptomycin resistance gene of Tn5, and constitutively expressed from a Tn5 promoter. Both constructs transpose with about the same frequency as Tn5 in Escherichia coli and Rhizobium meliloti. When a Tn5-derivative is introduced into an R. meliloti strain which already contains a different Tn5-derivative, in situ transposon replacement is obtained at high frequency, presumably by a pair of crossovers between the IS50 sequences at the ends of the incoming and resident transposons. In this way we converted a previously isolated recA::Tn5 mutant into the corresponding recA::Tn5-233 strain, which can now be used as a genetic background in the study of complementation of other Tn5-induced mutations. We also replaced the drug markers of several Tn5-induced exo mutants, which we were then able to map relative to each other by transduction with phage M12. In a strain carrying Tn5-235 located near Tn5-233, we were able to isolate deletions of the intervening markers, presumably resulting from general recombination between the two transposons, by screening for loss of the Lac⁺ phenotype. Unlike Tn5 itself, resident Tn5-233 does not appear to suppress transposition of another incoming Tn5-derivative.Abbreviations bp base pairs - Nm neomycin - Km kanamycin - Sm streptomycin - Sp spectinomycin - Gm gentamycin - Tc tetracycline - Tp trimethoprim - Ot oxytetracycline - Rf rifampicin - Xgal 5-bromo-4-chloro-3-indolyl--d-galactoside     

Construction of a transposon containing a gene for polygalacturonate trans-eliminase from Klebsiella oxytoca

A DNA fragment containing a Klebsiella oxytoca gene for polygalacturonate trans-eliminase was cloned into the kanamycin resistance transposon Tn5. This new transposon, designated Tn5-Pga ⁺, had a transposition frequency of 1×10^-6. The broad host range plasmid pR751::Tn5-Pga ⁺ was conjugally transferred to a variety of genetic backgrounds. The ability to degrade polygalacturonate was expressed in Aeromonas hydrophila, Alcaligenes eutrophus, Azotomonas insolita, Escherichia coli, Pseudomonas putida and Rhodopseudomonas sphaeroides, but not in Zymomonas mobilis.Abbreviations PGA polygalacturonate - UGA unsaturated galacturonic acid - PATE polygalacturonate trans-eliminase - PG polygalacturonase - CVP crystal-violet pectate     

Molecular diversity and transferability of the tetracycline resistance gene <Emphasis Type="Italic">tet</Emphasis>(M), carried on Tn<Emphasis Type="Italic">916-1545</Emphasis> family transposons,in enterococci from a total food chain

In the present study, 20 enterococci belonging to the species Enterococcus faecalis (12 strains), Enterococcus faecium (4), Enterococcus durans (2), Enterococcus hirae (1) and Enterococcus mundtii (1) and originating from a total production chain of swine meat commodities were analysed to investigate the diversity of their tetracycline resistance gene tet(M). PCR–RFLP and sequence analysis showed that the tet(M) gene of most strains can be correlated with the Tn916 transposon. Conversely, tet(M) of six E. faecalis and the E. hirae strain, all isolated from pig faecal samples, may be associated with previously undescribed members of the Tn916-1545 transposon family. In vitro filter conjugation trials showed the ability of 50% of the enterococcal strains, including E. mundtii, to transfer the tet(M) gene (and the associated Tn916 and new transposons) to E. faecalis or Listeria innocua recipient strains. tet(M) gene transfer to L. innocua recipient was also directly observed in meat food products. Collectively, these sequence and conjugation data indicate that various transposons can be responsible of the spread of tetracycline resistance in enterococci and validate the opinion that Enterococcus species are important sources of antibiotic resistance genes for potentially pathogenic bacteria occurring in the food chain. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Multiple copies of functional, Tet(M)-encoding Tn916-like elements in a clinical Enterococcus faecium isolate

Tn916 and similar elements are very common in clinical enterococcal isolates, and are responsible for transmission of a variety of resistance determinants. It is commonly assumed that clinical strains carrying Tn916 have a single copy, although the actual number of copies in clinical isolates has never been systematically studied. We report a clinical isolate of Enterococcus faecium in which three distinct and excision-proficient copies of Tn916-like elements are present in the genome. All of the elements contain tet(M) genes, at least one of which confers resistance to tetracycline and minocycline. Two elements (Tn6085a, Tn6085b) are indistinguishable, containing an inserted 2758 bp Group II intron at the start of open reading frame Tn916ORF_06. The third (Tn6084) also contains the intron, but also has an ISEfa11 integrated upstream of tet(M). All three copies are able to excise from plasmid vectors when cloned in E. coli, and at least two of the elements can transfer to an E. faecium recipient strain. These data indicate that nearly identical Tn916-like elements encoding Tet(M)-mediated tetracycline/minocycline resistance can coexist in clinical E. faecium isolates.     

