Cloning of a plasmid region specifying the N transfer system of bacterial conjugation in Escherichia coli

HindIII restriction sites were created artificially by the insertion of the transposon Tn.5 into the IncN plasmid pCU1 near a presumptive end of its conjugal transfer region (tra). This allowed cloning of an entire and continuous 19.4-kb region of this plasmid that specifies the N transfer system. The cloning vector was the nonconjugative plasmid pACYC184. The recombinant plasmid was as efficient in transfer as the parental N plasmid. Other clones and deletions extending into the tra region allowed localization of a 11.2-kb segment of this region that determines sensitivity to the N-specific bacteriophages IKe and PRD1. It could also be concluded that the ability of pCU1 to promote the killing of Klebsiella pneumoniae requires a 2-kb region that is not part of, but adjacent to the tra region.     

Transfer of the plJ101 plasmid in Streptomyces lividans requires a cis-acting function dispensable for chromosomal gene transfer

The tra gene of Streptomyces lividans plasmid plJ101 is required for both plasmid DNA transfer and plJ101-induced mobilization of chromosomal genes during mating. We show that a chromosomally inserted copy of tra mediates transfer of chromosomal DNA at high frequency but promotes efficient transfer of plasmids only when they contain a previously unknown locus, here named clt. Insertional mutation or deletion of clt from plJ101 reduced plasmid transfer mediated by either plasmid-borne or chromosomally located tra by at least three orders of magnitude, abolished the transfer-associated pocking phenomenon, and interfered with the ability of tra⁺ plasmids to promote transfer of chromosomal DNA. Our results indicate that plasmid transfer in S. lividans involves a cis-acting function dispensable for chromosomal gene transfer and imply that either the S. lividans chromosome encodes its own clt-like function or, alternatively, that transfer of plasmid and chromosomal DNA occurs by different mechanisms.     

Genetic analysis of the mobilization of the non-conjugative plasmid Clo DF13

Summary Insertion of the transposon Tn901 within a region of almost one third of the Clo DF13 genome is compared with the loss of its transfer (indicated as Mob^-) by a conjugative plasmid. By use of both insertion and deletion mutants of Clo DF13, this region was located on the Clo DF13 physical map. Studies with transfer mutants of the F plasmid showed that, in contrast with the traG gene product, the gene products of traI, traD and traM do not play an essential role in the transfer process of Clo DF13. Because Clo DF13 can be transferred under conditions in which the coningative plasmid is not transferred at all, it is obvious that normally Clo DF13 is not transferred to recipient cells as a cointegrate of the conjugative plasmid and Clo DF13. Characterization of the Mob^- Clo DF13:: Tn901 plasmids showed that the absence or alteration of the Clo DF13 specified polypeptide B (molecular weight 61,000 daltons) is correlated with the transfer deficiency of these plasmids. The existence of transfer deficient Clo DF13:: Tn901 plasmids, which direct the synthesis of polypeptide B, showed that other Clo DF13 genetic information is also involved in the transfer of this plasmid. On basis of the site of the mutation in the genome, the synthesis of polypeptide B in the minicell system and the behaviour of the Mob^- mutants in complementation studies, we preliminarily divide the Mob^- Clo DF13:: Tn901 plasmids into three different classes. The possible role of Clo DF13 genetic information involved in the transfer process of this plasmid is discussed.     

The large plasmids found in enterohemorrhagic and enteropathogenic Escherichia coli constitute a related series of transfer-defective Inc F-IIA replicons

Forty-six of 52 (88.5%) enterohemorrhagic Escherichia coli (EHEC) strains screened carried a “common” plasmid of about 90 kb which encoded sequences homologous to the Inc F-IIA replicon. A similarly high incidence of Inc F-IIA plasmid-containing strains was observed in other groups of diarrheagenic E. coli, but not in random environmental coliform isolates. Enteropathogenic E. coli (EPEC) contain plasmids of similar properties and share a 23-kb DNA fragment with plasmids from EHEC. The common region encodes the F-IIA replication region and sequences homologous to the transfer operon of the Inc F-II plasmid R1. Sequence homology varied between plasmids isolated from different EHEC/EPEC strains with >80% showing homology to the regions encoding the rep and par genes. Only 5% of plasmids from EHEC strains had intact sequences homologous to the DNA between these two regions, including the oriT site. Some plasmids with an apparently intact tra operon still failed to plaque F-pilus-specific phages. This is consistent with observations that the large plasmids of EHEC and EPEC are phenotypically nonconjugative. These results suggest that the large plasmids of EHEC/EPEC constitute a family of transfer-deficient Inc F-IIA plasmids with varying degrees of deletion in tra function. The evolutionary ramifications of this finding are considered.     

