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Query: UNIPROT:P06889 (Mol)
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Extrachromosomal circular DNA molecules consisting of IS1-cat repeats, (IS1-cat)n, were isolated from an E. coli strain harboring nearly 30 copies of tandemly amplified transposon Tn9 located on the chromosome. The DNA 'circles' were characterized by restriction analysis followed by Southern blotting and electron microscopic examination. Their size varied from approximately 5.5 kb to 53 kb.
Mol Biol Rep 1990 Nov
PMID:Detection of free cytoplasmic circles of transposon Tn9 multimers in Escherichia coli. 196 1

In order to elucidate the function of the IS1 insA gene derivatives of plasmid pUC19::Tn9' with insertions of synthetic oligonucleotides were obtained. The latter are equal or multiple of 9 b.p. in length and are located in the Pst1 site within each of the two IS1 copies of the Tn9' transposon. The insertions of the nine base oligonucleotides code for the neutral amino acids and do not shift the reading frame. One of the mutant transposon obtained - Tn9'/X was studied on the ability to form simple insertions and plasmid cointegrates. For this purpose the pUC19 derivatives carrying the wild type and mutant transposon were mobilized by conjugative plasmid pRP3.1. It was found that the damage of the insA gene does not influence the ability of transposon to form simple insertions and plasmid cointegrates in both recA - and rec+ cells of E. coli. However, the frequency of the cointegrate formation in the subsequent transposition of the mutant transposon from pRP3.1::Tn9'/X to pBR322 was by 10-20 times lower in comparison to the wild type transposon. Instable (dissociating) Tn9'/X-mediated plasmid cointegrates formed by interaction pUC19::Tn9'/X and pRP3.1 were obtained. It was shown that in the E. coli recA-cells such cointegrates dissociate, as a rule, "correctly", i.e. they segregate mainly plasmids of types pUC19::Tn9'/X and pUC19::IS1/X. The data obtained correspond with the notion that the gene insA product is not essential for transposition, but is, possibly, involved in the formation of the IS1-generated deletions.
Mol Biol (Mosk)
PMID:[Study of the role of the insA open reading frame in the IS1 insertion element structure during transposition and resolution of the IS1 mediated cointegrates]. 196 5

Expression of the 987P gene cluster is activated by the adjacent IS1 element of an STpa transposon. Nucleotide sequence analysis of the 987P-DNA region contiguous with this IS1 element revealed the presence of an open reading frame designated fapR, encoding a basic protein of 260 amino acid residues with a molecular mass of 30,349 Daltons. The gene product, FapR, possesses similarity to a number of positive regulators of gene expression: VirF, Rns, AppY and EnvY. Moreover, a 43-amino-acid residue sequence in the C-terminal part of FapR is similar to the C-terminal domain of AraC, RhaR, and RhaS. Expression of fapR is dependent on the adjacent IS1 element. The FapR protein appears to be required for activation of the silent promoter of the fimbrial subunit gene, fapC.
Mol Microbiol 1990 Oct
PMID:Characterization of FapR, a positive regulator of expression of the 987P operon in enterotoxigenic Escherichia coli. 207 60

We show here that the protein InsA, which is encoded by IS1 and binds specifically to the terminal inverted repeats of this insertion sequence, negatively regulates IS1 transposition activity. We demonstrate that it inhibits both IS1-mediated cointegrate formation and transposition of a synthetic IS1-based transposon ('omegon'; omega-on). These results also indicate that the omega-on which does not itself encode IS1 transposition functions can be complemented in trans, presumably by the copies of IS1 resident in the Escherichia coli chromosome. Using insA-lacZ gene fusions, we show that at least part of this effect can be explained by the ability of InsA to repress expression of IS1-encoded genes both in cis or in trans. The experiments involving omega-on transposition raise the possibility that InsA inhibits transposition directly by competition with the transposase for their cognate site within the ends of IS1.
Mol Microbiol 1990 Mar
PMID:The regulatory role of the IS1-encoded InsA protein in transposition. 216 66

