Efficiency of the transfer of a pSAM2-derivative plasmid between two strains of Streptomyces lividans in conditions ranging from agar slants to non-sterile soil microcosms

Abstract: The aim of this work was to determine the efficiency of the conjugative plasmid pTS130 to transfer in various environmental conditions between two strains of Streptomyces lividans . This plasmid is a derivative of the conjugative and integrative plasmid pSAM2 isolated originally from Streptomyces ambofaciens and capable of transfer to a large range of bacteria. Our results demonstrate the high frequency of the conjugation mechanism since more than 60% of the recipient cells developed on agar slants harbored the plasmid pTS130 (as evidenced by Southern hybridization with a pSAM2 derivative plasmid probe). When donor and recipient strains were inoculated into sterile and non-sterile soil microcosms, transconjugants were detected after two days of incubation in both cases. However, the number of donor, recipient and transconjugant cells were established at a lower level in the non-sterile soil than in the sterile soil experiments. Moreover, nutrient amendment of the sterile soil was found to increase the population levels of parental strains and transfer frequencies both significantly and simultaneously. On the other hand, modifying water potential of the soil microcosms did not result in affecting the establishment of the Streptomyces lividans cells or the transfer rate.     

Plasmid transfer from Streptomyces to Mycobacterium smegmatis by spontaneous transformation

Hybrids of the Streptomyces coelicolor conjugative plasmid SCP2* and the Mycobacterium plasmid pAL5000 were transferred from Streptomyces coelicolor or Streptomyces lividans to Mycobacterium smegmatis mc2155 in plate crosses. Inactivation of the SCP2* transfer function did not prevent or reduce plasmid transfer. This transfer was DNase I sensitive and thus involved release of DNA from Streptomyces, followed by transformation of M. smegmatis. M. smegmatis growing on specific solid media was also transformed by pure CCC and linear plasmid DNA. Small plasmids were taken up intact but large plasmids suffered deletions. Competence developed within 24 h of incubation at 30 degrees C or 37 degrees C, and up to 400 transformants were obtained per microg of CCC plasmid DNA. Transformation frequencies were higher when M. smegmatis was co-cultivated with plasmid-free Streptomyces, but unaffected by resident homologous sequences or inactivation of recA in M. smegmatis. Spontaneous transformation was also observed with a circular Streptomyces transposable element which inserted into chromosomal sites. Transformative plasmid transfer was also shown to occur between M. smegmatis strains. This is the first report of non-artificially induced, spontaneous plasmid transformation in Mycobacterium.     

Detection and quantification of Streptomyces violaceolatus plasmid DNA in soil

Two methods for the direct extraction of DNA from soil were investigated using soil inoculated with Streptomyces violaceolatus ISP5438 harbouring the multicopy plasmid pIJ673. Detection limits for plasmid DNA were determined by Southern blot technique. An SDS/heat lysis method gave approximately two orders of magnitude less sensitivity than lysis and extraction by bead-beating soil inoculated with spores. The use of these two methods allowed differentiation between spore- and mycelial-borne DNA. This was due to the resistance of the spores to lysis when subjected to SDS/heat lysis.     

Improvement of transformation and electroduction in avermectin high-producer,<Emphasis Type="Italic">Streptomyces avermitilis</Emphasis>

Factors affecting the PEG-mediated transformation and electrotransformation of Streptomyces avermitilis protoplasts, an industrial avermectin high-producer, were evaluated. The maximum protoplast transformation efficiency under optimum conditions with PEG was 3 x 106 transformants per microg plasmid pIJ702 DNA. The efficiency of electrotransformation with the same plasmid the intact cells grown in medium with 0.5 mmol/L CaCl2, suspended in buffer with 0.5 mol/L sucrose +1 mmol/L MgCl2, and pulsed at an electric field strength of 10 kV/cm, 800 ohms, 25 microF, was of 2 x 10(3) transformants per microg DNA. When the cells were electroporated after mild lysozyme-treatment, the efficiency was up to 10(4) transformants per microg DNA. Electroporation of protoplasts and germlings had a lower efficiency (10(2) transformants per microg DNA). We report that electroporation under optimum conditions can be used for direct transfer of nonconjugative plasmid pIJ699 between two different Streptomyces species, S. avermitilis and S. lividans.     

