Characterization of IS1389, a new member of the IS3 family of insertion sequences isolated from Xanthomonas campestris pv. amaranthicola

IS1389, a new insertion sequence belonging to the IS3 family, has been identified in Xanthomonas campestris pv. amaranthicola. The genome of this bacterium contains at least 11 copies of the element, whereas no hybridizing sequences were detected in other Xanthomonas species [X. axonopodis, X. fragaridae, X. phaseoli, and X. (Stenotrophomonas) maltophila]. Two nearly identical copies of the element (IS1389-A and IS1389-B) were characterized. According to analysis of sequence alignments and similar structural features, IS1389 belongs to the IS407 subgroup of the IS3 family, which duplicates 4 bp of target DNA upon insertion. IS1389-A was found in the proximity of the modification gene of the XamI restriction-modification system. Received: 17 November 1998 / Accepted: 22 April 1999     

Characterization of IS1474, an insertion sequence of the IS21 family isolated from Pseudomonas alcaligenes NCIB 9867

A new insertion sequence (IS) designated IS1474 was isolated from Pseudomonas alcaligenes NCIB 9867 (P25X). IS1474 is a 2632 bp element which showed a characteristic IS structure with 12 bp inverted repeats (IRs) flanking a 2608 bp central region. IS1474 contained four open reading frames (ORF1–ORF4), two in each orientation. Similarities were detected between ORF1 and ORF2 and the putative transposases of the IS21 family. Sequences upstream from IS1474 were found to display up to 89% homology with IS53 from Pseudomonas syringae suggesting that IS1474 had inserted into another related IS element designated IS1475. An open reading frame, ORF5, located at the junction of IS1474 and IS1475, showed similarities with the IstB protein of IS21 and could possibly be the transposase subunit of IS1475. Transposition assays showed that IS1474 transposed at a relatively low frequency leading to cointegration with target plasmids. Hybridization studies showed that IS1474 is present in at least 13 copies in the chromosome of P25X and one copy on its endogenous plasmid.     

Factors determining the frequency of plasmid cointegrate formation mediated by insertion sequence IS3 from Escherichia coli.

Summary Transposition events mediated by plasmid-borne copies of the insertion sequence IS3 of Escherichia coli are difficult to detect because of a low frequency of cointegrate formation. We found that cointegration activity could be strongly enhanced by using plasmid constructions in which a second IS3 element, disabled by a large deletion, was placed adjacent to an intact IS3 copy. Attempts to construct plasmids containing two adjacent intact IS3 copies were unsuccessful, probably because of instability. Transpositional hyperactivity of tandemly duplicated IS sequences was previously described for spontaneous duplications of IS21 and IS30 and may well be a more general phenomenon. The frequency of cointegration events was also strongly increased in an E. coli strain deficient in Dam methylation, suggesting that IS3, like some other Dam site-containing IS elements, is regulated by the Dam methylation system. Insertion sites were strongly clustered within the target lambda repressor gene; however no sequence specificity determinants could be identified. All insertions analyzed carried the IS element in the same orientation; target sequence duplications were mostly 3 bp, but in some cases 4 by long. To obtain information about the roles of the open reading frames (ORFs) in IS3, we constructed plasmid-borne mutant elements in which potentially functional reading frames were inactivated by site-directed mutations; the mutants were introduced into partial tandem constructions and tested in cointegration assays. Mutations inactivating the putative initiation codons of ORF I and 11 in the intact element reduced insertion activity to less than 4% of the wild type, whereas the introduction of a termination codon into ORF IV had no effect on cointegration frequency. We conclude that translation of ORFs I and II is essential for cointegration activity and that the mutagenized ATG codons most probably serve as the normal initiation codons in the wild-type element. In contrast, ORF IV could either be non-functional or its gene product could be supplied in trans from chromosomal elements.     

