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 62 毫秒
1.
O Amster  D Salomon    A Zamir 《Nucleic acids research》1982,10(15):4525-4542
Evidence is presented indicating that a novel DNA sequence arrangement generated by in vitro recombination may elicit high frequency transpositions of IS elements. A 109 bp Bam HI fragment of the cDNA for the immunoglobulin kappa light chain from MOPC 321 myeloma was cloned into the Bam HI site of pBR313. The cloned fragment extends from the codon for Gly 57 to the V-J junction. Insertions of IS1 or IS5 were identified in 6 of 50 plasmid DNAs isolated from freshly transformed clones. Additional transposition events were detected after subculturing for several growth cycles. Three independent insertions of IS1 occurred in the promoter region of the TcR operon. All IS5 and the remaining IS1 insertions were located in the TcR region upstream to the cloned DNA sequence. Sequences homologous to the ends of IS1, or corresponding to the consensus sequence at the target site of IS5 are present near the estimated sites of insertion of IS1 or IS5 respectively. Bacteria harboring recombinant plasmids carrying the cloned DNA in either orientation grew at a reduced rate relative to cells harboring pBR313, suggesting that fused gene products made from the two types of plasmid were inhibitory to cell growth. IS insertions, which relieved this inhibitory effect and thereby provided a selective advantage, were found exclusively in plasmids carrying the cloned DNA in only one of the two orientations. The fact that IS elements were not observed in the other type of recombinant plasmid indicates that selective pressure alone is not sufficient to account for the frequent IS insertions observed and that sequences at a distance from the site of IS insertion may be critical in the regulation of transposition frequency.  相似文献   

2.
3.
Summary IS2-induced deletions of the gal control region were isolated in a plasmid carrying gal OP-308 :: IS2-7. This contains a 54 basepair long, unstable mini insertion within IS2, thus allowing constitutive expression of the gal structural genes. Deletion PPI is 11.9 kilobasepairs (kb) long and is Gal+ because it has retained the mini insertion. In PP4 7.2 kb DNA material including markers gal OP, chlD and pgl are deleted. PP4 has lost the mini insertion and is therefore Gal negative. DNA sequencing of the newly formed junction in PP4 reveals that the deletion terminates precisely at nucleotide 1 of IS2 and that no DNA sequence homology is involved in this IS2-mediated deletion formation. PPI segregates Gal- clones due to the loss of the mini insertion. One such segregant PPIS and PP4 both give only constitutive Gal+ revertants, which consist of the previously known mini insertions and also a new class of supermini inserts within IS2 of about 10 to 20 basepairs long. Therefore, PPIS and PP4 can be used to study various parameters involved in the formation of mini insertions.  相似文献   

4.
Insertion of IS2 creates a novel ampC promoter in Escherichia coli   总被引:24,自引:0,他引:24  
B Jaurin  S Normark 《Cell》1983,32(3):809-816
  相似文献   

5.
N D Grindley 《Cell》1978,13(3):419-426
Three independent integrations of the E. coli insertion sequence, IS1, into the gal operon have been analyzed. DNA sequences of portions of the wild-type galT gene which act as the target sites for these insertions, as well as the corresponding gal/IS1 junctions, are reported. Two features are particularly noteworthy. First, similar sequences appearing in inverted orientation consitute the ends of IS1: 18 of the terminal 23 base pairs at each end are identical. Second, in all three insertions, a 9 base pair segment found once in the wild-type sequence at the site of insertion is duplicated and appears in the same orientation at each end of the inserted element. The sequence of this 9 base pair repeat is different for each insertion analyzed. No homology between the inverted repeat sequences at the ends of IS1 and the sequences of the target sites is observed. Models for the mechanism of IS1 insertion are proposed.  相似文献   

6.
The prokaryotic transposable element IS1 is known to exert a strong polar effect upon integration into an operon. To elucidate this polar effect, we constructed a plasmid which has an IS1 integrated between the 5' half of the tet gene for tetracycline resistance and the cat structural gene for chloramphenicol resistance. The cat gene is expressed by the tet promoter and the presence of IS1 in orientation I, in which the IS1 transposase genes insA and insB are in the same orientation as the cat gene, reduced the cat expression. By introducing deletions or insertions within the IS1 sequence, we were able to map a rho-dependent terminator TIS1A between the insA and insB genes. Translational interruption between these ins genes is important for TIS1A to be an active terminator.  相似文献   

