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1.
The complete nucleotide sequence of the bacteriocinogenic plasmid CloDF13   总被引:7,自引:0,他引:7  
The complete nucleotide sequence of the bacteriocinogenic plasmid CloDF13 has been determined. The plasmid consists of 9957 base pairs (molecular weight 6.64 X 10(6] with a GC content of 54.4%. At this moment 16 identified biological functions can be assigned to the primary structure of the CloDF13 DNA. The functions include those of eight protein encoding genes, two untranslated RNA species, and six DNA sites. We discuss these functions in relation to the structure of CloDF13 DNA. For convenience we have divided the CloDF13 genome into five defined regions: region I (origin of vegetative replication, priming and control of replication, type I incompatibility), region II (cloacin DF13, cloacin immunity, cloacin release, cloacin operon control), region III (double-stranded DNA-phage interaction, type II incompatibility, multimer resolution), region IV (inhibition of male specific RNA phages and transfer of Flac), and region V (mobility proteins, basis of mobility).  相似文献   

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The mobilization region of plasmid CloDF13 was localized to a 3.6 kb DNA segment that was analysed by transposon mutagenesis and DNA sequencing. Analysis of the DNA sequence allowed us to identify two mobilization genes and the CloDF13 origin of conjugative transfer (oriT), which was localized to a 661 bp segment at one end of the mobilization (Mob) region. Thus, the overall organization was oriT-mobB-mobC. Plasmid CloDF13 DNA was isolated mainly as a relaxed form that contained a unique strand and site-specific cleavage site (nic). The position of nic was mapped to the sequence 5'-GGGTG/GTCGGG-3' by primer extension and sequencing reactions. Analysis of Mob- insertion mutants showed that mobC was essential for CloDF13 relaxation in vivo. The sequence of mobC predicts a protein (MobC) of 243 amino acids without significant similarity to previously reported relaxases. In addition to MobC, the product of mobB was also required for CloDF13 mobilization and for oriT relaxation in vivo. mobB codes for a protein (MobB) of 653 amino acids with three predicted transmembrane segments at the N-terminus and the NTP-binding motifs characteristic of the TraG family of conjugative coupling proteins. Membership of the TraG family was confirmed by the fact that CloDF13 mobilization by plasmid R388 was independent of TrwB and only required PILW. However, contrary to the activities found for other coupling proteins, MobB was required for efficient oriT cleavage in vivo, suggesting an additional role for this particular protein during oriT processing for mobilization. Additionally, the cleavage site produced by the joint activities of MobB and MobC was shown to contain unblocked ends, suggesting that no stable covalent intermediates between relaxase and DNA were formed during the nic cleavage reaction. This is the first report of a conjugative transfer system in which nic cleavage results in a free nicked-DNA intermediate.  相似文献   

4.
Excretion of cloacin DF13 was studied in Escherichia coli cells harboring different CloDF13 insertion and deletion mutant plasmids. Insertions of a transposon at position 9.8 or 11.5% of the CloDF13 plasmid blocked the expression of gene H and strongly reduced the specific excretion of cloacin DF13 into the culture medium, but had no effect on the production of cloacin DF13. Insertions in or deletions of regions of the CloDF13 DNA upstream the cloacin operon did not affect the excretion or production of the bacteriocin. Introduction of a CloDF13 plasmid that encodes for the gene H product in cells harboring a CloDF13 plasmid with an insertion in gene H stimulated the excretion of cloacin DF13 significantly in mitomycin C-induced and in noninduced cultures. Cloacin DF13 in cloacinogenic cells that did not produce the gene H protein was found to be about 90% located in the cytoplasm. In cells that did produce the gene H product, about 30% of the cloacin DF13 molecules were found in the cytoplasm, about 18% were found in the periplasm, about 2% were in the membranes, and about 50% were located in the culture supernatant. Cyclic AMP stimulated the production but not the excretion of cloacin DF13 in cells cultivated in the presence of glucose.  相似文献   