Sequence Analysis of a Novel Insertion Site of Transposon IS10

A sacB mutant was obtained by transposon IS10 inactivation of a plasmid pXT3sacB carrying the sacB gene. Sequencing of this mutant plasmid DNA (GenBank accession No. AY580883.1) showed that the IS10 flanking the 22 bp inverted repeats were 5′-CTGAGAGATCCCCTCATAATTT-3′ and 5′-AAATCATTAGGGGATTCATCAG-3′, which were the similar to those published in reports previously. However, the target sequence adjacent to IS10 was 5′-TGCTTGGTT-3′ instead of the previously reported 5′-NGCTNAGCN-3′. To our knowledge, this is the first report on the novel insertion site of IS10. In addition, Southern blot hybridization confirmed that the mobile IS10 originated from the chromosomal DNA of the host strain Escherichia coli DH5α and that there were two copies in the DH5α genome.     

Completion of the IS map in E. coli: IS186 positions on the E. coli K12 chromosome

Summary Insertion sites of the transposable element IS186 were physically mapped in the genome of E. coli K12 strain BHB2600. This strain maintains four IS186 copies of which three, assigned to 0.3, 14.1 and 51.8 map min., share common map positions with the three IS186 copies in strains W3110 and HB101. The fourth, unique IS copy in BHB2600 maps at 49.3 min. The IS186 data complete the BHB2600 map for all chromosomal sites of known K12-associated IS types.     

Genetic organization and transposition properties of IS 511

IS511 is an endogenous insertion sequence (IS) of the bacterium Caulobactercrescentus strain CB15 and it is the first Caulobacter IS to be characterized at the molecular level. We determined the 1266-bp nucleotide sequence of IS511 and investigated its genetic organization, relationship to other ISs, and transposition properties. IS511 belongs to a distinct branch of the IS3 family that includes ISRI, IS476, and IS1222, based on nucleotide sequence similarity. The nucleotide sequence of IS511 encodes open reading frames (orfs) designated here as orfA and orfB, and their relative organization and amino acid sequences of the predicted protein products are very similar to those of orfAs and orfBs of other IS3 family members. Nuclease S1 protection assays identified an IS511 RNA, and its 5′ end maps approximately 16 nucleotides upstream of orfA and about six nucleotides downstream of a sequence that is similar to the consensus sequence of C. crescentus housekeeping promoters. Evidence is presented that IS511 is capable of precise excision from the chromosome, and transposition from the chromosome to a plasmid. Transpositional insertions of IS511 occurred within sequences with a relatively high G + C content, and they were usually, but not always, flanked by a 4-bp direct repeat that matches a sequence at the site of insertion. We also determined the nucleotide sequence flanking the four endogenous IS511 elements that reside in the chromosome of C. crescentus. Our findings demonstrate that IS511 is a transposable IS that belongs to a branch of the IS3 family. Received: 18 August 1996 / Accepted: 17 September 1996     

Identification of IS 1206, a Corynebacterium glutamicum IS3-related insertion sequence and phylogenetic analysis

Integration of plasmid pCGL320 into a Corynebacterium glutamicum ATCC21086 derivative led to tandem amplification of the inserted plasmid (Labarre et a/., 1993). One amplification event was associated with integration of an insertion sequence that we have named IS 1206. Hybridizing sequences were only found in C. glutamicum strains and at various copy numbers. IS1206 is 1290bp long, carries 32 bp imperfect inverted repeats and generates a 3bp duplication of the target DNA upon insertion. IS1206 presents the features characteristic of the IS3 family and part of the DNA sequence centering on the putative transposase region (orfB) is similar to those of IS3 and some other related elements. Phylogenetic analysis of orfB deduced protein sequences from IS 1206 and IS3-related elements contradicts the phylogeny of the species, suggesting that evolution of these elements might be complex. Horizontal transfer could be invoked but other alternatives like ancestral polymorphism or/and different rates of evolution could also be involved.     

A cloned DNA fragment from bacteriophage P1 enhances IS2 insertion

Summary 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.     

