Tn4563 transposition in Streptomyces coelicolor and its application to isolation of new morphological mutants.

The Tn3-like transposon Tn4556 (and its derivatives Tn4560 and Tn4563) has been used for insertion mapping of genetic loci cloned on plasmids, but it has been difficult to obtain chromosomal insertions, largely because of the lack of a strong selection against transposon donor molecules. In this communication, we report two efficient selection techniques for transposition and their use in the isolation of chromosomal insertion mutations. A number of independent Streptomyces coelicolor morphological mutants (bld and whi) were obtained. Two of the bld mutations were mapped to locations on the chromosome by SCP1-mediated conjugation; at least one mutation, bld-5m1, appears to define a novel locus involved in control of S. coelicolor morphogenesis and antibiotic production.     

Transposition of Tn4560 of Streptomyces fradiae in Mycobacterium smegmatis

Tn4560 (8.6 kb) was derived from Tn4556, a Tn3-like element from Streptomyces fradiae. It contains a viomycin resistance gene that has not been used previously for selection in mycobacteria. Tn4560, cloned in a Streptomyces plasmid, was introduced by electroporation into Mycobacterium smegmatis mc(2)155. Tn4560 transposed into the host genome: there was no obvious target sequence preference, and insertions were in or near several conserved open reading frames. The insertions were located far apart on different AseI macrorestriction fragments. Unexpectedly, the transposon delivery plasmid, pUC1169, derived from the Streptomyces multicopy plasmid pIJ101, replicated partially in M. smegmatis, but was lost spontaneously during subculture. Replication of pUC1169 probably contributed to the relatively high efficiency of Tn4560 delivery: up to 28% of the potential M. smegmatis transformants acquired a stable transposon insertion. The data indicated that Tn4560 may be useful for random mutagenesis of M. smegmatis.     

Tn4556, a 6.8-kilobase-pair transposable element of Streptomyces fradiae.

A 6.8-kilobase-pair (kbp) transposable element (Tn4556) was found in a neomycin-producing strain of Streptomyces fradiae. This element was first observed in two 30.3-kbp plasmids (pUC1123 and pUC1124) which arose when a thiostrepton resistance gene (1 kbp) was ligated with the BclI-2 fragment (22.5 kbp) that contains the origin of replication of phage SF1. The Tn4556 segment was deleted when these plasmids were transduced into another S. fradiae host with phage SF1. These deletion plasmids (pUC1210 and pUC1211) had copy numbers of less than 1 per chromosome and were unstable. In contrast, pUC1123 and pUC1124, with copy numbers of 12 to 15 per chromosome, respectively, were relatively stable. When pUC1210 and pUC1211 were reintroduced into S. fradiae by protoplast transformation, the Tn4556 element transposed again to the plasmids at numerous new locations in either of two orientations. A copy of Tn4556 was found in the S. fradiae chromosome by hybridization studies. It appears that Tn4556 originated from the chromosome, transposed into unstable pUC1210 and pUC1211, and made stable plasmids. A temperature-sensitive hybrid plasmid carrying a viomycin resistance derivative of Tn4556 (pMT660::Tn4556::vph) was constructed. When Streptomyces lividans UC8390 containing the hybrid plasmid was grown at 39 degrees C, Tn4556::vph (Tn4560) transposed to random positions in the host chromosome.     

Auxotrophs produced by transposon mutagenesis in Streptomyces tendae ATCC 31160

Six auxotrophs were induced in Streptomyces tendae ATCC 31160 with transposon Tn 4560 . Insertion of the transposon into chromosomal DNA of these auxotrophs occurred at different sites suggesting that transposition may be random. Transposition frequency was 1 times 10^-3. Transposon-tagged antibiotic biosynthetic genes will provide a powerful tool for the isolation of genes involved in nikkomycin biosynthesis.     