The Hydrophobic TraM Protein of pKM101 Is Required for Conjugal Transfer and Sensitivity to Donor-Specific Bacteriophage

pKM101 is a self-transmissible plasmid of the IncN incompatibility group. Analysis of the DNA sequences of the genes required for conjugal transfer suggested the existence of a previously uncharacterized open reading frame, designatedtraM,that might be required for conjugation. Merodiploid strains containing transposon insertion mutations either intraMor in neighboringtragenes were used to demonstrate thattraMconstitutes a new complementation group essential for conjugation and donor phage sensitivity. The hydrophobicity profile of TraM suggests that it contains a signal sequence. The remainder of TraM is also composed predominantly of hydrophobic amino acids but contains one possible surface exposed loop. TraM–alkaline phosphatase and TraM–β-galactosidase fusion proteins supported the hypothesis that TraM has a small cytoplasmic loop. We were unable to detect heterologous complementation between anytramutation and its homolog from thevirBoperon ofAgrobacterium tumefaciens.     

Common ancestry between IncN conjugal transfer genes and macromolecular export systems of plant and animal pathogens

The DNA sequence of a cluster of pKM101 conjugal transfer genes was determined and aligned with the genetic map of the plasmid. Eighteen genes were identified, at least eight and probably 11 of which are required for efficient conjugation. These tra genes are homologous to and colinear with genes found in the virB operon of Agrobacterium tumefaciens TI plasmids. Seven pKM101 tra genes are also homologous to ptl genes of Bordetella pertussis, which direct the export of pertussis toxin. We used TnphoA to construct translational fusions between pKM101 genes and the Escherichia coli phoA gene, which encodes alkaline phosphatase, and provide evidence that at least 11 of the 18 genes are either fully or partially exported from the cytoplasm.     

Genetic Analysis of Plasmid-specific Pheromone Signaling Encoded by pPD1 in Enterococcus faecalis

Certain plasmids in Enterococcus faecalis encode a mating response to recipient-produced peptide sex pheromones. Targeted disruption of tra genes on pPD1 suggested that TraA plays a central role in the plasmid-specific pheromone signaling pathway. TraA functioned as a negative regulator for the pheromone-inducible conjugal transfer. Complementation analysis of pPD1 tra gene mutants by pAD1 suggested that the pheromone binding function of TraC was non-specific between these plasmids, but the function of TraA and the pheromone shutdown function of TraB are plasmid-specific.     

Directed Transfer of Large DNA Fragments between Streptomyces Species

The biosynthesis of complex natural products in bacteria is invariably encoded within large gene clusters. Although this facilitates the cloning of such gene clusters, their heterologous expression in genetically amenable hosts remains a challenging problem, principally due to the difficulties associated with manipulating large DNA fragments. Here we describe a new method for the directed transfer of a gene cluster from one Streptomyces species to another. The method takes advantage of tra gene-mediated conjugal transfer of chromosomal DNA between actinomycetes. As proof of principle, we demonstrate transfer of the entire ~22-kb actinorhodin gene cluster, and also the high-frequency cotransfer of two loci that are 150 to 200 kb apart, from Streptomyces coelicolor to an engineered derivative of Streptomyces lividans.     

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.     

Conjugative plasmid pIP501 undergoes specific deletions after transfer from<Emphasis Type="Italic"> Lactococcus lactis</Emphasis> to<Emphasis Type="Italic"> Oenococcus oeni</Emphasis>

Conjugal transfer of plasmids pIP501 and its derivative pVA797 from Lactococcus lactis to Oenococcus oeni was assayed by filter mating. Plasmid pIP501 was transferred to a number of O. oeni strains whereas a single transconjugant of O. oeni M42 was recovered when pVA797 was used. Physical analysis of the transconjugant plasmids revealed that pIP501 and pVA797 underwent extensive deletions in O. oeni that affected the tra region (conjugal transfer) and SegB region (stability). All derivatives showed segregational instability in O. oeni, but were stably maintained in L. lactis. These differences correlated with the different plasmid copy numbers and the extent of deletions within the SegB region.Abbreviations CAT Chloramphenicol acetyltransferase - MLS Macrolides-lincosamides-streptogramin B resistance     

The conjugal transfer system of Agrobacterium tumefaciens octopine-type Ti plasmids is closely related to the transfer system of an IncP plasmid and distantly related to Ti plasmid vir genes.