Intergeneric conjugation in Streptomyces peucetius and Streptomyces sp. strain C5: chromosomal integration and expression of recombinant plasmids carrying the chiC gene

Intergeneric conjugal transfer of plasmid DNA from Escherichia coli to Streptomyces circumvents problems such as host-controlled restriction and instability of foreign DNA during the transformation of Streptomyces protoplasts. The anthracycline antibiotic-producing strains Streptomyces peucetius and Streptomyces sp. strain C5 were transformed using E. coli ET12567(pUZ8002) as a conjugal donor. When this donor species, carrying pSET152, was mated with Streptomyces strains, the resident plasmid was mobilized to the recipient and the transferred DNA was also integrated into the recipient chromosome. Analysis of the exconjugants showed stable integration of the plasmid at a single chromosomal site (attB) of the Streptomyces genome. The DNA sequence of the chromosomal integration site was determined and shown to be conserved. However, the core sequence, where the crossover presumably occurred in C5 and S. peucetius, is TTC. These results also showed that the phiC31 integrative recombination is active and the phage attP site is functional in S. peucetius as well as in C5. The efficiency and specificity of phiC31-mediated site-specific integration of the plasmid in the presence of a 3.7-kb homologous DNA sequence indicates that integrative recombination is preferred under these conditions. The integration of plasmid DNA did not affect antibiotic biosynthesis or biosynthesis of essential amino acids. Integration of a single copy of a mutant chiC into the wild-type S. peucetius chromosome led to the production of 30-fold more chitinase.     

Transfer of conjugative plasmids and mobilization of a nonconjugative plasmid between Streptomyces strains on agar and in soil.

The conjugative plasmid pIJ101 and its conjugative nondeletion derivatives pIJ303 and pIJ211 were tested for their transferability between strains of Streptomyces on laboratory media and in the soil environment. Their roles in the mobilization of the cloning vector plasmid pIJ702, a nonconjugative deletion derivative of pIJ101, were also examined. Biparental and triparental crosses were performed on agar slants and in sterile soil between the plasmid donor Streptomyces lividans and several recipient Streptomyces strains previously isolated from soil. Conjugative plasmids were transferred to seven recipients in slant crosses and to three recipients in soil. Plasmids isolated from recipients showed restriction fragment patterns identical to that of the original plasmid in S. lividans. Plasmid pIJ303 was transferred less frequently in soil than on slants, and the frequency of transfer was higher at 30 degrees C than at the other temperatures examined. Transconjugant Streptomyces strains differed in their ability to maintain pIJ303. The nonconjugative plasmid pIJ702 was mobilized on agar slants into S. coelicolor 2708, which already contains a self-transmissible plasmid. Plasmid pIJ702 was also mobilized into S. flavovirens, Streptomyces sp. strain 87A, and S. parvulus on slants and in sterile soil after triparental crosses with two donors, one containing pIJ702 and the other containing either pIJ101 or pIJ211. The presence of a conjugative plasmid donor was required for the transfer of pIJ702 to S. parvulus 1234, S. flavovirens 28, and Streptomyces sp. strain 87A. Plasmid pIJ702 was always transferred in its normal, autonomous form. Chromosomal recombination also occurred in transconjugants after the transfer of pIJ702. This is the first report of gene transfer between Streptomyces strains in soil.     