Distribution of Tn551 insertion sites responsible for auxotrophy on the Staphylococcus aureus chromosome

A method was devised to efficiently select isolates of Staphylococcus aureus 8325 in which Tn551, a transposon originating on the pI258 plasmid responsible for erythromycin resistance (Emr), had translocated to the host chromosome. This method consisted of selecting for Emr at 43 degrees C with a strain in which the pI258 plasmid was unable to replicate at 43 degrees C because of a temperature-sensitive plasmid mutation. By selecting isolates that were Emr at 43 degrees C and auxotrophic for nutrients not required by the parent strain. Tn551-induced auxotrophic mutants were readily isolated. The incidence of auxotrophic classes was not random; 80% of the isolates in one experiment were Trp-, whereas only a single example of each of some of the other classes was isolated. Among the Trp- mutants, the distribution of trp genes affected and the frequency of precise excision of Tn551 from individual sites varied. When analyzed by transformation, the Tn551-induced ala, his, ilv, lys, rib, thrA, thrB, and trp mutations were shown to occupy sites previously defined by nitrosoguanidine-induced mutations. Tn551-induced mutagenesis provided three previously unrecognized classes of auxotrophs (tyr, met, and thrC), and the Tn551 integration sites resulting in these mutations have been identified. In addition, a chromosomal region (uraB) was identified by Tn551 mutagenesis that is distinct from uraA (previously defined by chemical mutagenesis). Some Tn551-induced mutations (most notably pur) could not be linked to the known linkage groups of the chromosome by transformation. With the exception of two pur mutations, all of the Tn551-induced auxotrophic mutational sites cotransformed at unity with Tn551 and, in cases in which they were selected, prototrophic transformants were always Ems. Thus, the Tn551 and auxotrophic sites are identical.     

Transposition of Tn5096 and other IS493 derivatives in Streptomyces griseofuscus.

Tn5096 was constructed by inserting an apramycin resistance gene, aac(3)IV, into IS493 from Streptomyces lividans. By using conventional and pulsed-field gel electrophoresis, Tn5096 and related transposons were shown to insert into many different locations in the Streptomyces griseofuscus chromosome and in two linear plasmids. On insertion into the target site CANTg, 3 bp appeared to be duplicated. Independent transpositions were obtained by delivery of the transposon from a temperature-sensitive plasmid. The frequency of auxotrophy among cultures containing transpositions was about 0.2%.     

New genetic techniques for group B streptococci: high-efficiency transformation, maintenance of temperature-sensitive pWV01 plasmids, and mutagenesis with Tn917.

Three techniques were developed to improve the genetic manipulation of group B streptococci (GBS). We first optimized a protocol for transformation of GBS by electroporation, which provided transformation efficiencies of 10(5) CFU/microgram. Variables that influenced the transformation efficiency were the glycine content of the competent cell growth media, the electric field strength during electroporation, the electroporation buffer composition, the host origin of the transforming plasmid, and the concentration of selective antibiotic at the final plating. Our transformation protocol provides an efficiency sufficient for cloning from ligation reactions directly into GBS, obviating an intermediate host such as Escherichia coli. Second, temperature-sensitive plasmids of the pWV01 lineage were shown to transform GBS, and their temperature-sensitive replication was confirmed. Lastly, the temperature-sensitive pWV01 plasmid pTV1OK, which contains Tn917, was used as a transposon delivery vector for the construction of genomic Tn917 mutant libraries. We have shown, for the first time, that Tn917 transposes to the GBS chromosome and at a frequency of 10(-3)/CFU. Furthermore, representative clones from a Tn917 library contained single transposon insertions that were randomly located throughout the chromosome. These techniques should provide useful methods for cloning, mutagenesis, and characterization of genes from GBS.     

Transposon mutagenesis of the Pseudomonas aeruginosa PAO chromosome and the isolation of high frequency of recombination donors

Abstract The transposons Tn 5 and Tn 2521 have been loaded on to a temperature-sensitive, replication-defective mutant of the promiscuous IncP-1 plasmid R68 and used for transposon mutagenesis of the Pseudomonas aeruginosa PAO chromosome. Tn 5 was found to be particularly useful for the generation of new auxotrophic mutations and Tn 2521 for the generation of a range of high frequency of recombination donors by plasmid integration into the chromosome. The new origins and directions of chromosome transfer mediated by this conditional plasmid replication system will greatly facilitate improved genetic mapping of PAO.     