IS30, a new insertion sequence of Escherichia coli K12

Summary Three independent spontaneous mutations of prophage P1 affecting the ability of the phage to reproduce vegetatively are due to the insertion of a mobile genetic element, called IS 30. The same sequence is also carried in the R plasmid NR 1-Basel, but not in the parental plasmid NR 1. Southern hybridisation study indicates that the Escherichia coli K 12 chromosome carries several copies of IS 30 as a normal resident. IS 30 is 1.2 kb long and contains unique restriction cleavage sites for Bg/II, ClaI, HindIII, NciI and HincII, and it is cleaved twice by the enzymes HpaII and TaqI. The ends of IS 30 are formed by 26 bp long inverted repeats with 3 bases mismatched. Upon transposition IS 30 generates a duplication of only 2 bp of the target. The following observations suggest a pronounced specificity in target selection by IS 30. In transposition to the phage P 1 genome a single integration site was used three times independently, and in both orientations. A short region of sequence homology has been identified between the P 1 and NR 1-Basel insertion sites. IS 30 has mediated cointegration as well as deletion. The entire IS 30 sequences were duplicated in the cointegrates between a pBR 322 derivative containing IS 30 and the genome of phage P 1–15, and several loci on the P1–15 genome served as fusion sites, some of which were used more than once.     

转座因子IS10一个新的插入靶位点的序列分析

转座因子在生物体内广泛存在,它在研究基因的重组机理以及生物染色体的进化方面有着重要意义。IS10是细菌中的一种转座因子,它既能单独作为插入序列,也能作为Tn10的一部分进行转座。利用含sacB基因的质粒pXT3sacB,获得了由转座因子IS10插入而导致sacB基因失活的突变体。通过对插入突变体质粒DNA的序列测定（GenBank登记号为AY580883．1）,结果表明IS10两端分别包括22bp倒置重复区CTGAGAGATCCCCTCATAATTT和AAATCATTAGGGGATTCATCAG,这与前人的报道一致;而IS10两端的插入靶位点序列为TGCTTGGTT,该9bp靶位点序列与前人报道的序列NGCTNAGCN不同。根据文献资料,本研究中的靶位点序列是首次报道。此外,通过Southern blot杂交分析,插入sacB基因中的IS10来源于宿主大肠杆菌DH5α染色体DNA,并且IS10在DH5α染色体中为两个拷贝。此外,本研究利用sacB基因捕获到转座因子IS10,该方法为研究其他插入序列提供了一个有益的体系。     

Characterization of IS1676 from Rhodococcus erythropolis SQ1

To develop a transposable element-based system for mutagenesis in Rhodococcus, we used the sacB gene from Bacillus subtilis to isolate a novel transposable element, IS1676, from R. erythropolis SQ1. This 1693 bp insertion sequence is bounded by imperfect (10 out of 13 bp) inverted repeats and it creates 4 bp direct repeats upon insertion. Comparison of multiple insertion sites reveals a preference for the sequence 5′-(C/T)TA(A/G)-3′ in the target site. IS1676 contains a single, large (1446 bp) open reading frame with coding potential for a protein of 482 amino acids. IS1676 may be similar to an ancestral transposable element that gave rise to repetitive sequences identified in clinical isolates of Mycobacteriumkansasii. Derivatives of IS1676 should be useful for analysis of Rhodococcus strains, for which few other genetic tools are currently available. Received: 1 April 1999 / Received revision: 6 July 1999 / Accepted: 1 August 1999     

Identification and characterization of IS 1138, a transposable element from Mycoplasma pulmonis that belongs to the IS3 family

Insertion sequence (IS) elements are mobile genetic elements found in prokaryotes. We have identified a repetitive element from Mycoplasma pulmonis, a murine pathogen, that is similar to eubacterial IS elements. By subcloning a single strain of M. pulmonis, we isolated a variant clone in which the IS element had undergone an apparent transposition event. The nucleotide sequences of the element, designated IS 1138, and the target site into which it inserted were determined. IS1138 consists of 1288bp with 18bp perfect terminal inverted repeats. Sequence analysis of the target site before and after insertion of IS1138 identified a 3bp duplication of target DNA flanking the element. The predicted amino acids encoded by the major open reading frame of IS 1138 share significant similarity with the transposases of the IS3 family. Southern hybridization analysis indicates that repetitive sequences similar to IS 1138 are present in most, if not all, strains of M. pulmonis, but Is1138–like sequences were not detected in other mycoplasmal species.     