Transfer of conjugative plasmids and mobilization of a nonconjugative plasmid between Streptomyces strains on agar and in soil

The conjugative plasmid pIJ101 and its conjugative nondeletion derivatives pIJ303 and pIJ211 were tested for their transferability between strains of Streptomyces on laboratory media and in the soil environment. Their roles in the mobilization of the cloning vector plasmid pIJ702, a nonconjugative deletion derivative of pIJ101, were also examined. Biparental and triparental crosses were performed on agar slants and in sterile soil between the plasmid donor Streptomyces lividans and several recipient Streptomyces strains previously isolated from soil. Conjugative plasmids were transferred to seven recipients in slant crosses and to three recipients in soil. Plasmids isolated from recipients showed restriction fragment patterns identical to that of the original plasmid in S. lividans. Plasmid pIJ303 was transferred less frequently in soil than on slants, and the frequency of transfer was higher at 30 degrees C than at the other temperatures examined. Transconjugant Streptomyces strains differed in their ability to maintain pIJ303. The nonconjugative plasmid pIJ702 was mobilized on agar slants into S. coelicolor 2708, which already contains a self-transmissible plasmid. Plasmid pIJ702 was also mobilized into S. flavovirens, Streptomyces sp. strain 87A, and S. parvulus on slants and in sterile soil after triparental crosses with two donors, one containing pIJ702 and the other containing either pIJ101 or pIJ211. The presence of a conjugative plasmid donor was required for the transfer of pIJ702 to S. parvulus 1234, S. flavovirens 28, and Streptomyces sp. strain 87A. Plasmid pIJ702 was always transferred in its normal, autonomous form. Chromosomal recombination also occurred in transconjugants after the transfer of pIJ702. This is the first report of gene transfer between Streptomyces strains in soil.     

Unique conjugation mechanism in mycelial streptomycetes: a DNA-binding ATPase translocates unprocessed plasmid DNA at the hyphal tip

A single plasmid-encoded protein, the septal DNA translocator TraB, is sufficient to promote conjugal plasmid transfer in mycelial streptomycetes. To analyse the molecular mechanism of conjugation the closely related TraB proteins from plasmids pSG5 of Streptomyces ghanaensis and pSVH1 of Streptomyces venezuelae were characterized. TraB of pSG5 was expressed as a fusion protein with eGFP and found to be localized at the hyphal tips of Streptomyces lividans by fluorescence microscopy, which strongly indicates that conjugation takes place at the tips of the mating mycelium. The TraB protein of pSVH1 was heterologously expressed in S. lividans with an N-terminal strep-tagII and purified as a soluble protein to near homogeneity. The purified protein was shown to hydrolyse ATP and to bind to a 50 bp non-coding pSVH1 sequence containing a 14 bp direct repeat. The protein-DNA complex was too large to enter an agarose gel, indicating that multimers of TraB were bound to the DNA. Denaturation of the protein-DNA complex released unprocessed plasmid DNA demonstrating that the TraB protein does not possess nicking activity. Our experimental data provide evidence that conjugal DNA transfer in streptomycetes is mediated by the septal DNA translocator TraB, an plasmid-encoded ATPase that interacts non-covalently with DNA and translocates an unprocessed double-stranded DNA molecule at the hyphal tip into the recipient.     

Interspecific transfer of Streptomyces giant linear plasmids in sterile amended soil microcosms