7.
R E Musso 《Plasmid》1989,22(3):275-280
Two previously characterized mutations in the galOPETK operon of Escherichia coli, galOP-3 and galOPE-490, contain IS2 insertions only 1 bp apart in the gal regulatory region; yet only the former yields Gal+ phenotypic revertants at a detectable frequency. We have shown that the galOPE-490 allele comprises two mutations--an IS2(I) insertion at bp+(2-6) (relative to the gal mRNA start site) plus a C/G to A/T transversion at bp + 59. The latter creates an ochre stop codon and lies within the internal site of the bipartite gal operator; it acts as an operator mutation in an in vivo repressor titration assay. Analysis of a newly isolated allele (galOP-490*) which retains the IS2 of galOPE-490 but is galE+ reveals a reversion frequency approximately 30-fold higher than that of galOP-3. Reversion of galOPE-490 is at least 10,000-fold lower and has not been detectable even under conditions conducive to enhanced double mutations in other systems.  相似文献   

8.
Using a combined in vivo and in vitro approach, we demonstrated that the transposition products generated by IS911 from a dimeric donor plasmid are different from those generated from a plasmid monomer. When carried by a monomeric plasmid donor, free IS911 transposon circles are generated by intra-IS recombination in which one IS end undergoes attack by the other. These represent transposition intermediates that undergo integration using the abutted left (IRL) and right (IRR) ends of the element, the active IRR-IRL junction, to generate simple insertions. In contrast, the two IS911 copies carried by a dimeric donor plasmid not only underwent intra-IS recombination to generate transposon circles but additionally participated in inter-IS recombination. This also creates an active IRR-IRL junction by generating a head-to-tail IS tandem dimer ([IS]2) in which one of the original plasmid backbone copies is eliminated in the formation of the junction. Both transposon circles and IS tandem dimers are generated from an intermediate in which two transposon ends are retained by a single strand joint to generate a figure 8 molecule. Inter-IS figure 8 molecules generated in vitro could be resolved into the [IS]2 form following introduction into a host strain by transformation. Resolution did not require IS911 transposase. The [IS]2 structure was stable in the absence of transposase but was highly unstable in its presence both in vivo and in vitro. Previous studies had demonstrated that the IRR-IRL junction promotes efficient intermolecular integration and intramolecular deletions both in vivo and in vitro. Integration of the [IS]2 derivative would result in a product that resembles a co-integrate structure. It is also shown here that the IRR-IRL junction of the [IS]2 form and derivative structures can specifically target one of the other ends in an intramolecular transposition reaction to generate transposon circles in vitro. These results not only demonstrate that IS911 (and presumably other members of the IS3 family) is capable of generating a range of transposition products, it also provides a mechanistic framework which explains the formation and activity of such structures previously observed for several other unrelated IS elements. This behaviour is probably characteristic of a large number of IS elements.  相似文献   

9.
10.
IS3 can function as a mobile promoter in E. coli   总被引:21,自引:3,他引:18       下载免费PDF全文
  相似文献   

11.
Nucleotide sequence of the transposable DNA-element IS2.   总被引:39,自引:7,他引:32       下载免费PDF全文
The complete sequence of the transposable DNA element IS2 in gal OP-308:: IS2 (I) has been determined. This element is 1.327 bp long. The integrated element is flanked by a five base pair long sequence duplication. The termini of IS2 are not perfect inverted repeats, but a close approximation.  相似文献   

12.
The plasmid pNT6 permits selection of IS1-element insertions into the plasmid occurring with the frequency about 10%. The bacteriophage promoter pL cloned in pNT6 is a hot-spot region for IS1-element insertion. The frequency of IS1 transposition into pL depends on genotype. The plasmid pNT6 may be considered to be a useful target DNA for screening and analysis of IS1-element transposition.  相似文献   

13.
A 1,442-base-pair (bp) insertion sequence (IS861) was identified in the type III group B streptococcal (GBS) strain COH-1. It is flanked by 26-bp imperfect inverted repeats and contains two open reading frames, 1 and 2, encoding 141- and 277-amino-acid proteins, respectively. A 3-bp target sequence, ACA, is duplicated and flanks each inverted repeat. IS861 shares greater than 30% homology with IS3 and IS150 of Escherichia coli, primarily in the region of their putative transposases. Northern (RNA) analysis revealed that RNA is actively transcribed in vivo by IS861 and 17- and 36-kilodalton proteins were synthesized in E. coli maxicell assays. Multiple copies of IS861 were observed throughout the chromosome of COH-1, and one of the copies is located near genes involved in GBS capsule synthesis. IS861 is the first insertion sequence identified in GBS. Its role in GBS and the significance of its relationship to the phylogenetically similar insertion sequences typified by IS150 and IS3 of E. coli are unknown.  相似文献   