Transposition and transduction of plasmid DNA inStreptomyces spp.

Summary To expand the application of molecular genetics to many different streptomycete species, we have been developing two potentially widely applicable methodologies: transposon mutagenesis and plasmid transduction. We constructed three transposons from theStreptomyces lividans insertion sequence IS493. Tn5096 and Tn5097 contain an apramycin resistance gene inserted in different orientations between the two open reading frames of IS493. These transposons transpose from different plasmids into many different sites in theStreptomyces griseofuscus chromosome and into its resident linear plasmids. Tn5099 contains a promoterlessxylE gene and a hygromycin-resistance gene inserted in IS493 close to one end. Tn5099 transposes inS. griseofuscus giving operon fusions in some cases that drive expression of thexylE gene product, catechol deoxygenase, giving yellow colonies in the presence of catechol. We have also developed plasmid vectors that can be transduced into many streptomycete species by bacteriophage FP43. We describe the characterization of FP43 and mapping of several bacteriophage functions. The region of cloned FP43 DNA essential for plasmid transduction includes the origin for headful packaging.     

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.     

Site-specific integration of genes into hot spots for recombination flanking aadA in Tn21 transposons.

Summary Tn21-related transposons are widespread among bacteria and carry various resistance determinants at preferential sites, hs1 and hs2. In an in vivo integrative recombination assay it was demonstrated that these hot spots direct the integration of aminoglycoside resistance genes like aadB from Klebsiella pneumoniae and aacAI from Serratia marcescens, in a recA ^– background. The maximum required recognition sequence which must be present in both the donor and recipient plasmids is 5 CTAAAACAAAGTTA 3 (hs2). The double-site-specific recombination occurred with a frequency of 10^–5–10^–6. The resulting structures include not only replicon fusion products but also more complex structures carrying two copies of the donor plasmid or simply the donor gene flanked by hs elements. hs1 and hs2 are thought to act as recognition sites for a trans-acting site-specific recombinase. By the use of Tn21 deletion derivatives, it has been shown that the recombinase is not encoded by Tn21. This new integrative recombination system is involved in the acquisition of new genes by Tn21-related transposons and their spread among bacterial populations.     

Molecular genetics of met 17 and met 25 mutants of Saccharomyces cerevisiae: intragenic complementation between mutations of a single structural gene

Summary A method for transposon mutagenesis in Azospirillum lipoferum 29708 is reported with transposon Tn5. The suicide plasmid pSUP2021 was used to deliver Tn5 in A. lipoferum using Escherichia coli SM10 as the donor. Neomycin-resistant transconjugants were detected at a frequency of 6x10^-6 per recipient. Different types of mutants were isolated, e.g. auxotrophic, coloured, IAA-negative, and IAA-overproducers. Among the auxotrophic mutants, cysteine and methionine requirers prevailed. Random Tn5-insertion with only one copy per mutant was demonstrated by Southern blotting and hybridization. Tn5-induced mutants are relatively stable, with reversion rates of 2–20×10^-8. A gene which is a part of the carotenoid pathway is closely linked to the histidine genes. The existence of two pathways for IAA production in A. lipoferum is discussed.     

细菌中介导多重耐药的Tn7转座子研究进展

转座子是介导细菌耐药性传播的重要可移动遗传元件。Tn7转座子与细菌耐药密切相关,其携带转座模块和Ⅱ类整合子系统。Tn7编码转座相关蛋白TnsABCDE进行“剪切-粘贴”机制转座,转座核心TnsABC也可与三链DNA或Cas-RNA复合物结合实现转座。近年来新发现了多种介导多重耐药的Tn7转座子,其在介导细菌抗生素、消毒剂和重金属抗性基因的获得、传播扩散等方面发挥了重要作用。本文综述了细菌中Tn7转座子的遗传结构、转座机制、流行以及新发现的介导多重耐药的Tn7转座子,以期为细菌中Tn7转座子的深入研究提供参考。     

Occurrence of a copia-like transposable element in one of the introns of the potato starch phosphorylase gene