Characterization of Insertions of IS476 and Two Newly Identified Insertion Sequences, IS1478 and IS1479, in Xanthomonas campestris pv. campestris

Thirty-two plasmid insertion mutants were independently isolated from two strains of Xanthomonas campestris pv. campestris in Taiwan. Of the 32 mutants, 14 (44%), 8 (25%), and 4 (12%) mutants resulted from separate insertions of an IS3 family member, IS476, and two new insertion sequences (IS), IS1478 and IS1479. While IS1478 does not have significant sequence homology with any IS elements in the EMBL/GenBank/DDBJ database, IS1479 demonstrated 73% sequence homology with IS1051 in X. campestris pv. dieffenbachiae, 62% homology with IS52 in Pseudomonas syringae pv. glycinea, and 60% homology with IS5 in Escherichia coli. Based on the predicted transposase sequences as well as the terminal nucleotide sequences, IS1478 by itself constitutes a new subfamily of the widespread IS5 family, whereas IS1479, along with IS1051, IS52, and IS5, belongs to the IS5 subfamily of the IS5 family. All but one of the IS476 insertions had duplications of 4 bp at the target sites without sequence preference and were randomly distributed. An IS476 insertion carried a duplication of 952 bp at the target site. A model for generating these long direct repeats is proposed. Insertions of IS1478 and IS1479, on the other hand, were not random, and IS1478 and IS1479 each showed conservation of PyPuNTTA and PyTAPu sequences (Py is a pyrimidine, Pu is a purine, and N is any nucleotide) for duplications at the target sites. The results of Southern blot hybridization analysis indicated that multiple copies of IS476, IS1478, and IS1479 are present in the genomes of all seven X. campestris pv. campestris strains tested and several X. campestris pathovars.     

The Transposon-Like Structure of IS26-Tetracycllne,and Kanamycin Resistance Determinant Derived from Transferable R Plasmid of Fish Pathogen,Pasteurella piscicida

Tetracycline (pp-tet), and kanamycin (pp-kan) resistance genes were cloned from a transferable R plasmid of fish pathogen Pasteurella piscicida, and complete nucleotide sequences were determined. The pp-tet was a class D Tet determinant constructed with the tetA resistance gene of 1,182 bp encoding a protein with a deduced molecular mass of 41 kDa and the tetR repressor gene of 654 bp encoding a product of 24 kDa. The pp-tet was highly homologous to the tet(D) of plasmid RA1 isolated from Aeromonas hydrophila with two nucleotide differences in the tetR, and of plasmid pIP173 from Salmonella ordonez with two nucleotide differences in the tetA. The pp-kan contained 813 bp encoding a 31 kDa protein of 271 amino acids, and was classified into type aph-Ic. It was identical to the aphA7 in the IAB operon of pBWH77, in which was originally found an isolate of Klebsiella pneumoniae, in its nucleotide sequences and hybrid promoter construction. The genes were connected by an insertion sequence IS 26 of 820 bp, and were flanked by repeated copies in direct orientation at the 3′ flanking region of the pp-tetA and in inverted orientation at the 3′ flanking region of the pp-kan. The genetic elements are organized like a complex transposon by close linkage of the IS 26 and the pp-tet and -kan.     