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6.
The nucleotide sequence of a DNA fragment of a small colicigonenic plasmid Cold-CA23 containing the lysis gene cdl has been defined. An open reading frame has been found within the fragment for 48 amino acid polypeptide with the molecular mass 4920 Da. The polypeptide is homologous to the lysis proteins encoded by the small colicinogenic plasmids ColE1 and CloDF13. The homology was also found for the structural and functional arrangement of the cdl gene and the plasmid CloDF13 lysis gene. The analysis of the possible secondary structures of the lysis protein encoded by cdl gene has revealed the amino acid sequences able to form the alternative structures. The described feature is supposed to be required for lysis protein translocation from cytoplasmatic to outer membrane of Escherichia coli cells.  相似文献   

7.
The car and ant operons originally isolated from Pseudomonas resinovorans strain CA10 contain the genes encoding the carbazole/dioxin-degrading enzymes and anthranilate 1,2-dioxygenase, respectively, and are located on the plasmid pCAR1. The entire nucleotide sequence of pCAR1 was determined to elucidate the mechanism by which the car operon may have been assembled and distributed in nature. pCAR1 is a 199,035-bp circular plasmid, and carries 190 open reading frames. Although the incompatibility group of pCAR1 is unclear, its potential origin for replication, OriP, and Rep and Par proteins appeared to be closely related to those of plasmid pL6.5 isolated from Pseudomonas fluorescens. The potential tellurite-resistance klaABC genes identified in the neighboring region of repA gene were also related to those in IncP plasmid originally identified from pseudomonads. On the other hand, we found genes encoding proteins that showed low but significant homology (20-45% identity) with Trh and Tra proteins from Enterobacteriaceae, which are potentially involved in conjugative transfer of plasmids or genomic island, suggesting that pCAR1 is also a conjugative plasmid. In pCAR1, we found tnpAcCST genes that encoded the proteins showing >70% length-wise identities with those are encoded by the toluene/xylene-degrading transposon Tn4651 of TOL plasmid pWW0. Both car and ant degradative operons were found within a 72.8-kb Tn4676 sequence defined by flanking tnpAcC and tnpST genes and bordered by a 46-bp inverted repeat (IR). Within Tn4676 and its flanking region, we found the remnants of numerous mobile genetic elements, such as the duplicated transposase genes that are highly homologous to tnpR of Tn4653 and the multiple candidates of IRs for Tn4676 and Tn4653-like element. We also found distinct regions with high and low G+C contents within Tn4676, which contain an ant operon and car operon, respectively. These results suggested that multiple step assembly could have taken place before the current structure of Tn4676 had been captured.  相似文献   

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Agrobacterium uses a mechanism similar to conjugation for trans-kingdom transfer of its oncogenic T-DNA. A defined VirB/VirD4 Type IV secretion system is responsible for such a genetic transfer. In addition, certain virulence proteins as VirE2 can be mobilized into host cells by the same apparatus. VirE2 is essential to achieve plant but not yeast transformation. We found that the limited host range plasmid CloDF13 can be recruited by the virulence apparatus of Agrobacterium for transfer to eukaryotic hosts. As expected the VirB transport complex was required for such trans-kingdom DNA transfer. However, unexpectedly, the coupling factor VirD4 turned out to be necessary for transfer to plants but not for transport into yeast. The CloDF13 encoded coupling factor (Mob) was essential for transfer to both plants and yeast though. This is interpreted by the different specificities of Mob and VirD4. Hence, Mob being required for the transport of the CloDF13 transferred DNA (to both plants and yeast) and VirD4 being required for transport of virulence proteins such as VirE2. Nevertheless, the presence of the VirE2 protein in the host plant was not sufficient to restore the deficiency for VirD4 in the transforming bacteria. We propose that Mob functions encoded by the plasmid CloDF13 are sufficient for DNA mobilization to eukaryotic cells but that the VirD4-mediated pathway is essential to achieve DNA nuclear establishment specifically in plants. This suggests that other Agrobacterium virulence proteins besides VirE2 are translocated and essential for plant transformation.  相似文献   