The interspecific transfer of two giant linear plasmids was investigated in sterile soil microcosms. Plasmids pRJ3L (322 kb) and pRJ28 (330 kb), both encoding mercury resistance, were successfully transferred in amended soil microcosms from their streptomycete hosts, the isolates CHR3 and CHR28, respectively, to a plasmidless and mercury-sensitive strain, Streptomyces lividans TK24. Transconjugants of S. lividans TK24 were first observed after 2 to 3 days of incubation at 30 degrees C, which corresponded to the time taken for the formation of mycelia in soil. Transfer frequencies were 4.8 x 10(-4) and 3.6 x 10(-5) CFU/donor genome for pRJ3L and pRJ28, respectively. Transconjugants were analyzed by pulsed-field gel electrophoresis for the presence of plasmids, and plasmid identity was confirmed by restriction digests. Total genomic DNA digests confirmed that transconjugants were S. lividans TK24. The mercury resistance genes were shown to be on the plasmid in the transconjugants by hybridization analysis and were still functional. This is the first demonstration of transfer of giant linear plasmids in sterile soil microcosms. Giant linear plasmids were detected in many Streptomyces spp. isolated from mercury-contaminated sediments from Boston Harbor (United States), Townsville Harbor (Australia), and the Sali River (Tucuman, Argentina). Mercury resistance genes were shown to be present on some of these plasmids. Our findings that giant linear plasmids can be transferred between Streptomyces spp. and are common in environmental Streptomyces isolates suggest that these plasmids are important in gene transfer between streptomycetes in the environment.     

Terminal proteins of Streptomyces chromosome can target DNA into eukaryotic nuclei

Streptomyces species are highly abundant soil bacteria that possess linear chromosomes (and linear plasmids). The 5' ends of these molecules are covalently bound by terminal proteins (TPs), that are important for integrity and replication of the telomeres. There are at least two types of TPs, both of which contain a DNA-binding domain and a classical eukaryotic nuclear localization signal (NLS). Here we show that the NLS motifs on these TPs are highly efficient in targeting the proteins along with covalently bound plasmid DNA into the nuclei of human cells. The TP-mediated nuclear targeting resembles the inter-kingdom gene transfer mediated by Ti plasmids of Agrobacterium tumefaciens, in which a piece of the Ti plasmid DNA is targeted to the plant nuclei by a covalently bound NLS-containing protein. The discovery of the nuclear localization functions of the Streptomyces TPs not only suggests possible inter-kingdom gene exchanges between Streptomyces and eukaryotes in soil but also provides a novel strategy for gene delivery in humans and other eukaryotes.     

Conjugal plasmid transfer in Streptomyces resembles bacterial chromosome segregation by FtsK/SpoIIIE

Conjugation is a major route of horizontal gene transfer, the driving force in the evolution of bacterial genomes. Antibiotic producing soil bacteria of the genus Streptomyces transfer DNA in a unique process involving a single plasmid-encoded protein TraB and a double-stranded DNA molecule. However, the molecular function of TraB in directing DNA transfer from a donor into a recipient cell is unknown. Here, we show that TraB constitutes a novel conjugation system that is clearly distinguished from DNA transfer by a type IV secretion system. We demonstrate that TraB specifically recognizes and binds to repeated 8 bp motifs on the conjugative plasmid. The specific DNA recognition is mediated by helix α3 of the C-terminal winged-helix-turn-helix domain of TraB. We show that TraB assembles to a hexameric ring structure with a central ～3.1 nm channel and forms pores in lipid bilayers. Structure, sequence similarity and DNA binding characteristics of TraB indicate that TraB is derived from an FtsK-like ancestor protein, suggesting that Streptomyces adapted the FtsK/SpoIIIE chromosome segregation system to transfer DNA between two distinct Streptomyces cells.     

变铅青链霉菌内源线性质粒接合转移必需功能区的鉴定

通常细菌间环型质粒在接合转移过程中,单链质粒DNA在质粒内部“oriT”接合转移起始位点发生缺刻.随后,打开的单链质粒DNA通过细胞膜的Ⅳ型分泌系统转移到受体菌中.但是,链霉菌中的接合型线型质粒带有游离3′端,5′端与末端蛋白结合,因而不能以细胞-细胞间方式转移单链缺刻DNA.报道了变铅青链霉菌线型质粒SLP2衍生的环型质粒,与SLP2一样可以高频高效接合转移,并鉴定了接合转移功能区.质粒有效的接合转移功能区包含6个共转录的基因,分别编码一个Tra样的DNA转移酶、胞壁水解酶、2个膜蛋白(可以与ATP结合蛋白相互作用)和一个功能未知的蛋白质.从SalⅠR-/M-向SalⅠR/M宿主转移的质粒频率下降表明,线型和环型的质粒都是以双链的形式转移的.上述研究结果表明SLP2衍生的线型质粒和环型质粒以相似的与细胞膜/胞壁功能相关的机理进行接合转移.     