Summary A 37.5 kb region encompassing a set of the naphthalene degrading genes on the Pseudomonas plasmid NAH7 was found to be transposable only in the presence of the transposase encoded by the Tn1721 subgroup of the class II transposons. This newly identified mobile element, designated Tn4655, contained short (38 bp) terminal inverted repeats which shared extensive sequence homology with those of members of the Tn1721 subgroup. Tn4655 transposed by a two-step process involving formation of the cointegrate followed by its subsequent resolution. In contrast to the defect in the trans-acting factor for the first step, a functional system for the latter step was encoded within a 2.4 kb region in Tn4655. Analysis of deletion and insertion mutants demonstrated that the 2.4 kb region contained the cis-acting (res) site and the gene for a trans-acting factor (resolvase); complementation analysis indicated that Tn4655 resolvase function was not interchangeable with those of other well-studied class 11 transposons, including the Tn1721 subgroup. Tn4655 had no DNA sequences that were hybridizable with the transposase or resolvase genes of the Tn1721 subgroup.Abbreviations Ap ampicillin - Cb carbenicillin - Cm chloramphenicol - Km kanamycin - Sm streptomycin - Tc tetracycline - Tp trimethoprim     

A new example of physical linkage between Tn1 and Tn21: the antibiotic multiple-resistance region of plasmid pCFF04 encoding extended-spectrum beta-lactamase TEM-3.

Summary The genetic environment of plasmid-borne bla _TEM mutant genes, encoding nine distinct TEM-type extended-spectrum -lactamases, was studied in transconjugants from clinical isolates of enterobacteria. Colony hybridization with probes specific for tnpA and tnpR of Tn3, tnpA and tnpI of Tn21, aacA4, and IS15, and restriction endonuclease analysis of plasmid DNA indicated that the structural genes for the enzymes were always associated with intact or deleted variants of the Tn3 family. Four of the nine bla _TEM variants, which account for 62% of 222 isolates in a molecular epidemiological study, were associated with replicons indistinguishable from the epidemic Inc7-M plasmid pCFF04 that carries the blaTEM-3 gene. This suggests that mutant genes were selected from the same prototype plasmid carrying penicillinase genes bla _TEM-1 or _–2. A 6.6 kb DNA fragment of pCFF04 containing bla _TEM-3 was characterized by amplification mapping and sequencing. The results obtained indicated that bla _TEM-3 was present on a copy of Tn1 interrupted at the start codon of the transposase by a DNA sequence reminiscent of the inverted repeats of class II transposons. This partial Tn1 copy was, in turn, inserted into the transposase gene of a Tn21-like transposon containing an integron expressing an aacA4 gene. The presence of an integron can account for the various assortments of aminoglycoside resistance genes found associated with bla _TEM-3.     

Construction of a Tn5 derivative encoding bioluminescence and its introduction in Pseudomonas, Agrobacterium and Rhizobium

Summary A simple method based upon the use of a Tn5 derivative, Tn5-Lux, has been devised for the introduction and stable expression of the character of bioluminescence in a variety of gram-negative bacteria. In Tn5-Lux, the luxAB genes of Vibrio harveyi encoding luciferase are inserted on a SalI-BglII fragment between the kanamycin resistance (Km^r) gene and the right insertion sequence. The transposon derivative was placed on a transposition suicide vehicle by in situ recombination with the Tn5 suicide vector pGS9, to yield pDB30. Mating between Escherichia coli WA803 (pDB30) and a strain from our laboratory, Pseudomonas sp. RB100C, gave a Km^r transfer frequency of 10^-6 per recipient, a value 10 times lower than that obtained with the original suicide vehicle pGS9. Tn5-Lux was also introduced by insertion mutagenesis in other strains of gram-negative soil bacteria. The bioluminescence marker was expressed in the presence of n-decanal, and was monitored as chemiluminescence in a liquid scintillation counter. The recorded light intensities were fairly comparable among the strains, and ranged between 0.2 to 1.8x10⁶ cpm for a cell density of 10³ colony forming units/ml. Nodules initiated by bioluminescent strains of Rhizobium leguminosarum on two different hosts were compared for intensity of the bioluminescence they produced.     

Precise excision of bacterial transposon Tn5 in yeast

Summary We have demonstrated that precise excision of bacterial transposon Tn5 can occur in the yeast, Saccharomyces cerevisiae. Tn5 insertions in the yeast gene LYS2 were generated by transposon mutagenesis made in Escherichia coli by means of a ::Tn5 vector. Nine insertions of Tn5 into the structural part of the yeast LYS2 gene situated in a shuttle epsiomal plasmid were selected. All the plasmids with a Tn5 insertion were used to transform yeast strains carrying a deletion of the entire LYS2 gene or a deletion of the part of LYS2 overlapping the point of insertion.All insertions inactivated the LYS2 gene and were able to revert with low (about 10^-8) frequencies to lysine prototrophy. Restriction analysis of revertant plasmids revealed them to be indistinguishable from the original plasmid without Tn5 insertion. DNA sequencing of the regions containing the points of insertions, made for two revertants, proved that Tn5 excision was completely precise.     

