首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 31 毫秒
1.
The DNA sequence of the 5.7 kb plasmid pHH9 containing the replicon region of the 150 kb plasmid pHH1 from Halobacterium salinarium was determined. The minimal region necessary for stable plasmid maintenance lies within a 2.9 kb fragment, as defined by transformation experiments. The DNA sequence contained two open reading frames arranged in opposite orientations, separated by an unusually high AT-rich (60–70% A + T) sequence of 350 bp. All H. salinarium strains (H. halobium, H. cutirubrum) investigated harbour endogenous plasmids containing the pHH1 replicon; however, these pHH1-type plasmids differ by insertions and deletions. Adjacent to the replicon, and separated by a copy of each of the insertion elements ISH27 and ISH26, is the 9 kb p-vac region required for gas vesicle synthesis. Analysis of these and other ISH element copies in pHH1 revealed that most of them lack the target DNA duplication usually found with recently transposed ISH elements. These results underline the plasticity of plasmid pHH1.  相似文献   

2.
The DNA sequence of the 5.7 kb plasmid pHH9 containing the replicon region of the 150 kb plasmid pHH1 from Halobacterium salinarium was determined. The minimal region necessary for stable plasmid maintenance lies within a 2.9 kb fragment, as defined by transformation experiments. The DNA sequence contained two open reading frames arranged in opposite orientations, separated by an unusually high AT-rich (60–70% A + T) sequence of 350 bp. All H. salinarium strains (H. halobium, H. cutirubrum) investigated harbour endogenous plasmids containing the pHH1 replicon; however, these pHH1-type plasmids differ by insertions and deletions. Adjacent to the replicon, and separated by a copy of each of the insertion elements ISH27 and ISH26, is the 9 kb p-vac region required for gas vesicle synthesis. Analysis of these and other ISH element copies in pHH1 revealed that most of them lack the target DNA duplication usually found with recently transposed ISH elements. These results underline the plasticity of plasmid pHH1.  相似文献   

3.
Dynamic plasmid populations in Halobacterium halobium.   总被引:7,自引:2,他引:5       下载免费PDF全文
Deletion events occurring in the major 150-kilobase-pair (kb) plasmid pHH1 of the archaebacterium Halobacterium halobium were investigated. We found four deletion derivatives of pHH1 in gas-vacuole-negative mutants, two of which (pHH23) [65 kb] and pHH4 [36 kb]) we analyzed. Both plasmids incurred more than one deletion, leading to the fusion of noncontiguous pHH1 sequences. pHH23 and pHH4 overlapped by only 4 kb of DNA sequence. A DNA fragment derived from this region was used to monitor the production of further deletion variants of pHH4. A total of 25 single colonies were characterized, 23 of which contained various smaller pHH4 derivatives. Of the 25 colonies investigated, 2 had lost pHH4 entirely and contained only large (greater than or equal to 100-kb) minor covalently closed circular DNAs. One colony contained the 17-kb deletion derivative pHH6 without any residual pHH4. The sizes of the pHH4 deletion derivatives, produced during the development of a single colony, ranged from 5 to 20 kb. In five colonies, pHH4 was altered by the integration of an additional insertion element. These insertions, as well as copies of the various insertion elements already present in pHH4, presumably serve as hot spots for recombination events which result in deletions. A second enrichment procedure led to the identification of colonies containing either a 16-kb (pHH7) or a 5-kb (pHH8) deletion derivative of pHH4 as the major plasmid. pHH8, the smallest plasmid found, contained the 4 kb of unique DNA sequence shared by pHH23 and pHH4, as well as some flanking pHH4 sequences. This result indicates that the 4-kb region contains the necessary sequences for plasmid maintenance and replication.  相似文献   