Transposon Tn5 mutagenesis of Pseudomonas fluorescens to isolate mutants deficient in antibacterial activity

Abstract Pseudomonas fluorescens was subjected to insertion mutagenesis studies using the transposon Tn5-GM to generate mutants deficient in antibacterial activity minus mutants. The transposon located on the temperature-sensitive plasmid pCHR84 was conjugally transferred into the non-pathogenic pseudomonad using the triparental mating procedure. Random integration of Tn 5 -GM into the chromosome of P. fluorescens was achieved by heat ttreatment of the transformed cells at 42°C. Approximately 2% of transconjugants revealed an auxotrophic phenotype indicating efficient integration of the employed transposon into the chromosome of P. fluorescens . One transposon insertion mutant was obtained showing an antibacterial activity minus phenotype. This mutant (MM-7) was found to be defective in the production of an unidentified antibacterial compound against B. subtilis . These results introduce Tn 5 transposon mutagenesis as a new useful tool for the molecular analysis of P. fluorescens .     

Molecular cloning into Tn5 and integration in the Pseudomonas aeruginosa chromosome: a tool for heterologous gene expression

The DNA primase gene of the promiscuous IncP-1 conjugative plasmid RP1, encoding two polypeptides of 118 and 80 kDa, was inserted into the transposon Tn5 in Escherichia coli. The derivative transposon, Tn2523, was then transposed to a temperature-sensitive replication mutant of the promiscuous IncP-1 conjugative plasmid R68 at permissive temperature and the plasmid transferred to Pseudomonas aeruginosa strain PAO. The latter strain was then grown at non-permissive temperature to identify transposition of Tn2523 into the P. aeruginosa chromosome. Immunological and enzymic analysis showed the expression of functional primase polypeptides in the constructed P. aeruginosa strain. This strain also restored wild-type conjugational transfer proficiency, by complementation, to mutants of the IncP-1 plasmid R18 affected in transfer from P. aeruginosa to P. stutzeri or to Acinetobacter calcoaceticus due to transposon Tn7 insertion mutations in the primase gene. This strategy of cloning into a transposon and integration into the bacterial chromosome should facilitate genetic manipulation and studies of gene expression in a range of Gram-negative bacteria.     

Partial deletion of transposon Tn4560 integrated into the genome of Streptomyces tendae

Polymerase chain reaction (PCR), Southern hybridization and DNA sequencing experiments were done to determine whether all of Tn 4560 , a Streptomyces transposon, integrated into the genomes of three nikkomycin non-producing mutants. A deletion of 279 bases occurred at one end of Tn 4560 while present in the genome of one of the mutants.     

Construction, transfer and properties of a novel temperature-sensitive integrable plasmid for genomic analysis of Staphyiococcus aureus

As an alternative approach to genetic transfer and analysis, a novel integrable plasmid system was developed that should prove useful for mapping and cloning various genes in Staphylococcus aureus and other Gram-positive bacteria. The use of a restriction-deficient recipient strain and an improved protocol for protoplast plasmid transformation facilitated direct cloning of a recombinant plasmid (pPQ126) in S. aureus NCTC 8325-4. Plasmid pPQ126 (13.6 kb) is a novel, temperature-sensitive integrable plasmid containing genes encoding resistance to erythromycin and chloramphenicol (from plasmid pTV1ts), and resistance to gentamicin (from transposon Tn4001). When introduced into an appropriate recipient strain at the permissive temperature (30 degrees C), pPQ126 replicates autonomously. Integration of pPQ126 is directed into homologous chromosomal target sequences (chromosomal insertions of Tn551 or Tn4001) by growing a population of cells containing autonomous pPQ126 in the presence of gentamicin, erythromycin, and chloramphenicol at 39 degrees C (nonpermissive temperature). Elevated temperature both selects for and maintains pPQ126 as an integrated replicon. Integration of pPQ126 occurs at significantly reduced frequency in a recombination-deficient host, and does not occur in the absence of host chromosomal homology. Integrated pPQ126 excises from the chromosome under permissive conditions (30 degrees C), and excision results in derivatives of pPQ126 that harbour DNA of chromosomal origin.     