10.
An 18 633 bp region containing the replicon from the approximately 53 kb pBM400 plasmid of Bacillus megaterium QM B1551 has been sequenced and characterized. This region contained a complete rRNA operon plus 10 other potential open reading frames (ORFs). The replicon consisted of an upstream promoter and three contiguous genes (repM400, orfB and orfC) that could encode putative proteins of 428, 251 and 289 amino acids respectively. A 1.6 kb minimal replicon was defined and contained most of repM400. OrfB was shown to be required for stability. Three 12 bp identical tandem repeats were located within the coding region of repM400, and their presence on another plasmid caused incompatibility with their own cognate replicon. Nonsense, frameshift and deletion mutations in repM400 prevented replication, but each mutation could be complemented in trans. RepM400 had no significant similarity to sequences in the GenBank database, whereas five other ORFs had some similarity to gene products from other plasmids and the Bacillus genome. An rRNA operon was located upstream of the replication region and is the first rRNA operon to be sequenced from B. megaterium. Its unusual location on non-essential plasmid DNA has implications for systematics and evolutionary biology.  相似文献   

11.
The ability of conjugative plasmids from six different incompatibility groups to mobilize a set of mobilizable plasmids was examined. The mobilization frequencies of plasmids RSF1010, ColE1, ColE3, and CloDF13 varied over seven orders of magnitude, depending on the helper conjugative plasmid used. Mobilization of CloDF13 was unique in that it did not require TrwB, TraG or TraD (all members of the TraG family) for mobilization by R388, RP4 or F, respectively. CloDF13 itself codes for an essential mobilization protein (MobB) which is also a TraG homolog, only requiring a source of the genes for pilus formation. Besides, CloDF13 was mobilized efficiently by all conjugative plasmids, suggesting that TraG homologs are the primary determinants of the mobilization efficiency of a plasmid, interacting differentialy with the various relaxosomes. Previous results indicated that TraG and TrwB were interchangeable for mobilization of RSF1010 and ColE1 by PILW (the pilus system of IncW plasmids) but TraG could not complement conjugation of trwB mutants, suggesting that additional interactions were taking place between TrwB and oriT(R388) that were not essential for mobilization. To further test this hypothesis, we analyzed the mobilization frequencies of ColE1 and RSF1010 by the P, W, and F pili in the presence of alternative TraG homologs. The results obtained indicated that the frequency of mobilization was determined both by the particular TraG-like protein used and by the pilus system. Thus, TraG-like proteins are not generally interchangeable for mobilization. Therefore we suggest that the factors that determine the frequencies of transfer of different MOB regions are the differential interactions of TrwB with pilus and relaxosome. Received: 9 September 1996 / Accepted: 17 December 1996  相似文献   

12.
The genome of Sinorhizobium meliloti type strain Rm1021 consists of three replicons: the chromosome and two megaplasmids, pSymA and pSymB. Additionally, many indigenous S. meliloti strains possess one or more smaller plasmids, which represent the accessory genome of this species. Here we describe the complete nucleotide sequence of an accessory plasmid, designated pSmeSM11a, that was isolated from a dominant indigenous S. meliloti subpopulation in the context of a long-term field release experiment with genetically modified S. meliloti strains. Sequence analysis of plasmid pSmeSM11a revealed that it is 144,170 bp long and has a mean G+C content of 59.5 mol%. Annotation of the sequence resulted in a total of 160 coding sequences. Functional predictions could be made for 43% of the genes, whereas 57% of the genes encode hypothetical or unknown gene products. Two plasmid replication modules, one belonging to the repABC replicon family and the other belonging to the plasmid type A replicator region family, were identified. Plasmid pSmeSM11a contains a mobilization (mob) module composed of the type IV secretion system-related genes traG and traA and a putative mobC gene. A large continuous region that is about 42 kb long is very similar to a corresponding region located on S. meliloti Rm1021 megaplasmid pSymA. Single-base-pair deletions in the homologous regions are responsible for frameshifts that result in nonparalogous coding sequences. Plasmid pSmeSM11a carries additional copies of the nodulation genes nodP and nodQ that are responsible for Nod factor sulfation. Furthermore, a tauD gene encoding a putative taurine dioxygenase was identified on pSmeSM11a. An acdS gene located on pSmeSM11a is the first example of such a gene in S. meliloti. The deduced acdS gene product is able to deaminate 1-aminocyclopropane-1-carboxylate and is proposed to be involved in reducing the phytohormone ethylene, thus influencing nodulation events. The presence of numerous insertion sequences suggests that these elements mediated acquisition of accessory plasmid modules.  相似文献   