Insertions of transposable elements in the promoter proximal region of the gene cluster for Escherichia coli H+-ATPase: 8 base pair repeat generated by insertion of IS1

Summary A plasmid pKY159 (Yamaguchi and Yamaguchi 1983) carrying a promoter proximal portion of the gene cluster of the proton-translocating ATPase (H⁺-ATPase) of Escherichia coli causes growth inhibition of wild-type cells. Insertion of a transposable element in this plasmid released this inhibitory effect. In analyzing this inhibitory effect, we determined the insertion points at the nucleotidesequence level of transposable elements on 30 independent derivatives of pKY159. Insertions of IS1, IS5, and were found between the promoter and the gene for a possible component of 14,000 daltons of the H⁺-ATPase. Of 31 insertions, 26 were of IS1 and were located at the same site, indicating that this site is a hotspot for IS1 insertion and that IS1 insertion is much more frequent than that of IS5 of in this region. Four different sites for IS1 insertion were found; in two of these an 8 base pair (bp) duplicate of the target sequence (AAAAACGT and AAACGTTG) was generated, while in the other two a 9 bp duplicate was found. In all cases in this study the nucleotide sequence of IS1 was the same as that of IS1-K. In the two cases with an 8 bp duplicate in different sites, a common 6 bp sequence (AAACGT) was found. These results suggested that generation of the 8 bp duplicate is related to the common sequence rather than a mutation in IS1 suggested by Iida et al. (1981) and also suggested that the essential length of the duplicate is 8 bp or less than 8 bp. A 6 bp sequence (GTGATG) homologous to the end portion of IS1 was found at the hotspot, but not at other sites, suggesting that this homology contributed to the high frequency of IS1 insertion. The direction of IS1 insertion at the hotspot was the same in 25 of 26 instances, suggesting that the direction of IS1 insertion is determined by the structure of the target and/or its nearby sequence.Abbreviations bp base pairs - 14 K protein a possible component of the H⁺-ATPase with molecular weight of 14,000 (see Kanazawa and Futai 1982 for details) - EDTA ethylenediaminetetraacetate     

Characterization and distribution of two insertion sequences,IS1191 and iso-IS981, in Streptococcus thermophilus: does intergeneric transfer of insertion sequences occur in lactic acid bacteria co-cultures?

A chromosomal repeated sequence from Streptococcus thermophilus was identified as a new insertion sequence (IS), IS1191. This is the first IS element characterized in this species. This 1313 bp element has 28 bp imperfect terminal inverted repeats and is flanked by short direct repeats of 8bp. The single large open reading frame of IS1191 encodes a 391-amino-acid protein which displays homologies with transposases encoded by IS1201 from Lactobacillus helveticus (44.5% amino-acid sequence identity) and by the other ISs of the IS256 family. One of the copies of IS 1191 is inserted into a truncated iso-IS981 element. The nucleotide sequences of two truncated iso-IS981 s from S. thermophilus and the sequence of IS981 element from Lactococcus lactis share more than 99% identity. The distribution of these insertion sequences in L. lactis and S. thermophilus strains suggests that intergeneric transfers occur during co-cultures used in the manufacture of cheese.     

Characterization of IS1515, a Functional Insertion Sequence in Streptococcus pneumoniae

We describe the characterization of a new insertion sequence, IS1515, identified in the genome of Streptococcus pneumoniae I41R, an unencapsulated mutant isolated many years ago (R. Austrian, H. P. Bernheimer, E. E. B. Smith, and G. T. Mills, J. Exp. Med. 110:585–602, 1959). A copy of this element located in the cap1E_I41R gene was sequenced. The 871-bp-long IS1515 element possesses 12-bp perfect inverted repeats and generates a 3-bp target duplication upon insertion. The IS encodes a protein of 271 amino acid residues similar to the putative transposases of other insertion sequences, namely IS1381 from S. pneumoniae, ISL2 from Lactobacillus helveticus, IS702 from the cyanobacterium Calothrix sp. strain PCC 7601, and IS112 from Streptomyces albus G. IS1515 appears to be present in the genome of most type 1 pneumococci in a maximum of 13 copies, although it has also been found in the chromosome of pneumococcal isolates belonging to other serotypes. We have found that the unencapsulated phenotype of strain I41R is the result of both the presence of an IS1515 copy and a frameshift mutation in the cap1E_I41R gene. Precise excision of the IS was observed in the type 1 encapsulated transformants isolated in experiments designed to repair the frameshift. These results reveal that IS1515 behaves quite differently from other previously described pneumococcal insertion sequences. Several copies of IS1515 were also able to excise and move to another locations in the chromosome of S. pneumoniae. To our knowledge, this is the first report of a functional IS in pneumococcus.     