Low target site specificity of an IS6100-based mini-transposon, Tn1792, developed for transposon mutagenesis of antibiotic-producing Streptomyces

To improve transposon mutagenesis of antibiotic-producing Streptomyces, a mini-transposon, Tn1792, was constructed, based on IS6100, originally isolated from Mycobacterium fortuitum. Easily manageable transposition assays were developed to demonstrate inducible transposition of Tn1792 into the Streptomyces genome from a temperature-sensitive delivery plasmid. Introduction of the selectable aac1 gene between the inverted repeats in Tn1792 allowed for both reliable identification of transposition events in Streptomyces, and also subsequent cloning of transposon-tagged sequences in Escherichia coli. This enabled the target site specificity of Tn1792 to be determined at nucleotide resolution, revealing no significant shared homology between different target sites. Consequently, Tn1792 is well suited for random mutagenesis of Streptomyces.     

Identification of differentially regulated francisella tularensis genes by use of a newly developed Tn5-based transposon delivery system

Francisella tularensis is the etiologic agent of an intracellular systemic infection of the lymphatic system in humans called tularemia. The organism has become the subject of considerable research interest due to its classification as a category A select agent by the CDC. To aid genetic analysis of this pathogen, we have constructed a temperature-sensitive Tn5-based transposon delivery system that is capable of generating chromosomal reporter fusions with lacZ or luxCDABE, enabling us to monitor gene expression. Transposition is catalyzed by the hyperactive Tn5 transposase, whose expression is driven by the Francisella groES promoter. When high-temperature selection (42 degrees C) is applied to a bacterial culture carrying the transposon delivery plasmid, approximately 0.1% of the population is recovered with Tn5 insertions in the chromosome. Nucleotide sequence analysis of a sample of mutants revealed that the insertions occur randomly throughout the chromosome. The kanamycin-selectable marker of the transposon is also flanked by FLP recombination target sequences that allow deletion of the antibiotic resistance gene when desired. This system has been used to generate transposon mutant libraries for the F. tularensis live vaccine strain as well as two different virulent F. tularensis strains. Chromosomal reporters delivered with the transposon were used to identify genes upregulated by growth in Chamberlain's defined medium. Genes in the fsl operon, reported to be involved in iron acquisition, as well as genes in the igl gene cluster were among those identified by the screen. Further experiments implicate the ferric uptake regulator (Fur) protein in the negative regulation of fsl but not igl reporters, which occurs in an iron-dependent manner. Our results indicate that we have created a valuable new transposon that can be used to identify and characterize virulence genes in F. tularensis strains.     

The use of Pseudomonas sp. M plasmid pM3 for the transposon mutagenesis of Erwinia

The transposon containing derivatives pMTF9 (Tn9), pMTF10 (Tn10) and pMTF59 (Tn5, Tn9) of the Pseudomonas sp. M conjugative plasmid pM3 demonstrating temperature-dependent instability in Erwinia cells incubated at 37 degrees C have been isolated. The obtained plasmids have been shown to be usable for transposon-mediated mutability in the bacterial cells of Erwinia generum incubated at 37 degrees C.     

Development of a gene cloning system for Streptomyces hygroscopicus subsp. yingchengensis, a producer of three useful antifungal compounds, by elimination of three barriers to DNA transfer.

Streptomyces hygroscopicus 10-22 could not be transformed with any of the commonly used Streptomyces plasmid vectors and was resistant to plaque formation by the Streptomyces phages phi C31 and R4. Repeated selection resulted in the isolation of derivatives of S. hygroscopicus 10-22 that could be transformed with pIJ101- and pJV1-derived cloning vectors and of restriction-deficient derivatives that could accept DNA propagated in Streptomyces lividans 66. These new strains, which include three that still produce the original antibiotics, can be used as hosts for gene cloning. Insertion of nonreplicating vectors by homologous recombination and transposition of Tn4560 were demonstrated in S. hygroscopicus 10-22.     

