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Query: UNIPROT:P06889 (Mol)
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A sequence (hlyR) of about 600 bp which enhances the expression of hemolysin (HlyA) more than 50-fold was identified in the plasmid pHly152-specific hemolysin (hly) determinant. Deletion of this entire hlyR sequence led to the same low level of hemolysin synthesis and excretion as that expressed by the recombinant plasmid pANN202-312. HlyR was active in cis but its activity was orientation-dependent. The enhancing sequence, hlyR, is separated from the promoter phlyI transcribing hlyC, hlyA and possibly hlyB by more than 1.5 kb including an IS2 element. Stepwise removal of the hlyR sequence from its 5' end by exonuclease III (ExoIII) digestion yielded several types of deletion mutants which expressed decreasing amounts of hemolysin. A similar observation was made when hlyR was shortened by ExoIII from its 3' end, which suggests that more than one functional region may be present in the hlyR sequence. A deletion of 717 bp within the adjacent IS2 element reduced the activity of hlyR only slightly, indicating that IS2 is not directly involved in the enhancement mechanism but that it may support an optimal positioning in hlyR relative to the hly promoter. The nucleotide sequence of hlyR is rich in A + T and does not contain an extended open reading frame, but exhibits several sequence motives that may represent sites for protein binding and DNA bending.
Mol Gen Genet 1988 Apr
PMID:Characterization of a sequence (hlyR) which enhances synthesis and secretion of hemolysin in Escherichia coli. 328 99

The insertion sequence IS2 is a small transposable element of Escherichia coli that lacks any known genetic markers. Insertion of this element in one orientation (I) within bacterial operons blocks expression of downstream genes. In the other orientation (II), IS2 has been associated with the constitutive expression of genes distal to its insertion, suggesting that IS2 might contain promoters directing transcription of IS2(II) into other genes. To test the transcription potential of IS2, we have transcribed in vitro DNA templates from gal3, a Gal- allele in which an IS2(I) is inserted between the gal promoter and the gal genes. We have detected two IS2-specific RNAs which initiate from promoters within IS2 and are transcribed in orientation II (away from the galETK genes). Though the presence and orientation of these promoters suggests that they could be responsible for the constitutive expression of genes adjacent to an IS2(II) element, an alternative role could be for transcription of IS2-encoded genes. Although IS2(I) insertions normally block expression of adjacent genes, certain altered (e.g. mutant) IS2(I) sequences lead to the constitutive expression of downstream genes. We have transcribed DNA templates from galwc5 and galc331, which are Galc alleles that contain altered IS2(I) insertions within the gal operon. For each allele, we have detected two gal-directed transcripts initiating within the IS2 sequence. These RNAs are not detected upon transcription of the unaltered IS2(I) DNA and the promoters arise as a direct consequence of the IS2(I) alterations. This result suggests that these promoters detected in vitro are responsible for the Galc phenotype of these alleles.
J Mol Biol 1983 Sep 05
PMID:Specific in vitro transcription of the insertion sequence IS2. 619 5

The E. coli lambda lysogen, OR1263, carries the fusion pR-cro-tR1-IS2-gal. The gal promoter is deleted and gal expression from pR, in the absence of the lambda antitermination factor N, is blocked by the efficient transcription terminator in IS2. Selection for Gal+ yields strains deleted for the IS2 terminator and various portions of the lambda chromosome. Analysis of these deletions reveals the following: (a) The lambda tR1 terminator is about 50% efficient. (b) In two deletions sequenced, DNA loss occurred as a result of homologous recombination between a 2- or a 4-base pair repeat. (c) By measuring the ability of lambda N product to suppress the polarity of a gal ochre mutation, we demonstrate that the N utilization site in the lambda pR operon lies between tR1 and cro. (d) The level of Cro repressor synthesized by a single copy prophage is sufficient to repress the cI maintenance promoter, prm, but is inadequate to inhibit pR.
J Mol Appl Genet 1983
PMID:Regulation of the pR operon of bacteriophage lambda. 622 Oct 59