14.
The bacterial insertion sequence IS21 when repeated in tandem efficiently promotes non-replicative cointegrate formation in Escherichia coli. An IS21-IS21 junction region which had been engineered to contain unique SalI and BglII sites close to the IS21 termini was not affected in the ability to form cointegrates with target plasmids. Based on this finding, a novel procedure of random linker insertion mutagenesis was devised. Suicide plasmids containing the engineered junction region (pME5 and pME6) formed cointegrates with target plasmids in an E.coli host strain expressing the IS21 transposition proteins in trans. Cointegrates were resolved in vitro by restriction with SalI or BglII and ligation; thus, insertions of four or 11 codons, respectively, were created in the target DNA, practically at random. The cloned Pseudomonas aeruginosa arcB gene encoding catabolic ornithine carbamoyltransferase was used as a target. Of 20 different four-codon insertions in arcB, 11 inactivated the enzyme. Among the remaining nine insertion mutants which retained enzyme activity, three enzyme variants had reduced affinity for the substrate ornithine and one had lost recognition of the allosteric activator AMP. The linker insertions obtained illustrate the usefulness of the method in the analysis of structure-function relationships of proteins.  相似文献   

15.
Earlier we have studied unstable dissociating IS1/Tn9'-mediated cointegrates between the plasmids pDK57 (pBR322::Tn9') and pRP3.1, a deletion derivative of RP1, and two types of such cointegrates containing three and four copies of IS1 were revealed. In the present paper we studied the structure of stable IS1/Tn9'-mediates cointegrates and simple insertions formed by interaction between the plasmids pDK57 and pRP3.1 in the E. coli recA- cells. It was shown, that the stable cointegrates were formed by insertion of pDK57 in different loci of pRP3.1 and these cointegrates contain three copies of IS1, i.e. one copy of IS1 and a copy of Tn9' at the junction of the two replicons. The cointegrates are formed predominantly due to the activity of the left copy of Tn9', which occupies a proximal position in regard to the promoter of the cat gene. It was found that the integration of pDK57 into the kan gene region of pRP3.1 leading to the formation of the KmS cointegrates occurs only in one of the two possible orientations. Meanwhile the insertions of the transposon Tn9' into the kan region of pRP3.1 leading to simple insertions occurs in the orientation opposite to the orientation of the transposon in the KmS cointegrates. It is proposed that simple insertions are not the products of direct transposition of Tn9', but they are formed from unstable cointegrates under the action of IS1-specific resolvase.  相似文献   

16.
Specificity of insertion of IS1   总被引:14,自引:0,他引:14  
  相似文献   

17.
18.
Direct involvement of IS26 in an antibiotic resistance operon.   总被引:7,自引:0,他引:7       下载免费PDF全文
  相似文献   

19.
Summary The genomes of bacteriophage P1 derivatives carrying drug resistance genes derived from an R plasmid NR1 were analysed by restriction cleavage and be DNA-DNA hybridization. Two representatives of a class of oversized P1CmSmSu phages were identified as P1 carrying the entire r-determinant of NR1 together with its two flanking, directly repeated IS1. In one case the r-determinant insertion is carried at the site of the residential IS1 of P1, in the other case it is transposed into another region of the P1 genome. Models postulate that the first type resulted from reciprocal recombination within IS1 elements and that the formation of the second type of P1-R hybrid depended both on IS1 mediated transposition and reciprocal recombination. Plaque forming P1Cm or P1CmSm phages are explained as IS1 mediated deletion derivatives of P1CmSmSu, although an alternative model postulates that sometimes P1Cm phages might result from two consecutive transposition events of only one IS1 without involving reciprocal recombination. Secondary P1 derivatives carrying only one IS1 at the site of the original r-determinant or of Cm insertions into P1 must have been produced by reciprocal recombination between the two IS1 flanking the insertions. An implication from this study, that any genetic material carried adjacent to an IS1 element may undergo passive transposition, is discussed.  相似文献   

20.
Regulation of IS1 transposition by the insA gene product   总被引:13,自引:0,他引:13  
The IS1 element contains two adjacent genes called insA and insB, both required for IS1 transposition and IS1-mediated plasmid cointegration. These two genes are transcribed polycistronically from the promoter in the left terminal inverted repeat of IS1 (insL). We constructed overexpression systems of these genes with the tac promoter, which are regulated by an exogenous inducer, isopropyl-beta-D-thiogalactopyranoside (IPTG). Then we have examined, under various conditions of induction with IPTG, how overexpression of these genes affects IS1 transposition, using an assay based on plasmid cointegration. When the insA and insB genes were organized identically to the wild-type IS1 genes and simultaneously expressed using low concentrations of IPTG, activity of a mutant IS1 in cis was restored, but not in trans. Higher IPTG concentrations resulted in lower transposition activity. Expression in trans of insA and insB results in a 50 to 100-fold reduction of the frequency of cointegration mediated by wild-type IS1. Such a reduction is also observed when only the insA gene is overexpressed in trans. Overexpression of either mutant insA or insB does not affect the cointegration event. Tests with the insA-lacZ fusion gene showed that the InsA product inhibits the expression of IS1 genes directed by its own promoter in insL. These results suggest that the InsA product regulates IS1 transposition by inhibiting expression of IS1 transposition genes in addition to acting as part of a transposase complex.  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