4.
5.
We have sequenced the insertion element ISH1.8 which can be present in one or two copies in the genome of phage ΦH of Halobacterium halobium. ISH1.8 is 1895 bp long, has no inverted repeat at its ends, and one only of the two copies is flanked by two 5-bp duplications. An 8-bp sequence composed of 4 bp from each end of ISH1.8 is present in both sites lacking the element. This 8-bp sequence could either be a specific insertion sequence or a part of the element that is left behind upon deletion. The plasmid pΦHL, consisting of the invertible L segment of the phage genome which is, in ΦH2 and ΦH5, flanked by two copies of ISH1.8, contains 112 bp of ISH1.8 and is released from the phage genome by recombination within a direct repeat of 9 bp. This 9-bp sequence (TCCCGCCCT) exists as an inverted repeat in ISH1.8 and therefore as two distinct repeats in phage genomes containing two copies of ISH1.8 in inverted orientation.  相似文献   

6.
7.
Palindromy and the Location of Deletion Endpoints in Escherichia Coli   总被引:13,自引:3,他引:10  
K. Weston-Hafer  D. E. Berg 《Genetics》1989,121(4):651-658
The contributions of direct and inverted repeats to deletion formation were studied by characterizing Ampr revertants of plasmids with a series of insertion mutations at a specific site in the pBR322 ampicillin resistance (amp) gene. The inserts at this site are palindromic, variable in length, and bracketed by 9- or 10-bp direct repeats of amp sequence. There is an additional direct repeat composed of 4 bp within the insert and 4 bp of adjoining amp sequence. DNA sequencing and colony hybridization of Ampr revertants showed that they contained either the parental amp sequence, implying deletion endpoints in the flanking 9- or 10-bp repeats, or a specific 1-bp substitution, implying endpoints in the 4-bp repeats. Although generally direct repeats seem to be used as deletion endpoints with a frequency proportional to their lengths, we found that with uninterrupted palindromes longer than 32 bp, the majority of deletions ended in the 4 bp, not the 9- or 10-bp repeats. This preferential use of the shorter direct repeats associated with palindromes is interpreted according to a DNA synthesis-error model in which hairpin structures formed by intrastrand pairing foster the slippage of nascent strands during DNA synthesis.  相似文献   

8.
A circular DNA plasmid, pSR1, isolated from Zygosaccharomyces rouxii has a pair of inverted repeats consisting of completely homologous 959-base pair (bp) sequences. Intramolecular recombination occurs frequently at the inverted repeats in cells of Saccharomyces cerevisiae, as well as in Z. rouxii, and is catalyzed by a protein encoded by the R gene of its own genome. The recombination is, however, independent of the RAD52 gene of the host genome. A site for initiation of the intramolecular recombination in the S. cerevisiae host was delimited into, at most, a 58-bp region in the inverted repeats by using mutant plasmids created by linker insertion. The 58-bp region contains a pair with 14-bp dyad symmetry separated by a 3-bp spacer sequence. The recombination initiated at this site was accompanied by a high frequency of gene conversion (3 to 50% of the plasmid clones examined). Heterogeneity created by the linker insertion or by a deletion (at most 153 bp so far tested) at any place on the inverted repeats was converted to a homologous combination by the gene conversion, even in the rad52-1 mutant host. A mechanism implying branch migration coupled with DNA replication is discussed.  相似文献   

9.
We describe a new family of repetitive elements in the genome of the archaebacterium Halobacterium volcanii. There are some 20-30 copies of this element, which we designate ISH51. Sequenced copies show typical insertion sequence characteristics (terminal inverted repeats, direct flanking repeats of "target site" DNA). However, members of the ISH51 family are highly heterogeneous, showing on average only 85% primary sequence homology; and some genomic copies appear to be severely truncated. Some ISH51 elements are clustered together in regions of relatively AT-rich DNA. There are at least five such AT-rich "islands" in the H. volcanii genome. Repetitive sequences homologous to ISH51 are found in the genomes of most Halobacterium and Halococcus species.  相似文献   