The Non-Random Pattern of Insertion of IS2 into the hemB Gene of Escherichia coli

The hemB gene of Escherichia coli has been identified as a hot spot for the insertion of the transposable element IS2. The insertional specificity of IS2 is still unclear. This study reports on the attempt to sequence a statistically significant number of insertions in hemB, in order to determine whether there might be a basis for future studies to determine a molecular basis of IS2 insertional specificity. The results indicate that IS2 inserts in a non-random manner into a 240 bp segment at the 5′ end of the gene (region I). Twenty-one of 24 insertions occurred in region I. Three insertions have been identified in the two middle 250 bp segments of the 975 bp gene, and none in the 3′ terminal segment. A seventeen bp sequence showing 88.2% identity with a segment of IS2, 221 bp from the 3′ terminus has been identified in region I. Four instances of repeated insertion between the same pair of nucleotides have been observed at four different sites.     

IS<Emphasis Type="Italic">Rm31</Emphasis>, a new insertion sequence of the IS<Emphasis Type="Italic">66</Emphasis> family in<Emphasis Type="Italic"> Sinorhizobium meliloti</Emphasis>

Sinorhizobium meliloti natural populations show a high level of genetic polymorphism possibly due to the presence of mobile genetic elements such as insertion sequences (IS), transposons, and bacterial mobile introns. The analysis of the DNA sequence polymorphism of the nod region of S. meliloti pSymA megaplasmid in an Italian isolate led to the discovery of a new insertion sequence, ISRm31. ISRm31 is 2,803 bp long and has 22-bp-long terminal inverted repeat sequences, 8-bp direct repeat sequences generated by transposition, and three ORFs (A, B, C) coding for proteins of 124, 115, and 541 amino acids, respectively. ORF A and ORF C are significantly similar to members of the transposase family. Amino acid and nucleotide sequences indicate that ISRm31 is a member of the IS66 family. ISRm31 sequences were found in 30.5% of the Italian strains analyzed, and were also present in several collection strains of the Rhizobiaceae family, including S. meliloti strain 1021. Alignment of targets sites in the genome of strains carrying ISRm31 suggested that ISRm31 inserts randomly into S. meliloti genomes. Moreover, analysis of ISRm31 insertion sites revealed DNA sequences not present in the recently sequenced S. meliloti strain 1021 genome. In fact, ISRm31 was in some cases linked to DNA fragments homologous to sequences found in other rhizobia species.     

A new insertion sequence from Sinorhizobium meliloti with homology to IS1357 from Methylobacterium sp. and IS1452 from Acetobacter pasteurianus

The insertion sequence ISRm8 was identified by sequence analysis of the cryptic plasmid pRmeGR4b of Sinorhizobium meliloti GR4. ISRm8 is 1451 bp in length and carries 22/24-bp terminal imperfect inverted repeats with seven mismatches and a direct target site duplication of 3 bp. ISRm8 carries a unique open reading frame whose putative protein showed significant similarity to the insertion sequences IS1357 and IS1452, isolated from Methylobacterium sp. and Acetobacter pasteurianus, respectively. Two copies of this IS element were found in strain GR4; one of them is linked to plasmid pRmeGR4b, whereas the other is localized out of the non-pSym plasmids. In S. meliloti field populations ISRm8 shows a limited distribution (50% of the strains tested carry the IS element), with a copy number ranging from 1 to 6.