Direct repeat sequences are essential for function of the cis-acting locus of transfer (clt) of Streptomyces phaeochromogenes plasmid pJV1

The functionality of direct and inverted repeat sequences inside the cis acting locus of transfer (clt) of the Streptomyces plasmid pJV1 was determined by testing the effect of different deletions on plasmid transfer. The results show that the single most important element for pJV1 clt function is a series of evenly spaced 9 bp long direct repeats which match the consensus CCGCACA(C/G)(C/G), since their deletion caused a dramatic reduction in plasmid transfer. The presence of these repeats in the absence of any other clt sequences allowed plasmid transfer to occur at a frequency that was at least two orders of magnitude higher than that obtained in the complete absence of clt. A database search revealed regions with a similar organization, and in the same position, in Streptomyces plasmids pSN22 and pSLS, which have transfer proteins homologous to those of pJV1.     

Construction and shuttling of novel bifunctional vectors for Streptomyces spp. and Escherichia coli.

Shuttle vectors for gene transfer between Streptomyces spp. and Escherichia coli have been constructed by fusion of an artificial multicopy E. coli replicon and DNA fragments of pIJ702. Stable transfer to Streptomyces lividans was obtained. Marked differences in transformation efficiency were observed when plasmid DNA isolated from E. coli GM119 was used instead of that from strain HB101.     

Usefulness of strb1 and 16S rDNA-targeted PCR for detection of Streptomyces spp. in environmental samples

In this study, we revealed rapid detection of streptomycin-producing Streptomyces spp. by extraction of total soil DNA from 14 soil samples using a modified lysis method followed by PCR amplification ofa genus-specific sequence in the Streptomyces' 16S rDNA gene. DNA band of the expected size (438 bp) was seen with all the samples. Additionally, specific amplification of the streptomycin-coding gene (strb1) directly from soil revealed the presence of a single DNA band of 940 bp. These results indicate that PCR-amplification of Streptomyces specific genes could be used for direct detection of streptomycin-producing Streptomyces species from soil.     

pIJ101, a multi-copy broad host-range Streptomyces plasmid: functional analysis and development of DNA cloning vectors

Streptomyces lividans ISP 5434 contains four small high copy number plasmids: pIJ101 (8.9 kb), pIJ102 (4.0 kb), pIJ103 (3.9 kb) and pIJ104 (4.9 kb). The three smaller species appear to be naturally occurring deletion variants of pIJ101. pIJ101 and its in vivo and in vitro derivatives were studied after transformation into S. lividans 66. pIJ101 was found to be self-transmissible by conjugation, to elicit "lethal zygosis" and to promote chromosomal recombination at high frequency in both S. lividans 66 and S. coelicolor A3(2). A restriction endonuclease cleavage map of pIJ101 was constructed for 11 endonucleases; sites for five others were lacking. Many variants of pIJ101 were constructed in vitro by inserting DNA fragments determining resistance to neomycin, thiostrepton or viomycin, and having BamHI termini, into MboI or BclI sites on the plasmid, sometimes with deletion of segments of plasmid DNA. The physical maps of these plasmids were related to their phenotypes in respect of lethal zygosis and transfer properties. In vivo recombination tests between pairs of variant plasmids were also done. These physical and genetic studies indicated that determinants of conjugal transfer occupy less than 2.1 kb of the plasmid. A second segment is required for spread of the plasmid within a plasmid-free culture to produce the normal lethal zygosis phenotype: insertion of foreign DNA in this region caused a marked reduction in the diameter of lethal zygosis zones. The minimum replicon was deduced to be 2.1 kb or less in size; adjacent to this region is a 0.5 kb segment which may be required for stable inheritance of the plasmid. The copy number of several derivatives of pIJ101 in S. lividans 66 was between 40 and 300 per chromosome and appeared to vary with the age or physiological state of the culture. pIJ101 derivatives have a wide host range within the genus Streptomyces: 13 out of 18 strains, of diverse species, were successfully transformed. Knowledge of dispensable DNA segments and the availability of restriction sites for the insertion of DNA, deduced from the properties of plasmids carrying the E. coli plasmid pACYC184 introduced at various sites, was used in the construction of several derivatives of pIJ101 suitable as DNA cloning vectors. These were mostly designed to be non-conjugative and to carry pairs of resistance genes for selection. They include a bifunctional shuttle vector for E. coli and Streptomyces; a Streptomyces viomycin resistance gene of this plasmid is expressed in both hosts.     