10.
In cloning in Escherichia coli C600 of a 4.5-kbp HindIII DNA fragment with the tetracycline-resistance determinant (tetBS908) from Bacillus subtilis GSY908 chromosome using a plasmid vector, a 5.2-kbp HindIII DNA fragment was also isolated at a ratio of 2 to 89. The two independently obtained 5.2-kbp fragments were an insertion derivative of the 4.5-kbp fragment and carried E. coli transposable element ISlK, which was inserted at the same site immediately before tetBS908 in the same direction. For the ISlK insertions, the 8-bp sequence CAAATTTT was used as a target, this having no similarity to any published sequences.  相似文献   

11.
Halobacterium halobium contains two gas vacuole protein genes that are located in plasmid pHH1 (p-vac) and in the chromosomal DNA (c-vac). The mutation frequency for these genes is different: the constitutively expressed p-vac gene is mutated with a frequency of 10(-2), while the chromosomal gene expressed in the stationary phase of growth is mutated with a frequency of 10(-5). The difference in the mutation susceptibility is due to the dynamics of plasmid pHH1. p-vac gene mutations are caused (i) by the integration of an insertion element or (ii) by a deletion event encompassing the p-vac gene region. In contrast, c-vac mutants analyzed to date incurred neither insertion elements nor deletions. Deletion events within pHH1 occur at high frequencies during the development of a H. halobium culture. The investigation of the fusion regions resulting from deletion events indicates that insertion elements are involved. The analysis of pHH1 deletion variants led to a 4 kilobase pair DNA region containing the origin of replication of the pHH1 plasmid.  相似文献   

12.
The piggyBac transposable element was tested for transposition activity in plasmid-based excision and inter-plasmid transposition assays to determine if this element would function in Anopheles gambiae cells and embryos. In the Mos55 cell line, precise excision of the piggyBac element was observed only in the presence of a helper plasmid. Excision occurred at a rate of 1 event per 1000 donor plasmids screened. Precise excision of the piggyBac element was also observed in injected An. gambiae embryos, but at a lower rate of 1 excision per 5000 donor plasmids. Transposition of the marked piggyBac element into a target plasmid occurred in An. gambiae cells at a rate of 1 transposition event per 24,000 donor plasmids. The piggyBac element transposed in a precise manner, with the TTAA target site being duplicated upon insertion, in 56% of transpositions observed, and only in the presence of the piggyBac helper. The remaining transpositions resulted in a deletion of target sequence, a novel observation for the phenomenon of piggyBac element insertion. 'Hot spots' for insertion into the target plasmid were observed, with 25 of 34 events involving one particular site. These results are the first demonstration of the precise mobility of piggyBac in this malaria vector and suggest that the lepidopteran piggyBac transposon is a candidate element for germline transformation of anopheline mosquitoes.  相似文献   

13.
Abstract Plasmids were detected in isolates of an acidothermophilic archaebacterium Thermoplasma acidophilum . One of the plasmids, pTA1, was characterized. The plasmid was a circular DNA of 15.2 kbp. A physical map was constructed using three restriction endonucleases. A copy number of this plasmid was estimated to be 7–13 per cell. The homologous sequence was not found in the chromosomal DNA of the host cell.  相似文献   

14.
The isolation and characterization of an insertion sequence (IS) element, IS427, from Agrobacterium tumefaciens T37 is described. IS427 is present in three nonidentical copies on the pTiT37 plasmid. The copy that was isolated through transposition on the entrapment vector pUCD800 contains at its ends a 16-bp imperfect inverted repeat and generates a 2-bp duplication of the target DNA. IS427 does not show homology with previously characterized IS elements of A. tumefaciens, based on hybridization experiments and/or sequence comparison.  相似文献   