Transposon insertion mutagenesis of Pseudomonas aeruginosa with a Tn5 derivative: application to physical mapping of the arc gene cluster

For insertional mutagenesis of Pseudomonas aeruginosa, a derivative of the kanamycin-resistance (KmR) transposon Tn5 was constructed (Tn5-751) that carried the trimethoprim-resistance (TpR) determinant from plasmid R751 as an additional marker. Double selection for KmR and TpR avoided the isolation of spontaneous aminoglycoside-resistant mutants which occur at high frequencies in P. aeruginosa. As a delivery system for the recombinant transposon, plasmid pME305, a derivative of the broad-host-range plasma RP1, proved effective; pME305 is temperature-sensitive at 43 degrees C for maintenance in Escherichia coli and P. aeruginosa and deleted for IS21 and the KmR and primase genes. In matings with an E. coli donor carrying pME9(= pME305::Tn5-751), transposon insertion mutants of P. aeruginosa PAO were recovered at approx. 5 X 10(-7)/donor at 43 degrees C. Among Tn5-751 insertional mutants 0.9% were auxotrophs. A thr::Tn5-751 mutation near the recA-like locus rec-102 is useful for the construction of recombination-deficient strains. Several arc::Tn5-751 mutants could be isolated that were defective in anaerobic utilization of arginine as an energy source. From three of these mutants the arc gene region was cloned into an E. coli vector plasmid. Since Tn5-751 has a single EcoRI site between the TpR and KmR genes, EcoRI-generated fragments carrying either resistance determinant plus adjacent chromosomal DNA could be selected separately in E. coli. Thus, a restriction map of the arc region was constructed and verified by hybridization experiments. The arc genes were tightly clustered, confirming earlier genetic evidence.     

Incompatibility properties of the IncFIII/FIV haemolytic plasmid pSU316 when integrated in the Escherichia coli chromosome

The haemolytic plasmid pSU316 is incompatible with members of the IncFIII and IncFIV incompatibility groups. Plasmid pSU307 (pSU316 hlyC::Tn5) was inserted by integrative suppression into the chromosome of JW112, a temperature-sensitive dnaA mutant of Escherichia coli. The incompatibility properties of this strain (SU51) were studied and it was found that: (1) plasmid pSU306 (pSU316 hlyA::Tn802) was rapidly lost from strain SU51 both at 30 degrees C and 42 degrees C; (2) the IncFIII plasmid pSU397 (ColB-K98::Tn802) was lost from strain SU51 and at 42 degrees C but not at 30 degrees C; and (3) the IncFIV plasmid R124 was stably maintained in strain SU51 at both temperatures. Revertants of pSU307 to the autonomous state could be obtained from SU51. These revertants exerted incompatibility towards the prototype plasmids pSU306, pSU397 and R124 in the same way as pSU307 itself. Thus, strain SU51 provided a suitable method for distinguishing the three different incompatibility determinants of plasmid pSU316.     

Use of transposons for studying the genetic organization of Vibrio cholerae non 01]

The nonagglutinating vibrions having Tn-elements inserted into the chromosome were obtained as a result of conjugal transfer of vector plasmids carrying the different transposons (Tn9, Tn10, Tn601, Tn5-Mob) and of the consequent isolation of plasmid-free clones of Vibrio cholerae non OI. Identification of auxotrophic mutations induced by the transposons inserted into the bacterial genome made possible the construction of the primary chromosomal map of Vibrio cholerae non OI. The efficient donor strains of Vibrio cholerae non OI were constructed by introducing the transposon Tn5-Mob and the helper plasmid RP-4. The donors are capable of oriented conjugal transfer of chromosome.     

Use of Tn4560 to generate nikkomycin non-producing mutants of Streptomyces tendae

Abstract Transposon Tn 4560 was used to generate three nikkomycin non-producing mutants in Streptomyces tendae ATCC 31160 Southern hybridization confirmed that Tn 4560 was present in 10–12-kb Bam HI fragments of the chromosomes of the mutants. Biologically active nikkomycins were not detected in culture broths of the mutants as determined by bioassays and HPLC. Differences in the HPLC profiles of culture broths suggest that Tn 4560 inserted into different genes in the mutants.