UNIPROT:P06889 - FACTA Search

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)

Export of haemolysin protein (HlyA) directed by the Escherichia coli pHly152 hly determinant is dependent upon transcriptional activation, primarily strong intraoperon transcript antitermination imposed between the haemolysin structural genes hlyC and hlyA and the contiguous downstream export genes hlyB and hlyD. Transcript elongation was dictated by a DNA sequence several kb upstream of the rho-independent terminator but could not be assigned to a discrete locus; on the contrary, it was progressive, increasing with the addition of up to 3.5 kbp of operon-proximal sequence containing the insertion elements IS2 and IS91. Antitermination was prominent throughout logarithmic growth but absent in stationary phase, and was effective only in cis but not in trans. Primer extension indicated that transcription activation utilized the native transcriptional start sites of the unactivated hly operon.
Mol Microbiol 1989 Oct
PMID:Transcription antitermination in an Escherichia coli haemolysin operon is directed progressively by cis-acting DNA sequences upstream of the promoter region. 269 96

Shigella sonnei contains repetitive sequences, including an insertion element IS1, which can be isolated as double-stranded DNA fragments by DNA denaturation and renaturation and by treatment with S1 nuclease. In this paper, we describe a method of cloning the IS1 fragments prepared by the S1 nuclease digestion technique into phage M13mp8 RFI DNA. Several clones contained IS1, usually with a few additional bases. We isolated and characterized five other repetitive sequences using this method. One sequence, 1264 base-pairs in length, had terminal inverted repeats and contained two open reading frames. This sequence, called IS600, showed about 44% sequence homology with IS3 and was repeated more than 20 times in the Sh. sonnei chromosome. Another sequence (named IS629, 1310 base-pairs in length), which was repeated six times, was found also to be related to IS3 and thus IS600. Two other sequences (named IS630 and IS640, 1159 and 1092 base-pairs in length, respectively), which were repeated approximately ten times, had characteristic terminal inverted repeats and contained a large open reading frame coding for a protein. The inverted repeat sequences of IS630 were similar to the sequence at one end of IS200, a Salmonella-specific IS element. The fifth sequence, repeated ten times in Sh. sonnei, had about 98% sequence homology with a portion of IS2. The method described here can be applied to the isolation of IS or iso-IS elements present in any other bacterial chromosome.
J Mol Biol 1987 Aug 05
PMID:Isolation and characterization of IS elements repeated in the bacterial chromosome. 282 81

When Escherichia coli cells lysogenic for bacteriophage lambda are induced with ultraviolet light, cells carrying cryptic lambda prophages are occasionally found among the apparently cured survivors. The lambda variant crypticogen (lambda crg) carries an insertion of the transposable element IS2, which increases the frequency of cryptic lysogens to about 50% of cured cells: 43 of these cryptic prophages have been characterized. They all contain substitutions that replace the early segment of the prophage genome (from the IS2 to near the cos site) with a duplicate copy of a large segment of the host chromosome. The right end of the substitution always results from recombination between the nin-QSR-cos region of the prophage and the homologous incomplete lambdoid prophage Qsr' at 12.5 minutes in the E. coli chromosome. The left end of the substitution is usually a crossover that recombines the IS2 element in the prophage with an E. coli IS2 at 8.5 minutes, near the lac gene, or with a second IS2 located counterclockwise from leu at 2 minutes, generating duplications of at least 200,000 bases. Five cryptic lysogens derived from cells lysogenic for a reference strain of lambda (which lacks the IS2 present in lambda crg) have been characterized. They contain substitutions whose right termini are generated by a crossover with the Qsr' prophage. The left termini of these substitutions are formed either by a crossover between the lambda exo gene and a short exo-homologous segment of Qsr' (2/5), or by a crossover between sequences to the left of attL and an unmapped distant region of the host chromosome (3/5). The large duplications carried by these cryptic lysogens are stable, unlike tandem duplications, and so may significantly influence the cell's evolutionary potential.
J Mol Biol 1987 Dec 05
PMID:Structure of cryptic lambda prophages. 282 40