We have determined the DNA sequences of two unlinked regions of octopine-type Ti plasmids that contain genes required for conjugal transfer. Both regions previously were shown to contain sequences that hybridize with tra genes of the nopaline-type Ti plasmid pTiC58. One gene cluster (designated tra) contains a functional oriT site and is probably required for conjugal DNA processing, while the other gene cluster (designated trb) probably directs the synthesis of a conjugal pilus and mating pore. Most predicted Tra and Trb proteins show relatively strong sequence similarity (30 to 50% identity) to the Tra and Trb proteins of the broad-host-range IncP plasmid RP4 and show significantly weaker sequence similarity to Vir proteins found elsewhere on the Ti plasmid. An exception is found in the Ti plasmid TraA protein, which is predicted to be a bifunctional nickase-helicase that has no counterpart in IncP plasmids or among Vir proteins but has homologs in at least six other self-transmissible and mobilizable plasmids. We conclude that this Ti plasmid tra system evolved by acquiring genes from two or three different sources. A similar analysis of the Ti plasmid vir region indicates that it also evolved by appropriating genes from at least two conjugal transfer systems. The widely studied plasmid pTiA6NC previously was found to be nonconjugal and to have a 12.65-kb deletion of DNA relative to other octopine-type Ti plasmids. We show that this deletion removes the promoter-distal gene of the trb region and probably accounts for the inability of this plasmid to conjugate.     

Transfer-deficient cointegrates of Flac and lambda prophage

Summary Twelve transfer-deficient mutants of the plasmid Flac were obtained by insertion of prophage lambda into secondary attachment sites within the transfer region. Insertions into eight different tra genes were identified. These mutations were strongly polar on expression of tra genes previously mapped downstream, and thus confirmed that the genes traA through traD form a single operon. However, some continued expression of traI suggested that this was transcribed in part from a promoter located between traD and tral, and in part from the transfer operon promoter. One insertion early in the transfer operon produced a plasmid-specific tra mutation not complemented by R100-1 or R1-19: this insertion was into a new gene (traY), located before traA as the first member of the transfer operon. Partial tra deletion mutants were obtained as 42° C — survivors from several of the Flac tra:: ED4 plasmids, and their properties are described.     

Genetic analysis of mutations in the transfer genes of pDU202 tra::Tn10 plasmids, caused by the excision of Tn10.

Summary Transfer-deficient derivatives of pDU202 (a Tc^s deletion mutant of R100-1) caused by the insertion of Tn10 into the R factor's transfer genes have been described previously. Tetracyline-sensitive mutants of four of these were selected. In the majority of cases the Tc^s mutation was caused by a deletion of the Tc^r genes which was often accompanied either by a deletion of some of the flanking transfer genes or by a secondary mutation which was probably an inversion. A number of preferred end points for the deletions and inversions occur in the transfer operon of pDU202. Analysis of the mutants by complementation tests with Flac tra elements confirmed that the order of genes in the promoter distal part of the tra region of pDU202 is traKBCFHGSD and traI.     

Development of a multifunctional and efficient conjugal plasmid for use in Streptomyces spp

A plasmid, pGB112, has recently been developed to transfer DNA from Escherichia coli to Streptomyces spp via conjugation. This technique made use of (A) E. coli replicon, (B) ampicillin (amp) resistance gene for selection in E. coli and thiostrepton (tsr) resistance gene for selection in Streptomyces, (C) a fragment of SCP2* replicon, (D) a 2.6 kb fragment of tra-cassette which consists of pIJ101 transfer gene (tra) and two ermE promoters, (E) a 0.8 kb fragment of oriT of (IncP) RK2. The results showed that this plasmid was able to transfer plasmid DNA from E. coli to Streptomyces coelicolor via conjugation, and that it could also transfer DNA between Streptomyces strains. Since this plasmid has both pBR322 and SCP2* replicons, it may provide a novel and useful method for genetic operation in E. coli and Streptomyces.An erratum to this article can be found at     

Unraveling the essential role in conjugation of the Tra protein of Streptomyces lividans plasmid pIJ101

Plasmid pIJ101 from Streptomyces lividans encodes a single gene, tra, that is essential for both plasmid transfer and mobilization of chromosomes during mating. The tra gene product (Tra) is a membrane protein, a portion of which shows similarity to transfer proteins of other streptomycete plasmids as well as additional bacterial chromosome partitioning proteins. This paper reviews past and present work that has focused on elucidating the precise role of the Tra protein of pIJ101 in conjugation in Streptomyces.     

Non-random distribution of transduction termini in transductants from the integrated R plasmid, R100-1

Summary Tra ⁺and tra ^–derivatives of drug resistance plasmid, R100-1, were isolated by phage P1 from an Hfr donor with integrated R100-1 and then analyzed by complementation tests with tra ^–point mutants of Flac. Tra ⁺derivatives of R100-1 carrying tetracycline resistance alone and those carrying all six drug-resistance genes could support transfer of tra ^–point mutants of Flac except Flac traJ, whereas all of tra ^–derivatives of R100-1 failed to complement any one of tra ^–point mutants of Flac. This suggests that these tra ^–derivatives of R100-1 carrying tetracycline resistance gene are deleted for all the transfer genes impaired in the Flac point mutants tested. We assume a hot point, probably a specific base sequence similar to an IS element, at the left of the tetracycline gene (Fig. 1) becomes a transduction terminus in transduction of the integrated R100-1 by phage P1. Complementation analysis of tra ^–derivatives carrying five resistance genes except the tetracycline gene led us to a supposition that a gene(s), probably analogous to traJ of the F plasmid, is located on R100-1 near the tetracycline gene which plays an important regulatory role for self-transfer as well as for the complementation of tra ^–Flac mutants.     