15.
Many strains of Bacteroides harbor large chromosomal elements that can transfer themselves from the chromosome of the donor to the chromosome of the recipient. Most of them carry a tetracycline resistance (Tcr) gene and have thus been designated Tcr elements. In the present study, we have used transverse alternating field electrophoresis to show that all but one of the Tcr elements screened were approximately 70 to 80 kbp in size. The exception (Tcr Emr 12256) was 150 to 200 kbp in size and may be a hybrid element. All of the Tcr elements inserted in more than one site, but insertion was not random. The Tcr elements sometimes cotransfer unlinked chromosomal segments, or nonreplicating Bacteroides units (NBUs). Transverse alternating field electrophoresis analysis showed that insertion of NBUs was not random and that the NBUs did not insert near the Tcr element. Although attempts to clone one or both ends of a Tcr element have not been successful, ends of a cryptic element (XBU4422) were cloned previously and shown to be homologous to the ends of Tcr elements. We have obtained DNA sequences of junction regions between XBU4422 and its target from several different insertions. Comparison of junction sequences with target sequences showed that no target site duplication occurred during insertion and that XBU4422 carried 4 to 5 bp of adjacent chromosomal DNA when it excised from the chromosome and inserted in a plasmid. We identified a short region of sequence similarity between one of the ends of XBU4422 and its target site that may be important for insertion. This sequence contained an 8-bp segment that was identical to the recombinational hot spot sequence on Tn21. XBU4422 could exise itself from plasmids into which it inserted. In most cases, the excision left a single additional A behind in the target site, but precise excision was seen in one case.  相似文献   

16.
Extrachromosomal DNA in the form of covalently closed circular DNA molecules was isolated from killer and nonkiller xenosomes, bacterial endosymbionts of the marine protozoan Parauronema acutum. Restriction endonuclease digests of these molecules derived from 12 isolates revealed consistent, readily identifiable, differences in the pattern of fragments of the killer as compared with those present in the nonkiller. Transformation of the nonkiller to killer by infection is also accompanied by a change from the nonkiller to killer pattern. Based on analysis of fragments resulting from restriction endonuclease digests, two circular duplex DNA molecules, each 63 kilobase pairs (kbp) in length, were identified in the 263-20 nonkiller stock and mapped. The maps revealed that each possesses a single BamHI site and multiple BglI, BstIIE, PstI, and SalI sites. A distinguishing feature of these maps is that the two molecules share a region about 17 kbp in length in which multiple restriction sites are in register with each other. Allowing for a 0.5-kbp insertion or deletion and the introduction or removal of only a few restriction sites, an additional stretch extending approximately 31 kbp beyond this sequence could also be considered to be homologous. The structure of the killer plasmid appears to be more complex, and we have been unable, as yet, to construct physical maps for this DNA. We postulate that the killer plasmid DNA is composed of three, perhaps four, circular 63-kbp duplexes, at least one which contains a single BamHI site and another which contains two BamHI sites. The remaining molecules may represent copies of either or both of the other two, modified to contain additional restriction sites. Transformation from the nonkiller to the killer is visualized as the insertion of restriction sites at various points along parent nonkiller plasmid DNA molecules. The mechanism by which these sites are introduced is unknown.  相似文献   

17.
The self-transmissible plasmid pTR2030 mobilized nonconjugative heterologous cloning vectors pGK12 (Cmr Emr) and pSA3 (Emr) at frequencies of 10(-5) to 10(-6) per input donor. Transconjugants harbored a 51- or 58-kilobase (kb) plasmid not found in the parental strains that cotransferred at high frequency with Cmr Emr and pTR2030-encoded phage resistance (Hsp+) in second-round matings (10(-1) per input donor). Restriction endonuclease mapping and DNA-DNA hybridization identified the 51- to 58-kb plasmids as pTR2030::vector cointegrates. Examination of four cointegrates indicated that pGK12 and pSA3 had inserted within two locations on pTR2030. Resolution of the cointegrates generated vector derivatives containing a 0.8-kb insert of pTR2030 DNA. Restriction analyses of several resolution plasmids indicated that the 0.8-kb element had inserted into various positions within pGK12 and pSA3 and in certain cases had inactivated the Cmr or Emr marker of pGK12. A conjugative mobilization assay demonstrated that the 0.8-kb element, designated IS946, mediated transpositional recombination. Nucleotide sequence determination identified IS946 as an 808-base-pair (bp) insertion sequence sharing ca. 96% homology with lactococcal insertion sequence ISS1. IS946 differed by 27 and 31 bp from ISS1S and ISS1T, respectively, and in 2 of 226 amino acids in the deduced sequence of the putative transposase. IS946 has perfect 18-bp terminal inverted repeats, identical to ISS1, and similarly generated 8-bp direct repeats of the target site upon insertion.  相似文献   