Cloning and expression of a Streptomyces fradiae neomycin resistance gene in Escherichia coli

A Streptomyces fradiae DNA sequence, which codes for a neomycin phosphotransferase, has been subcloned from the Streptomyces recombinant plasmid pIJ2 [a chimera between the Streptomyces plasmid SLP1.2 and chromosomal DNA containing a neomycin (Nm) resistance gene] into the BamHI restriction enzyme site of pHV14. Three different recombinant plasmids (pWHR1, pWHR2, pWHR3) have been isolated which transform Escherichia coli to Nm resistance. Southern transfer hybridization experiments show that the recombinant plasmids contain the cloned Streptomyces Nm resistance gene, and lysates of E. coli containing the recombinant plasmids were shown to have Nm phosphotransferase activity, demonstrating that a gene from Streptomyces can be expressed in E. coli.     

不吸水链霉菌梧州新亚种限制-修饰系统初探

采用菌丝体原位包埋方法和高压脉冲电泳技术从不吸水链霉菌梧州新亚种(Streptomyces ahygroscopicus wuzhouensis neosubsp. 11371)中分离得到两条质粒DNA带.通过双向电泳证明,2个质粒均为线性分子,按照分子量大小依次命名为pSAL1、pSAL2.并对不吸水链霉菌梧州新亚种的限制-修饰系统进行初步探讨:将来自变铅青链霉菌TK54的高拷贝质粒pIJ702转化不吸水链霉菌梧州新亚种原生质体,未能得到转化子,改用pIJ702转化不吸水链霉菌梧州新亚种U-3原生质体,得到了转化子.     

Characterization of replication and conjugation of Streptomyces circular plasmids pFP1 and pFP11 and their ability to propagate in linear mode with artificially attached telomeres

Many Streptomyces species harbor circular plasmids (8 to 31 kb) as well as linear plasmids (12 to 1,700 kb). We report the characterization of two newly detected circular plasmids, pFP11 (35,139 bp) and pFP1 (39,360 bp). As on linear plasmids, their replication loci comprise repA genes and adjacent iterons, to which RepA proteins bind specifically in vitro. Plasmids containing the minimal iterons plus the repA locus of pFP11 were inherited extremely unstably; par and additional loci were required for stable inheritance. Surprisingly, plasmids containing replication loci from pFP11 or Streptomyces circular plasmid SCP2 but not from pFP1, SLP1, or pIJ101 propagated in a stable linear mode when the telomeres of a linear plasmid were attached. These results indicate bidirectional replication for pFP11 and SCP2. Both pFP11 and pFP1 contain, for plasmid transfer, a major functional traB gene (encoding a DNA translocase typical for Streptomyces plasmids) as well as, surprisingly, a putative traA gene (encoding a DNA nickase, characteristic of single-stranded DNA transfer of gram-negative plasmids), but this did not appear to be functional, at least in isolation.