13.
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.  相似文献   

14.
A 6.72-kb DNA sequence between the exc gene and the oriT operon within the transfer region of IncI1 plasmid R64 was sequenced and characterized. Three novel transfer genes, trbA, trbB, and trbC, were found in this region, along with the pnd gene responsible for plasmid maintenance. The trbABC genes appear to be organized into an operon located adjacent to the oriT operon in the opposite orientation. The trbA and trbC genes were shown to be indispensable for R64 plasmid transfer, while residual transfer activity was detected in the case of R64 derivatives carrying the trbB++ deletion mutation. The T7 RNA polymerase-promoter system revealed that the trbB gene produced a 43-kDa protein and the trbC gene produced an 85-kDa protein. The nucleotide sequence of the pnd gene is nearly identical to that of plasmid R483, indicating a function in plasmid maintenance. The plasmid stability test indicated that the mini-R64 derivatives with the pnd gene are more stably maintained in Escherichia coli cells under nonselective conditions than the mini-R64 derivatives without the pnd gene. It was also shown that the R64 transfer system itself is involved in plasmid stability to a certain degree. Deletion of the pnd gene from the tra+ mini-R64 derivative did not affect transfer frequency. DNA segments between the exc and trbA genes for IncI1 plasmids R64, Colb-P9, and R144 were compared in terms of their physical and genetic organization.  相似文献   

15.
Abstract: A 12.4-kb plasmid, pTF-FC2, that was isolated from Thiobacillus ferrooxidans and which is capable of replication in a wide range of Gram-negative bacteria, has been sequenced. The extent of the regions involved in both replication and mobilization have been delineated. The site of initiation of replication ( oriV ) has been localized on a 185-bp fragment and the origin of transfer ( oriT ) on a 138-bp fragment. Three proteins that were essential for replication and four that were essential for mobilization have been identified. The origin of replication was clearly similar to that of the IncQ plasmids although no complementation or incompatibility between pTF-FC2 and the IncQ plasmid, R300B, was detected. There was a clear similarity in the size,location and amino acid sequence of the proteins of the pTF-FC2 mobilization region with those of the TraI region of the IncP plasmids, RP4 and R751.Two inverted repeated sequences which had 37/38-bp and 38/38-bp sequence identity with the Tn 21 transposon were identified. The C-terminal part of a transposase and the N-terminal portion of a resolvase were located between the inverted repeats. These open reading frames are most likely the remnants of a defective transposon. A protein with homology to a mercury- resistance regulator was also present within the transposon-like element although no gene encoding for mercury reductase could be indentified.  相似文献   

16.
DNA involved in the mobilization of broad-host-range plasmid R1162 was localized to a region of 2.7 kilobases within coordinates 3.4 to 6.1 kilobases on the R1162 map. By examining the transfer properties of plasmids containing cloned fragments of DNA from within this region, we showed that at least four trans-active products and a cis-active site (oriT) were involved in mobilization. A cloned DNA fragment of 155 base pairs was capable of providing full oriT activity. This fragment was located within 600 base pairs of DNA containing the origin of replication of R1162, and its nucleotide sequence and that of neighboring DNA were determined. Activation of oriT required R1162-encoded, trans-acting products. Deletions which resulted in the loss of one or more of these had a variable effect on transfer efficiency and indicated the presence of both essential and nonessential Mob products. Regions encoding these products flanked oriT and in one case appeared to overlap a gene essential for plasmid replication. The implications of these findings with respect to the broad host range of R1162 are discussed.  相似文献   

