IS431mec-mediated integration of a bleomycin-resistance gene into the chromosome of a methicillin-resistant Staphylococcus aureus strain isolated in Japan

A methicillin-resistant Staphylococcus aureus (MRSA) strain B-26, isolated clinically in Hiroshima University Hospital, is resistant to bleomycin together with kanamycin. In the present study, we analysed the nucleotide sequence of the 5.1-kb HindIII fragment containing the bleomycin- and kanamycin-resistance genes, which were previously cloned [Bhuiyan et al. (1995) Appl Microbiol Biotechnol 43: 65–69] from the chromosomal DNA of MRSA B-26. The present study found that the DNA sequence contains the duplicated target sequence (GATTAGAT) consisting of 8 bp for transposase and the entire nucleotide sequence of the plasmid pUB110, together with the sequence of inverted repeats (16 bp), designated IR-r and IR-l in IS431mec. The 8-bp duplication sequence, produced by the transposable element, was first found by us. We proposed that bleomycin resistance in MRSA B-26 is attributed to the IS431mec-mediated integration of pUB110 into the chromosome. Received: 13 September 1995/Received last revision: 20 February 1996/Accepted: 30 March 1996     

Isolation and characterization of Rhodobacter capsulatus strains lacking endogenous plasmids

Phodobacter capsulatus (formerly Rhodopseudomonas capsulata) strain B10 was found to contain a single plasmid of molecular weight 86×10⁶. Strains lacking this plasmids were isolated by various methods from strains containing the mutant R plasmid, pTH10. With the exception of two strains, which were found to contain chromosomal insertions of R plasmid DNA, strains lacking the endogenous plasmid appeared to be unaffected in any of the following metabolic or genetic functions: photosynthetic, autotrophic, diazotrophic, and dark, anaerobic growth; the production of bacteriocin; homologous recombination; the restriction of foreign DNA; and the production of gene transfer agent. DNA-DNA hybridization experiments confirmed that the plasmid had been eliminated from these strains and not become integrated into the chromose. However, sequences homologous to those of the endogenous plasmid were found to be present in the chromosome of R. capsulatus B10. This suggests, among other possibilities, that the endogenous plasmid may have originated in the chromosome, and might serve to duplicate certain chromosomal functions.Abbreviations kb kilobase-pair - GTA gene transfer agent - Cma chromosome mobilizing ability     

Isolation and Genetic Analysis of an Agrobacterium tumefaciens Avirulent Mutant with a Chromosomal Mutation Produced by Transposon Mutagenesis

A transposon 5 (Tn5) insertion was introduced into the genome of A. tumefaciens (A-208 strain harbouring a nopaline type Ti-plasmid) using a conjugative pJB4JI plasmid containing Tn5. Five thousand transconjugants were assayed for virulence on carrot (Daucus carota L.) disks; 54 isolates were avirulent or very attenuated. The cellular localization (plasmid or chromosome) of the Tn5 insertion in those isolates were identified by Southern hybridization analysis. An avirulent- mutant (B-90 strain) with the Tn5 insertion in the chromosome was selected and characterized. The mutant had the same growth rate as that of the parent strain in L-broth. The mutant and the parent strain had similar attachment ability to carrot root cells. Tn5 was inserted into one site of the chromosome. The wild-type target chromosomal region (1281 base pairs) was cloned and sequenced. An open reading frame (ORF) consisting of 395 base pairs was identified. The wild-type DNA fragment (1.6 kb) containing the ORF introduced into B-90 strain complemented the avirulent phenotype of the strain. A soluble protein was predicted from the ORF. The Tn5 was inserted near the 3′-terminal of the ORF. Homology search of this ORF found no significant homology to known genes and proteins. Thus, the ORF identified in this paper seems to be a new chromosomal virulence gene of A. tu?efaciens.     

Molecular cloning and genetic mapping of the PET494 gene of Saccharomyces cerevisiae

Summary The activity of the nuclear gene PET494 is required to allow expression of the yeast mitochondrial gene oxi2. To aid the study of the mechanism of action of PET494 we have isolated this gene from yeast DNA. A clone bank of yeast DNA fragments in a yeast-E. coli shuttle vector was screened by transformation for a plasmid able to complement the pet494-1 amber mutation. A complementing plasmid was obtained that contained a unique 4.4 kb yeast sequence. This 4.4 kb sequence contains the PET494 gene. Integration of a plasmid containing it into chromosomal DNA by homologous recombination, and subsequent genetic analysis, demonstrated that the 4.4 kb fragment was tightly linked to the pet494-1 mutation. In addition, the corresponding 4.4 kb sequence isolated from a pet494-1 mutant failed to complement the mutation. A 2 kb fragment, subcloned from the original plasmid retained the ability to complement the mutation. The pet494-1 mutation maps to chromosome XIV between rna2 and lys9, approximately 2.4 cm from lys9.     