The new class 11 transposon Tn163 is plasmid-borne in two unrelated Rhizobium leguminosarum biovar viciae strains

Tn163 is a transposable element identified in Rhizobium leguminosarum bv. viciae by its high insertion rate into positive selection vectors. The 4.6 kb element was found in only one further R. leguminosarum bv. viciae strain out of 70 strains investigated. Both unrelated R. leguminosarum bv. viciae strains contained one copy of the transposable element, which was localized in plasmids native to these strains. DNA sequence analysis revealed three large open reading frames (ORFs) and 38 bp terminal inverted repeats. ORF1 encodes a putative protein of 990 amino acids displaying strong homologies to transposases of class 11 transposons. ORF2, transcribed in the opposite direction, codes for a protein of 213 amino acids which is highly homologous to DNA invertases and resolvases of class II transposons. Homology of ORF1 and ORF2 and the genetic structure of the element indicate that Tn163 can be classified as a class II transposon. It is the first example of a native transposon in the genus Rhizobium. ORF3, which was found not to be involved in the transposition process, encodes a putative protein (256 amino acids) of unknown function. During transposition Tn163 produced direct repeats of 5 bp, which is typical for transposons of the Tn3 family. However, one out of the ten insertion sites sequenced showed a 6 by duplication of the target DNA; all duplicated sequences were A/T rich. Insertion of Tn163 into the sacB gene revealed two hot spots. Chromosomes of different R. leguminosarum bv. viciae strains were found to be highly refractory to the insertion of Tn163.     

Overproduction and secretion of Bacillus circulans endo-β-1,3-1,4-glucanase gene (bglBC1) in B. subtilis and B. megaterium

A gene coding for endo--1,3-1,4-glucanase (lichenase) containing a recombinant plasmid, pLL200K, was transferred from Bacillus circulans into a new shuttle plasmid, pLLS920, by ligating linearized DNAs of pLL200K and pUB110. B. subtilis RM125 and B. megaterium ATCC14945 transformed with pLLS920 produced the endo--1,3-1,4-glucanase. The enzyme was produced during active growth with maximum activity. The B. subtilis (pLLS920) enzyme was 83 times (8522 mU ml^–1) more active than that of the gene donor cells (103 mU ml^–1). The B. megaterium (pLLS920) enzyme was 7 times (735 mU ml^–1) more active than that of the gene donor cells. While E. coli secreted only about 10% of the produced enzyme, B. subtilis excreted the enzyme completely into the medium and B. megaterium by about 98%. The plasmid pLLS920 was stable in B. megaterium (98%), and in B. subtilis (51%) but not in E. coli (29%).     

Identification of Tn4430, a transposon of Bacillus thuringiensis functional in Escherichia coli

Summary The mobile genetic element Tn4430, originating from the gram-positive bacterium, Bacillus thuringiensis, and previously described as the Th-sequence, is the first transposon isolated from the genus Bacillus. In the present work a gene (APH-III) conferring resistance to kanamycin was inserted into this 4.2 kb transposon. Transposition experiments showed that Tn4430APH-III could transpose in the gram-negative host Escherichia coli when its insertion functions were supplied by an intact copy of Tn4430. By transposing Tn4430APH-III directly onto pBR322, it was possible to determine the nucleotide sequence of the terminal inverted repeats of Tn4430 and of the target DNA site. Identical 38 bp in inverted orientation are situated at each end of the transposon and there is a direct duplication of 5 bp at the insertion site. Thus, it is clear that Tn4430 is closely related to the transposons belonging to the Tn3 family (class II elements).     