18.
Insertion element IS1 can generate a 10-base pair target duplication   总被引:2,自引:0,他引:2  
S Iida  R Hiestand-Nauer 《Gene》1986,45(2):233-235
Transposable element IS1 is known to generate mainly 9-bp and occasionally 8-bp target duplications upon transposition. We have isolated a plasmid pBR322 derivative having IS1 inserted into a site between the promoter and the structural gene for tetracycline resistance. DNA sequence analysis revealed that integration of this IS1 resulted in a 10-bp target duplication.  相似文献   

19.
Halobacterium-halobium NRC-1 harbors a 200-kb plasmid, pNRC100, which contains a cluster of genes for synthesis of buoyant gas-filled vesicles. Physical mapping of pNRC100 by using pulsed-field gel electrophoresis showed the presence of a large (35 to 38-kb) inverted repeat (IR) sequence. Inversion isomers of pNRC100 were demonstrated by Southern hybridization analysis using two restriction enzymes, AflII and SfiI, that cut asymmetrically within the intervening small single-copy region and the large single-copy region, respectively, but not within the large IRs. No inversion isomers were observed for a deletion derivative of pNRC100 lacking one IR, which suggests that both copies are required for inversion to occur. Additionally, the identities and approximate positions of 17 insertion sequences (IS) in pNRC100 were determined by Southern hybridization and limited nucleotide sequence analysis across the IS element-target site junctions: ISH2, a 0.5-kb element, was found in four copies; ISH3, a 1.4-kb heterogeneous family of elements, was present in seven copies; ISH8, a 1.4-kb element, was found in five copies; and ISH50, a 1.0-kb element, was present in a single copy. The large IRs terminated at an ISH2 element at one end and an ISH3 element at the other end. pNRC100 is similar in structure to chloroplast and mitochondrial genomes, which contain large IRs and other large halobacterial and prokaryotic plasmids that are reservoirs of IS elements but lack the large IRs.  相似文献   

20.
T. Q. Trinh  R. R. Sinden 《Genetics》1993,134(2):409-422
We describe a system to measure the frequency of both deletions and duplications between direct repeats. Short 17- and 18-bp palindromic and nonpalindromic DNA sequences were cloned into the EcoRI site within the chloramphenicol acetyltransferase gene of plasmids pBR325 and pJT7. This creates an insert between direct repeated EcoRI sites and results in a chloramphenicol-sensitive phenotype. Selection for chloramphenicol resistance was utilized to select chloramphenicol resistant revertants that included those with precise deletion of the insert from plasmid pBR325 and duplication of the insert in plasmid pJT7. The frequency of deletion or duplication varied more than 500-fold depending on the sequence of the short sequence inserted into the EcoRI site. For the nonpalindromic inserts, multiple internal direct repeats and the length of the direct repeats appear to influence the frequency of deletion. Certain palindromic DNA sequences with the potential to form DNA hairpin structures that might stabilize the misalignment of direct repeats had a high frequency of deletion. Other DNA sequences with the potential to form structures that might destabilize misalignment of direct repeats had a very low frequency of deletion. Duplication mutations occurred at the highest frequency when the DNA between the direct repeats contained no direct or inverted repeats. The presence of inverted repeats dramatically reduced the frequency of duplications. The results support the slippage-misalignment model, suggesting that misalignment occurring during DNA replication leads to deletion and duplication mutations. The results also support the idea that the formation of DNA secondary structures during DNA replication can facilitate and direct specific mutagenic events.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号