The isolation and characterization of three unstable and constitutive revertants of mutant galOP-308 of E. coli is described. In this mutant an IS2 element is integrated between the promoter and the first structural gene of the galactose operon, and exerts a strong polar effect on the expression of the three galactose genes. In the three revertants under investigation it was observed that relief of polarity and constitutive expression of the gal-operon were accompanied by the deletion of 90% of the IS2 sequence and of various lengths of the adjacent sequences including the gal-promoter. We conclude from this result that the transcription termination signals causing strong polarity were located on the deleted part of IS2, and that in our revertants the galactose genes are now under the control of a new promoter which is apparently unstable.
Mol Gen Genet 1980
PMID:The structure of unstable constitutive revertants of mutant galOP-308::IS2-I. 625 16

IS2 has been marked genetically by the in vitro insertion into its HindIII site of a 3.3 Kb HindIII fragment of Tn5 conferring resistance to kanamycin. The transposition of the IS2::Km, thus obtained, to lambda has been found and insertion sites were characterised. Each of ten independent IS2::Km insertions were found at the same site at 61.2% of the lambda map, always in the same orientation (orientation II relative to the xis gene). The integration sites of IS2::Km in five of the kanamycin-transducing phages were determined by DNA sequence analysis, and were found to be identical at the nucleotide level. Further transposition of IS2::Km from lambda to the bacterial chromosome was demonstrated.
Mol Gen Genet 1981
PMID:Integration specificity of an artificial kanamycin transposon constructed by the in vitro insertion of an internal Tn5 fragment into IS2. 627 77

Deleted derivatives of F lac+ proC+ tsx+/- purE+ plasmids ORF203 and F13 were isolated and physically characterized. Among 31 deletions, 24 were adjacent to the gamma delta element on F, four were associated with IS2 or IS3 elements normally present on F, and three displayed additional DNA rearrangements. With the genetic selection employed, the deletion endpoints in the chromosomal segment could fall anywhere within a 210 kb (5 min) region between proC and lac. The distribution of endpoints in this region was not random: the endpoints primarily occurred in an extended region near purE, and a 50 kb segment between tsx and purE was devoid of deletion endpoints. Deletion termini for mutants obtained from F13, which contains an additional 48 kb-segment interposed between gamma delta and the target region on ORF203, displayed a distribution similar to that seen for ORF203. Among simple deletions, there was no marked tendency for the chromosomal deletion endpoints to fall at IS1, IS3, or IS5 elements normally present in this chromosomal region. Point mutations and mutations caused by gamma delta or IS transposition into lac appeared in a small proportion of all plasmids studied.
Mol Gen Genet 1983
PMID:Gamma delta-mediated deletions of chromosomal segments on F-prime plasmids. 630 74

The mechanism of folding of the small protein barstar in the pre-transition zone at pH 7, 25 degrees C has been characterized using rapid-mixing techniques. Earlier studies had established the validity of the three-state US <--> UF <--> N mechanism for folding and unfolding in the presence of guanidine hydrochloride (GdnHCl) at concentrations greater than 2.0 M, where US and UF are the slow-refolding and fast-refolding unfolded forms, respectively, and N is the fully folded form. It is now shown that early intermediates, IS1 and IS2 as well as a late native-like intermediate, IN, are present on the folding pathways of US, and an early intermediate IF1 on the folding pathway of UF, when barstar is refolded in concentrations of GdnHCl below 2.0 M. The rates of formation and disappearance of IN, and the rates of formation of N at three different concentrations of GdnHCl in the pre-transition zone have been measured. The data indicate that in 1.5 M GdnHCl, IN is not fully populated on the US-->IS1-->IN-->N pathway because the rate of its formation is so slow that the US <--> UF <--> N pathway can effectively compete with that pathway. In 1.0 M GdnHCl, the US-->IS1-->IN transition is so fast that IN is fully populated. In 0.6 M GdnHCl, IN appears not to be fully populated because an alternative folding pathway, US-->IS2-->N, becomes available for the folding of US, in addition to the US-->IS1-->IN-->N pathway. Measurement of the binding of the hydrophobic dye 1-anilino-8-naphthalenesulphonate (ANS) during folding indicates that ANS binds to two distinct intermediates, IM1 and IM2, that form within 2 ms on the US-->IM1-->IS1-->IN-->N and US-->IM2-->IS2-->N pathways. There is no evidence for the accumulation of intermediates that can bind ANS on the folding pathway of UF.
J Mol Biol 1995 Apr 14
PMID:The folding mechanism of barstar: evidence for multiple pathways and multiple intermediates. 772 34