Tn916-induced mutants of Clostridium acetobutylicum defective in regulation of solvent formation

Sixteen Tn916-induced mutants of Clostridium acetobutylicum were selected that were defective in the production of acetone and butanol. Formation of ethanol, however, was only partially affected. The strains differed with respect to the degree of solvent formation ability and could be assigned to three different groups. Type I mutants (2 strains) were completely defective in acetone and butanol production and contained one or three copies of Tn916 in the chromosome. Analysis of the mutants for enzymes responsible for solvent production revealed the presence of a formerly unknown, specific acetaldehyde dehydrogenase. The data obtained also strongly indicate that the NADP⁺-dependent alcohol dehydrogenase is in vivo reponsible for ethanol formation, whereas the NAD⁺-dependent alcohol dehydrogenase is probably involved in butanol production. No activity of this enzyme together with all other enzymes in the acetone and butanol pathway could be found in type I strains. All tetracycline-resistant mutants obtained did no longer sporulate.Non-standard abbreviations AADC acetoacetate decarboxylase - AcaDH acetaldehyde dehydrogenase - BuaDH butyraldehyde dehydrogenase - CoA-TF acetoacetyl coenzyme A: acetate/butyrate: coenzyme A transferase - NAD-ADH, NAD⁺ dependent alcohol dehydrogenase - NADP-ADH, NADP⁺ dependent alcohol dehydrogenase     

Characterization of Tn10d-Cam: a transposition-defective Tn10 specifying chloramphenicol resistance

Summary We have constructed a small, transposition-defective derivative of the transposon Tn10 that carries the chloramphenicol acetyltransferase gene of pACYC184. This new genetic element, Tn10d-Cam, transposes when Tn10 transposase is provided from a multi-copy plasmid. Transposon insertion mutagenesis of Salmonella typhimurium was performed by using a strain carrying a Tn10d-Cam insertion in an Escherichia coli F' episome as the donor in transductional crosses into recipients that carried a plasmid expressing Tn10 transposase. Tn10d-Cam insertion mutations were also generated by complementation in cis of Tn10d-Cam by a cotransducible Tn10 element that overproduces transposase. Here, transposase was provided only transiently, and the Tn10d-Cam insertion mutations were recovered in a transposase-free strain. Cis complementation was used for mutagenesis of a plasmid target. The site specificity of insertion and the effect of insertions on expression of a downstream gene were investigated, using Tn10d-Cam insertions in a plasmid carrying a segment of the histidine operon.     

Transposon-induced symbiotic mutants of Bradyrhizobium japonicum: isolation of two gene regions essential for nodulation

Summary Two strains of the soybean endosymbiont Bradyrhizobium japonicum, USDA 110 and 61 A101 C, were mutagenized with transposon Tn5. After plant infection tests of a total of 6,926 kanamycin and streptomycin resistant transconjugants, 25 mutants were identified that are defective in nodule formation (Nod^-) or nitrogen fixation (Fix^-). Seven Nod^- mutants were isolated from strain USDA 110 and from strain 61 A101 C, 4 Nod^- mutants and 14 Fix^- mutants were identified. Subsequent auxotrophic tests on these symbiotically defective mutants identified 4 His^- Nod^- mutants of USDA 110. Genomic Southern analysis of the 25 mutants revealed that each of them carried a single copy of Tn5 integrated in the genome. Three 61 A101 C Fix^- mutants were found to have vector DNA co-integrated along with Tn5 in the genome. Two independent DNA regions flanking Tn5 were cloned from the three nonauxotrophic Nod^- mutants and one His^-Nod^- mutant of USDA 110. Homogenotization of the cloned fragments into wild-type strain USDA 110 and subsequent nodulation assay of the resulting homogenotes confirmed that the Tn5 insertion was responsible for the Nod^- phenotype. Partial EcoR1 restriction enzyme maps around the Tn5 insertion sites were generated. Hybridization of these cloned regions to the previously cloned nod regions of R. meliloti and nif and nod regions of B. japonicum USDA 110 showed no homology, suggesting that these regions represent new symbiotic clusters of B. japonicum.     

A novel transposon-like structure carries the genes for pyocin AP41, a Pseudomonas aeruginosa bacteriocin with a DNase domain homology to E2 group colicins

Summary The genetic determinant for pyocin AP41, a bacteriocin produced by Pseudomonas aeruginosa, has been cloned. The determinant is located on the chromosome flanked by a pair of inverted repeats, forming a transposon-like structure (TnAP41). TnAP41 possesses some features characteristic of the Tn3 family of transposons. Based on a comparison with the structure of the corresponding region of the chromosome of a nonproducer strain, we propose that P. aeruginosa has acquired pyocinogeny by the transposition of TnAP41 into the chromosome. The determinant comprises two ORFs encoding the protein subunits responsible for the killing action (the large component) and immunity (the small component). Amino acid sequences of the C-terminus of the large component (the deoxyribonuclease domain) and the immunity protein show remarkable homology to those of E2 group colicins, suggesting that these bacteriocins, which are produced by distantly related species, have originated from a common ancestor.