Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A systematic study of the specificity of insertion of the transposable element IS1 into small defined-sequence plasmids (pBR322 and derivatives) was conducted to determine the features of the DNA sequence that influence target site selection. We have physically mapped several collections of independent insertions of IS1 into these plasmids and have determined: (1) that about 80% of all insertions occur in the DNA segment (about 200 base-pairs) between the unique EcoRI site of pBR322 and the beginning of the beta-lactamase gene, one of the two regions of high A + T density in this plasmid; (2) that there is a strong orientation effect in this region (almost all IS1 insertions are in one orientation) that depends on both the pBR322 sequence and the environment of the transposon in the donor molecule; and (3) that the orientation effect does not depend on the strong transcription that is directed through this region in pBR322. Furthermore, we have found that insertion of a poly(dA X dT) segment into pBR322 creates an artificial hotspot for IS1 insertion, even though it is not as attractive for insertion as the above-mentioned major hotspot. Our observations suggest that an interplay between several properties of the target sequences and the sequence environment of the donor transposon is responsible for the observed specificity of position and orientation. One of the possibilities discussed here is that preferred "entry-sites", or "signal" sequences, for the transposition complex play a major role in determining the positions and orientations of IS1 insertions.
J Mol Biol 1985 Oct 05
PMID:Specificity of insertion of IS1. 299 52

The composite transposon Tn2672 is a derivative of the Tn3-related transposon Tn902 whose bla gene providing ampicillin resistance had been inactivated by the insertion of the IS1-flanked multiple drug resistance transposon Tn2671. Most ampicillin resistant revertants of Tn2672 are due to precise excision of Tn2671. However, a rare Bla+ revertant which still retains all the previously acquired drug resistance markers was isolated. On this revertant, the 5' part of the split bla gene on Tn2672 has converted to an intact, active bla gene, and the entire Tn902 is structurally restored. In contrast, the adjacent IS1b element belonging to Tn2671 has its terminal 142 base pairs deleted. Despite of this rearrangement, the split 3' part of bla and its adjacent sequences have remained unchanged. Models are presented to explain the observed DNA rearrangements, and their similarity with gene conversion events is discussed.
Mol Gen Genet 1985
PMID:Reversion of a truncated gene for ampicillin resistance by genetic rearrangements in Escherichia coli K12. 300 22

The conjugative plasmid R57 determines resistance to ampicillin and chloramphenicol. Earlier it was shown that R57 encodes site-specific recA-independent recombinase, which acts in cis and resolves IS1-mediated cointegrates arising in the Escherichia coli recA cells between R57 and pBR322. In the present work the properties of the cointegrates between R57 and pBR322 or RP1 arising in the E. coli rec+ strains were studied. It was found that the cointegrates between R57 and pBR322, obtained by mating of the respective biplasmid donors of E. coli rec+ and the rec+ recipients, lost as a result of deletion a large DNA segment of R57 containing determinant Cmr. The resulting hybrid replicons preserved determinants Apr and Tcr of pBR322 and the R57 conjugative properties and were structurally identical. By using plasmid RP1ts12, which is temperature-sensitive in replication, it was demonstrated that in cells rec+ the cointegrates between R57 and RP1 are extremely unstable. On storage they undergo structural degradation mainly affecting the RP1 replicon. The degradation products of the hydrid complex had lost their RP1 genes but preserved the R57 functional determinants. For elucidation of the observed phenomena the properties of the IS1-mediated cointegrates between pBR322:Tn9 and plasmid pBR3.1--deletion derivative of RP1 were studied. It was found that insertion of IS1 sometimes resulted in formation of unstable cointegrates capable of resolving and loosing determinant Cmr with a high frequency. It was suggested that IS1 encodes the site-specific recombinase responsible for resolution of the IS1-mediated cointegrates and deletion generation. Expression of this recombinase appears to be dependent on structure of the insertion sites. The possible role of IS1 and recombinase encoded by it in resolution and structural instability of the cointegrates between R57 and pBR322 or RP1 is discussed.
Mol Biol (Mosk)
PMID:[Structural instability of co-integrates formed during interaction of plasmid R57 with pB322 and RP1. Possible role of IS1 element in the degradation of co-integrates]. 301 14

We have obtained via DNA sequence analysis a spectrum of 174 spontaneous mutations occurring in the lac I gene of Escherichia coli. The spectrum comprised base substitution, frameshift, deletion, duplication and insertion mutations, of which the relative contributions to spontaneous mutation could be estimated. Two thirds of all lacI mutations occurred in the frameshift hotspot site. An analysis of the local DNA sequence suggested that the intensity of this hotspot may depend on structural features of the DNA that extend beyond those permitted by the repeated tetramer at this site. Deletions comprised the largest non-hotspot class (37%). They could be divided into two subclasses, depending on whether they included the lac operator sequence; the latter was found to be a preferred site for deletion endpoints. Most of the deletions internal to the lacI gene were associated with the presence of directly or invertedly repeated sequences capable of accounting for their endpoints. Base substitutions comprised 34% of the non-hotspot events. Unlike the base substitution spectrum obtained via nonsense mutations, G . C----A . T transitions do not predominate. A new base substitution hotspot was discovered at position +6 in the lac operator; its intensity may reflect specific features of the operator DNA. IS1 insertion mutations contributed 12% of the non-hotspot mutations and occurred dispersed throughout the gene in both orientations. Since the lacI gene is not A + T-rich, the contribution of IS1 insertion to spontaneous mutation in general might be underestimated. Single-base frameshift mutations were found only infrequently. In general, they did not occur in runs of a common base. Instead, their occurrence seemed based on the "perfection" of direct or inverted repeats in the local DNA sequence. Three (tandem) duplication events were recovered. No repeated sequences were found that might have determined their endpoints.
J Mol Biol 1986 May 20
PMID:Mechanisms of spontaneous mutagenesis: an analysis of the spectrum of spontaneous mutation in the Escherichia coli lacI gene. 301 59