17.
The nucleotide sequence of the relaxase operon and the leader operon which are part of the Tra1 region of the promiscuous plasmid RP4 was determined. These two polycistronic operons are transcribed divergently from an intergenic region of about 360 bp containing the transfer origin and six close-packed genes. A seventh gene completely overlaps another one in a different reading frame. Conjugative DNA transfer proceeds unidirectionally from oriT with the leader operon heading the DNA to be transferred. The traI gene of the relaxase operon includes within its 3' terminal region a promoter controlling the 7.2-kb polycistronic primase operon. Comparative sequence analysis of the closely related IncP plasmid R751 revealed a similarity of 74% at the nucleotide sequence level, indicating that RP4 and R751 have evolved from a common ancestor. The gene organization of relaxase- and leader operons is conserved among the two IncP plasmids. The transfer origins and the genes traJ and traK exhibit greater sequence divergence than the other genes of the corresponding operons. This is conceivable, because traJ and traK are specificity determinants, the products of which can only recognize homologous oriT sequences. Surprisingly, the organization of the IncP relaxase operons resembles that of the virD operon of Agrobacterium tumefaciens plasmid pTiA6 that mediates DNA transfer to plant cells by a process analogous to bacterial conjugation. Furthermore, the IncP TraG proteins and the product of the virD4 gene share extended amino acid sequence similarity, suggesting a functional relationship.  相似文献   

18.
N Furuya  T Nisioka    T Komano 《Journal of bacteriology》1991,173(7):2231-2237
Two transfer genes of IncI1 plasmid R64, tentatively designated nikA and nikB, were cloned and sequenced. They are located adjacent to the origin of transfer (oriT) and appear to be organized into an operon, which we call the oriT operon. On the basis of the DNA sequence, nikA and nikB were concluded to encode proteins with 110 and 899 amino acid residues, respectively. Complementation analysis indicated that these two genes are indispensable for the transfer of R64 but are not required for the mobilization of ColE1. By the maxicell procedure, the product of nikA was found to be a 15-kDa protein. On treating a cleared lysate prepared from cells harboring a plasmid containing oriT, nikA, and nikB with sodium dodecyl sulfate or proteinase K, superhelical plasmid DNA in the cleared lysate was converted to an open circular form (relaxation). Relaxation of plasmid DNA was found to require the oriT sequence in cis and the nikA and nikB sequences in trans. It would thus follow that the products of nikA and nikB genes form a relaxation complex with plasmid DNA at the oriT site.  相似文献   

19.
Summary The DNA sequence of the entire colicin E2 operon was determined. The operon comprises the colicin activity gene, ceaB, the colicin immunity gene, ceiB, and the lysis gene, celB, which is essential for colicin release from producing cells. A potential LexA binding site is located immediately upstream from ceaB, and a rho-independent terminator structure is located immediately downstream from celB. A comparison of the predicted amino acid sequences of colicin E2 and cloacin DF13 revealed extensive stretches of homology. These colicins have different modes of action and recognise different cell surface receptors; the two major regions of heterology at the carboxy terminus, and in the carboxy-terminal end of the central region probably correspond to the catalytic and receptor-recognition domains, respectively. Sequence homologies between colicins E2, A and E1 were less striking, and the colicin E2 immunity protein was not found to share extensive homology with the colicin E3 or cloacin DF13 immunity proteins. The lysis proteins of the ColE2, ColE1 and CloDF13 plasmids are almost identical except in the aminoterminal regions, which themselves have overall similarity with lipoprotein signal peptides. Processing of the ColE2 prolysis protein to the mature form was prevented by globomycin, a specific inhibitor of the lipoprotein signal peptidase. The mature ColE2 lysis protein was located in the cell envelope. The results are discussed in terms of the functional organisation of the colicin operons and the colicin proteins, and the way in which colicins are released from producing cells.  相似文献   

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