To learn more about the ways in which genes silenced by insertion mutations can be reactivated, we have undertaken a systematic investigation of Gal+ revertants of the polar mutant galOP-306::IS1 in Escherichia coli K12. The selective conditions used excluded reversion to wild type by precise excision of IS1. In this system (which resided on a multi-copy plasmid) reversion to the Gal+ phenotype occurred with a frequency of about 10(-7) per cell and per generation. Analysis of the revertants revealed that - with the single exception of the previously published chromosomal mutant sis1 - alterations in the structure of IS1 lead to reactivation of gal operon expression. These events fall into four classes: (I) insertion of IS2 at position 327 in IS1, insertion of IS2 at position 687 in IS1, (III) insertion of a hitherto undetected mobile element, IS150, at position 387, (IV) a 16-bp deletion encompassing IS1 coordinates 553-568. Of some 200 independent reversion events studied, all but one were of types I-III i.e. they involved the intervention of a second mobile element.
Mol Gen Genet 1988 Feb
PMID:Second-element turn-on of gene expression in an IS1 insertion mutant. 283 4

The Escherichia coli enterotoxin STII gene is carried by Tn4521. The terminal repeats of Tn4521 are composed of IS2 sequences; however, neither repeat is a complete IS2. In order to determine how this seemingly defective transposon could transpose, mutations were generated within Tn4521 to determine the regions essential for transposition. The left terminal repeat region was found to be non-essential, but the right terminal repeat area was demonstrated to be crucial for transposition. Within the right terminal repeat area is an open reading frame (ORF), capable of encoding a 159 amino acid protein, which was shown by frameshift mutation analysis to be required for transposition. This protein may be the transposase of Tn4521. A pair of 11 bp repeat sequences flanking the ORF was also pair of 11 bp repeat sequences flanking the ORF was also found to be important. The right 11 bp repeat is part of the left IS2 terminal sequence, and the left 11 bp repeat is located about 300 bp upstream from the right IS2 terminal sequence located within the right terminal repeat region. The results of this study suggest that Tn4521 is a functional transposon and that the sequence including this pair of 11 bp sequences plus the intervening sequence is a transposable element which may be responsible for Tn4521 transposition.
Mol Gen Genet 1988 Nov
PMID:Characterization of the transposon carrying the STII gene of enterotoxigenic Escherichia coli. 285 Oct 97

We present a method that allows positive selection and rapid analysis of mutations in Enterobacteriaceae. Mutations are detected in a 2630 bp selection cartridge inserted in two different bacterial multicopy plasmid vectors. Spontaneous mutations in Escherichia coli, Enterobacter cloacae and Citrobacter freundii include insertions, deletions and point mutations. The small size of the target sequence facilitates rapid analysis of DNA rearrangements by cleavage with restriction enzymes and of any type of mutation by DNA sequence analysis. While in E. coli insertions of the mobile elements IS1, IS2 and IS5 were readily found, insertions of putative new transposable elements were detected in Enterobacter cloacae. The selection cartridge can thus serve as a tool for studying the spectrum of insertion mutations in Enterobacteriaceae and probably other Gram-negative bacteria, and the dependency of this spectrum on physiological and environmental factors and the host's genetic background can be investigated.
Mol Gen Genet 1988 Dec
PMID:A selection cartridge for rapid detection and analysis of spontaneous mutations including insertions of transposable elements in Enterobacteriaceae. 285 30