A DNA segment covering the signal sequence coding region, the ribosome binding site, and the promoter of the staphylokinase (sak) 42D gene (Behnke and Gerlach 1987) was cloned into pUC19 to form a portable expression-secretion unit (ESU). Fusion of human interferon alpha 1 (hIFN alpha 1) and hybrid hIFN alpha 1/2 genes to this sak ESU resulted in secretory expression of the two gene products in both Escherichia coli and Bacillus subtilis. While most of the IFN alpha was exported to the periplasmic space of E. coli, about 99% was secreted to the culture medium by recombinant B. subtilis strains. The total yield in E. coli was 1.2 x 10(5) IU/ml. This level of expression and export led to instability of the recombinant strains that was spontaneously relieved in vivo by inactivation of the sak ESU through insertion of an IS1 element. No such instability was observed with B. subtilis although expression and secretion levels reached even 3 x 10(6) IU/ml. Proteolytic degradation of IFN alpha by extracellular proteases was avoided by a combination of constitutive expression and secretion during the logarithmic growth phase and the use of exoprotease-reduced host strains. The IFN alpha 1 protein purified from B. subtilis culture supernatant was correctly processed, carried the expected 11 amino acid N-terminal elongation that resulted from DNA manipulations and proved to be homogenous in Western blotting experiments. The same recombinant plasmid that directed efficient secretion of hIFN alpha 1 in B. subtilis gave poor yields when introduced into Streptococcus sanguis.
Mol Gen Genet 1989 Jun
PMID:Secretory expression in Escherichia coli and Bacillus subtilis of human interferon alpha genes directed by staphylokinase signals. 250 56

The expression of oLpLN region of the plasmid pNT6 causes the high instability of the plasmid. Mutations in the promoter pL region and lesions in the structural part of the N gene result in the stable inheritance of the plasmid. The plasmids pNT6::IS1 containing the IS1-element inserted into the different loci of oLpLN region restore the high instability of the plasmid inheritance in the strain 4830 coding for oLpLN. The plasmids pIG3 and pIG4 of the series pNT6: :IS1 permit one to obtain the collection of random deletions in the cloned fragments induced by IS1-element.
Mol Gen Mikrobiol Virusol 1989 Jan
PMID:[Formation of an IS1-induced deletion in pNt6::IS1 plasmid]. 252 27

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.
J Mol Biol 1989 Aug 20
PMID:Regulation of IS1 transposition by the insA gene product. 255 80

The chromosome of an Escherichia coli K-12 strain W3110 contains seven copies of insertion element IS1, 12 copies of IS2 and six copies of IS3. We determined the approximate locations of six copies of IS1 (named is1A to is1F), ten copies of IS2 (named is2A to is2J), and five copies of IS3 (named is3A to is3E) on the W3110 chromosome by plaque hybridization using the "mini-set" of the lambda phage library that includes 476 clones carrying chromosomal segments that cover the W3110 chromosome almost entirely. Cleavage maps of the W3110 chromosome and cleavage analysis of phage DNAs carrying insertion elements allowed us to assign more precise locations to most of the insertion elements and to determine their orientations. Insertion elements were distributed randomly along the W3110 chromosome in one or other orientation. Several of these were located at the same positions on the chromosome of another E. coli K-12 strain, JE5519, and they were assumed to be the original complement of insertion elements in E. coli K-12 wild-type. Locations and orientations of such insertion elements were correlated well with Hfr points of origin and with crossover points for excision of some F' factors derived from several Hfrs. Insertion elements may be involved also in rearrangement of bacterial chromosomes.
J Mol Biol 1989 Aug 20
PMID:Mapping of insertion elements IS1, IS2 and IS3 on the Escherichia coli K-12 chromosome. Role of the insertion elements in formation of Hfrs and F' factors and in rearrangement of bacterial chromosomes. 255 81

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.
Mol Biol (Mosk)
PMID:[Characteristic features of the structure of co-integrating plasmids and simple insertions formed during transposition of the IS1 element in transposon Tn9']. 255 90

Chromosomal DNA from 23 closely related, pathogenic strains of Escherichia coli was digested and probed for the insertion sequences IS1, IS2, IS4, IS5, and IS30. Under the assumption that elements residing in DNA restriction fragments of the same apparent length are identical by descent, parsimony analysis of these characters yielded a unique phylogenetic tree. This analysis not only distinguished among bacterial strains that were otherwise identical in their biochemical characteristics and enzyme electrophoretic mobilities, but certain aspects of the topology of the tree were consistent across several unrelated insertion elements. The distribution of IS elements was then reexamined in light of the inferred phylogenetic relationships to investigate the biological properties of the elements, such as rates of insertion and deletion, and to discover apparent recombinational events. The analysis shows that the pattern of distribution of insertion elements in the bacterial genome is sufficiently stable for epidemiological studies. Although the rate of recombination by conjugation has been postulated to be low, at least two such events appear to have taken place.
Mol Biol Evol 1989 Jan
PMID:Phylogenetic analysis using insertion sequence fingerprinting in Escherichia coli. 256 60

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