Sequence determination of the chloroplast clpP gene from two distantly related Chlamydomonas species (C. reinhardtii and C. eugametos) revealed the presence of translated large insertion sequences (IS1 and IS2) that divide the clpP gene into two or three sequence domains (SDs) and are not found in homologous genes in other organisms. These insertion sequences do not resemble RNA introns, and are not spliced out at the mRNA level. Instead, each insertion sequence forms a continuous open reading frame with its upstream and downstream sequence domains. IS1 specifies a potential polypeptide sequence of 286 and 318 amino acid residues in C. reinhardtii and C. eugametos, respectively. IS2 encodes a 456 amino acid polypeptide and is present only in C. eugametos. The two Chlamydomonas IS1 sequences show substantial similarity; however, there is no significant sequence similarity either between IS1 and IS2 or between these insertion sequences and any other known protein coding sequences. The C. reinhardtii clpP gene was further shown to be essential for cell growth, as demonstrated through targeted gene disruption by particle gun-mediated chloroplast transformation. Only heteroplasmic transformants could be obtained, even under mixotrophic growth conditions. The heteroplasmic transformants were stable only under selection pressure for the disrupted clpP, rapidly segregated into wild-type cells when the selection pressure was removed, and grew significantly more slowly than wild-type cells under phototrophic conditions.
Mol Gen Genet 1994 Jul 25
PMID:The Chlamydomonas chloroplast clpP gene contains translated large insertion sequences and is essential for cell growth. 805 34

The IS2 sequence encodes five open reading frames (ORF1 to ORF5) that are greater than 150 nucleotides each. Only one protein of 14 kDa was detected when the expression of IS2 genes was examined in minicells. This 14 kDa protein was referred to as InsA in this study and was determined to be encoded by ORF1. A sixfold decrease in IS2 transposition frequency was observed when insA was overexpressed. DNA footprinting results indicated that InsA binds to the sequence 5'-TAAATAA-3' located at IS2 nucleotide numbers 1286 to 1292. (The IS2 right terminal repeat spans nucleotides 1290 to 1331.) This InsA binding sequence is situated 4 bp upstream from the putative "-10" sequence of the insA promoter that overlaps the right terminal repeat of IS2. The presence of a promoter located in this region was demonstrated by the ability of a DNA fragment containing the right terminal repeat to drive the expression of a promoterless lacZ gene. The transcription of insA was determined to start at the A residue located at nucleotide number 1268. With the same insA promoter-lacZ fusion construct, overexpression of insA in the same cell was found to decrease the beta-galactosidase activity. The results of this study suggest that InsA affects IS2 transposition by regulating the transcription of IS2 genes.
J Mol Biol 1994 Feb 18
PMID:Functional analysis of the 14 kDa protein of insertion sequence 2. 810 36

Peptides representing transmembrane regions of the alpha-subunit of the voltage-gated sodium channel were synthesised and their structures analysed, using 1H NMR and CD, in trifluoroethanol and in dodecylphosphocholine micelles. Sequence analysis suggests that the channel has six regions, S1 to S6, predicted to span the membrane in four homologous domains, designated, I, II, III and IV. Presented here are studies of representatives examples of possible single spanning segments (IS2, IS4, IVS4) and a double spanning segment, IS34, composed of segments IS3 and IS4. In addition, we investigated ISlink56, the putative linker region between segments IS5 and IS6. All of the peptides were found to have predominantly alpha-helical structures in both solvent systems. There was some evidence for bending of the longer helices but there was no discernible evidence for well-defined tertiary structure.
J Mol Biol 1996 May 17
PMID:Structural studies of synthetic peptides dissected from the voltage-gated sodium channel. 863 1

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