A DNA fragment from the methanogenic archaebacterium Methanococcus voltae, when cloned into the PstI site of the plasmid vector pBR322, complements the Escherichia coli argG mutation strongly or weakly depending on its orientation. Faster-growing variants derived from a strain containing the poorly expressed fragment were found to harbor plasmids which had undergone genetic rearrangements. Some of the plasmids were shown to have acquired an insertion element (IS2 or IS5), derived from the E. coli chromosome, close to the region essential for complementing activity. Other plasmids exhibited no homology with E. coli chromosomal DNA. These were found to represent multimeric forms of the parental plasmid in which 2-3 kb of DNA between the tet promoter and the argG-complementing region had been deleted. Growth rates of the variant strains in the absence of arginine varied significantly, suggesting differences in efficiency of activation of the cloned DNA.
Mol Gen Genet 1985
PMID:Activation of expression of a cloned archaebacterial gene in Escherichia coli by IS2, IS5, or deletions. 298 20

The haemolysin (hly) determinant of the plasmid pHly152 contains an IS2 element at 469 bp upstream of the hlyC gene. The sequence at the other (right-hand) end (RS) also shows multiple hybridization with the plasmid pHly152 and the chromosome of some Escherichia coli strains but the nucleotide sequence of this region does not reveal the typical properties of an IS element. Similar arrangements in the regions flanking the hly determinant are also found on various Hly plasmids from uropathogenic E. coli strains. Chromosomal hly determinants lack both flanking sequences (IS2 and RS) in the immediate vicinity of the hly genes. The sequences immediately upstream of the hlyC gene have been determined from several chromosomal hly determinants and compared with the corresponding sequence of the hly determinant of the plasmid pHly152. We show that these sequences, which contain one promoter (left promoter, phlyL) in all hly determinants tested, vary considerably although common sequence elements can still be identified. In contrast, only relatively few nucleotide exchanges have been detected in the adjacent structural hlyC genes. The A + T content of the 200 bp sequence upstream of hlyC is very high (72 mol% A + T) but even the structural hly genes show a considerably higher A + T content (about 60 mol%) than the E. coli chromosome on average (50 mol% A + T) suggesting that the hly determinant may not have originated in E. coli.
Mol Gen Genet 1985
PMID:Analysis of the flanking regions from different haemolysin determinants of Escherichia coli. 299 63

We analysed the effects on the expression of the gal operon of six phenotypically different mutations in the Escherichia coli RNA polymerase genes in combination with wild-type, rho, and mutant, rho15, alleles of the gene for the transcription termination factor. RNA polymerase mutations can enhance (rpoB268) or reduce (rpoB255), rpoC3, rpoB265) termination by the rho15 factor at the IS2 terminator. The rpoC1 mutation enhances the transcription of the gal operon regardless of the IS2 insertion or the rho15 mutation. Thus RNA polymerase mutations can, independently, or in combination with the rho mutation, compensate for the IS-induced, specifically IS2-induced, termination, leading to a partial restoration of gene activity.
Mol Gen Genet 1985
PMID:Effect of mutations in the RNA polymerase gene and that of the transcription termination factor rho on expression of the Escherichia coli galactose operon with an IS2 polar insertion. 300 37

A 1.75 kb DNA segment of the bacteriophage P1 genome is known to serve as a preferred target for IS2 insertions. The presence of this fragment in a plasmid expressing the galK gene dramatically increases the proportion of IS2 insertions among spontaneous galK- mutants. Subfragments from two different parts of the 1.75 kb segment independently stimulate IS2 insertion, while another subfragment does not. In the plasmids studied IS2 elements not only insert into the cloned P1 fragment but also into parts of the galK gene with similar probability and mostly in one orientation. Many insertion sites are unique but several specific sites within the preferred target are repeatedly used for IS2 integration. The experimental data are compatible with a proposed cooperative mechanism, according to which more than one attracting sequence on the same plasmid might significantly enhance the probability of a particular target region to attract IS2.
Mol Gen Genet 1987 Feb
PMID:A cloned DNA fragment from bacteriophage P1 enhances IS2 insertion. 303 38

<< Previous 1 2 3 4 5 Next >>