The regulatory region (bglR) of the cryptic bgl operon was characterized by DNA sequence analysis and transcription mapping. Bgl(-)-specific transcription was found to occur in both the wild-type Bgl- and mutant Bgl+ cells. However, the steady-state level of bgl RNA was much higher in the Bgl+ mutant than in the wild-type. Activation of the bgl operon by insertion sequence-mediated bglR mutations or point mutations in bglR is therefore the result of increased transcription. The ethylmethane sulfonate-induced point mutations in bglR are alterations in a single base in the cAMP binding protein (CAP) binding site, leading to a stronger binding of the CAP-cAMP complex. The IS1 and IS5-mediated bglR mutations analyzed show that the insertion sequences can activate the bgl operon by integration 78 to 125 base-pairs upstream from the transcription initiation site. The role of the insertion sequences in activation of the bgl operon is discussed.
J Mol Biol 1986 Sep 05
PMID:Enhancement of bacterial gene expression by insertion elements or by mutation in a CAP-cAMP binding site. 302 56

We have isolated several insertions of the transposable element IS1 into the proximal promoter (P3) of the beta-lactamase gene of plasmid pBR322, which do not abolish resistance to ampicillin. Using a transcription termination module (omega), we have shown that the gene can be expressed from hybrid promoters, created by the insertion of IS1. The terminal inverted repeats of IS1 carry sequences partially homologous to the "-35" consensus region. Splicing either of these sequences to the existing "-10" region of the beta-lactamase promoter by transposition of IS1 at the proper distance results in the formation of an active hybrid promoter. This interpretation was confirmed by transcription studies in vitro. Gene expression from the hybrid promoters was found to be less efficient than from P3. However, the orientation of IS1 that contributes a "-35" with the greater homology to the known "-35" consensus sequence is significantly more efficient than the other. In addition, we were able to assign a strong determinant of IS1 polarity to a 254 base-pair internal segment of IS1. An examination of the ends of many insertion sequences leads us to expect that the phenomenon described here may occur with several of these transposable elements, and may have an unexpected evolutionary significance.
J Mol Biol 1986 Oct 05
PMID:Functional promoters created by the insertion of transposable element IS1. 302 82

The r-determinant (r-det) of the R plasmid NR1-Basel is a 23 kb, IS1-flanked transposon, called Tn2671, which has been shown to transpose to the genome of bacteriophage P7. Among the derivatives of phage P7::r-det we found one which carried two copies of the r-det as inverted repeats and which also contained the P7 genome segment between them in inverted orientation. Its generation is best explained by assuming that the entire 23 kb Tn2671 transposon has undergone intramolecular replicative transposition.
Mol Gen Genet 1986 Dec
PMID:DNA inversion mediated by the r-determinant of plasmid NR1: evidence for the intramolecular replicative transposition of a 23 kb IS1-flanked transposon? 303 33

The oligopeptide permease is encoded by at least four genes which are transcribed as a single operon. We cloned and characterized this operon from Salmonella typhimurium, as well as the flanking genes, tonB, ana and a new gene, cwd, which affects cell wall synthesis. We correlated the physical map of opp DNA with a detailed genetic map of the opp operon and the individual opp genes were accurately located with respect to various restriction sites by Southern blotting. The region of the chromosome near opp was found to be highly unstable with deletions arising at a highly frequency. The operon also contains hot-spots for IS1 and IS5 insertions.
Mol Gen Genet 1987 Jan
PMID:Peptide transport in Salmonella typhimurium: molecular cloning and characterization of the oligopeptide permease genes. 303 33

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.
Mol Gen Genet 1987 Mar
PMID:A transcriptional terminator sequence in the prokaryotic transposable element IS1. 303 45

Unmethylated DNA heteroduplexes with a large single stranded loop in one strand have been prepared from separated strands of DNA from two different strains of bacteriophage lambda, one of which has a approximately 800 base pair IS1 insertion in the cI gene. The results of transfections with these heteroduplexes into wild-type and mismatch repair deficient bacteria indicate that such large non-homologies are not repaired by the Escherichia coli mismatch repair system. However, the results do suggest that some process can act to repair such large non-homologies in heteroduplex DNA. Transfections of a series of recombination and excision repair deficient mutants suggest that known excision or recombination repair systems of E. coli are not responsible for the repair. Repair of large non-homologies may play a role in gene conversion involving large insertion or deletion mutations.
Mol Gen Genet 1987 Jan
PMID:Large non-homology in heteroduplex DNA is processed differently than single base pair mismatches. 347 34


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>