Genetic studies of F plasmid maintenance genes

We have used the mutagenic potential of the ampicillin resistance transposon Tn3 and in vitro deletion techniques to study essential regions for maintenance of mini-F plasmids. Our parental mini-F plasmid contains the 40.3 to 40.8F and 43.1 to 49.3F sequences, a total of 6.7 kilobases (kb). From a spectrum of insertion and deletion mutants, we find only two insertion regions; they map near the 45.8- and 46.4-kb coordinates. In each region the orientation of Tn3 insertion is unique and different from that of the other region. Spontaneous deletions extend from either region in a common direction which is toward the 49.3-kb coordinate. One deletion plasmid, pBK138-2, which arose from a combination of in vitro and spontaneous deletion events, contains just the 44- to 45.8-kb sequences and the ampicillin resistance gene of Tn3. As shown by J. Wechsler and B. C. Kline (1980, Plasmid 4, 276–280), the 45.8- to 46.3-kb sequences specify F sensitivity to the plasmid curing agent, acridine orange. Since sensitivity to acridine orange is a property of normal F maintenance, the 45.8- to 46.35-kb sequences also likely are required for normal plasmid maintenance.     

Isolation and characterization of plasmid-deletion derivatives from an Hfr made with Rts1 plasmid carrying a chromosomal mutation, plt

Summary Rts1 is a kanamycin-resistance plasmid and multiphenotypically thermosensitive. The detrimental host cell growth at 42° C is expressed only when it exitst autonomously but not in an integrated state. However, a cholate-resistant (plt) mutant of the Hfr with an integrated Rts1 plasmid was found to be thermosensitive like a strain with the same plasmid autonomoulsy. This thermosensitivity depends on the existence of the integrated plasmid. Deletion derivatives of integrated plasmid genome from this Hfr strain were isolated with or without thermal selective growth at 42° C and mapping of the plasmid was attempted by analyzing them. A total of 141 kanamycin-sensitive derivatives were independently isolated and examined for their thermosensitivity (genetic locus: tsg), incompatibility (genetic locus: incT), conjugal fertility (genetic locus: tra), restriction of T4 phase (two genetic loci: resA and resB) and for DNase activity (genetic locus: dns). On the basis of characterization of 141 deletion derivatives, they were divided into 15 patterns which would correspond to a linear map integrated into the chromosome: ... resA ... dns ... resB ... tra ... kan ... incT ... tsg ... It is noteworthy that restriction of T4D phage is determined by two distinct genes, resA and resB, intervened by dns and that propagation of T4D phage on a strain with a resA ⁺ resB ^- genome failed to produce modified progeny phages.     

ColE1 plasmid mobility: Essential and conditional functions

Summary Sequences essential for the conjugal transfer of ColE1 can be divided into a cis-acting site and a region encoding trans-acting products. Each of these was successively cloned into a non-transmissible plasmid vector. The resulting chimera was transmissible by the conjugative plasmids F'lac,pro (incFI) and R64drd11 (incI). The sequences encoding colicin E1, immunity, and incompatibility were absent from this chimera: therefore they are not essential for the conjugal transmission of the ColE1 plasmid.In contrast to ColE1, however, the same chimera was deficient in conjugal transfer initiated by R751 (incP) and R388 (incW). This suggests that ColEl sequences other than those cloned in the chimeric plasmid are necessary for its mobilization by R751 and R388. Three such regions were revealed by screening a series of ColE1 insertion mutants for transfer by R751 and R388. Two of these regions encode no other known function while the third is encoded by a region which overlaps the gene for colicin E1 itself.     

The origin of transfer (oriT) of the conjugative plasmid R46: characterization by deletion analysis and DNA sequencing

Summary The origin of transfer (oriT) is the sequence within which conjugal transfer of plasmid DNA is initiated, and is absolutely required in cis for plasmid mobilization. We have cloned oriT from the 52 kb IncN plasmid R46 on a 600 bp fragment, and mapped the limits of the relevant sequence by deletion analysis and transposon mutagenesis. The nucleotide sequence of the oriT region contains 13 direct repeats of an 11 bp consensus sequence, 3 different pairs of 10 bp inverted repeats, and a segment that is extremely A-T rich. The direct repeats are within a region required for high frequency transfer and their sequence is such that their periodic alignment along the helix may induce curvature of the DNA. Analysis of Tn1725 insertions within the sequenced fragment of R46 revealed that, unlike most other transposons, transposition of Tn1725 can cause target sequence duplications of three different sizes.