Integration of repeated sequences (pBR322) in the Bacillus subtilis 168 chromosome without affecting the genome structure

The Escherichia coli plasmid pBR322 sequence (4363 bp) was integrated at the met, pro, or leuB locus of the Bacillus subtilis chromosome without duplication of the flanking chromosomal regions. The integrated pBR322 was stably maintained as part of the chromosome regardless of its orientation or location. It was found that a DNA segment as large as 17 kb cloned in pBR322 can be readily transferred to the B. subtilis chromosome by transformation. It was demonstrated that a second pBR322 sequence could be effectively introduced at different regions of the chromosome by sequential transformation using chromosomal DNA isolated from a strain that had already acquired a pBR322 sequence at a different locus. Similarly, a third pBR322 sequence could be introduced. By this method, two or three pBR322 sequences can be incorporated at unlinked loci without affecting the overall structure of the B. subtilis genome.     

Location and cloning of the ultraviolet-sensitizing function from the chromosomally associated IncJ group plasmid, R391

The IncJ plasmid R391, which specifies a uv-sensitizing function, has been shown to be associated with chromosomal DNA. Deletions originating from Tn10 insertion into the kanamycin-resistance determinant of plasmid R391 gave rise to uv-resistant derivatives. This apparent linkage between the kanamycin-resistance determinant and the uv-sensitizing gene(s) was used to clone the uv-sensitizing function from plasmid R391 into pUR222. A recombinant plasmid containing both functions (KanR and Uvs+) was obtained. The uv-sensitizing function was mapped to a 4-kb EcoRI fragment.     

A chromosomal linkage map of Agrobacterium tumefaciens and a comparison with the maps of Rhizobium spp

Summary Plasmid R68.45 was found to mobilize the Agrobacterium tumefaciens chromosome apolarly. With the aid of this R plasmid the linkage between 26 markers was determined, from which a circular genetic map of the A. tumefaciens chromosome could be constructed. The recombinants obtained were stable i.e. they did not segregate strains, with the parental phenotype upon purification. A system for the polar transfer of chromosomal material from a fixed origin was developed for A. tumefaciens. It was found that R plasmid pRL189, which carries a copy of transposon Tn5, is able to mobilize the chromosome polarly from chromosomal Tn5-insertion sites. A. tumefaciens phe-1 and trp-22 auxotrophs became prototrophic after the introduction of R primes pAJ21JI and pAJ73JI, respectively, which carry the corresponding phe and trp genes of Rhizobium meliloti. This result enabled a preliminary comparison of the gene orders in A. tumefaciens and Rhizobium spp. which suggested that the chromosome maps of these organisms are quite similar.     

Transfer of the plJ101 plasmid in Streptomyces lividans requires a cis-acting function dispensable for chromosomal gene transfer

The tra gene of Streptomyces lividans plasmid plJ101 is required for both plasmid DNA transfer and plJ101-induced mobilization of chromosomal genes during mating. We show that a chromosomally inserted copy of tra mediates transfer of chromosomal DNA at high frequency but promotes efficient transfer of plasmids only when they contain a previously unknown locus, here named clt. Insertional mutation or deletion of clt from plJ101 reduced plasmid transfer mediated by either plasmid-borne or chromosomally located tra by at least three orders of magnitude, abolished the transfer-associated pocking phenomenon, and interfered with the ability of tra⁺ plasmids to promote transfer of chromosomal DNA. Our results indicate that plasmid transfer in S. lividans involves a cis-acting function dispensable for chromosomal gene transfer and imply that either the S. lividans chromosome encodes its own clt-like function or, alternatively, that transfer of plasmid and chromosomal DNA occurs by different mechanisms.     

Active and Inactive Transplacement of the M26 Recombination Hotspot in Schizosaccharomyces Pombe

The ade6-M26 mutation of the fission yeast Schizosaccharomyces pombe creates a meiotic recombination hotspot that elevates ade6 intragenic recombination ~10-15-fold. A heptanucleotide sequence including the M26 point mutation is required but not sufficient for hotspot activity. We studied the effects of plasmid and chromosomal context on M26 hotspot activity. The M26 hotspot was inactive on a multicopy plasmid containing M26 embedded within 3.0 or 5.9 kb of ade6 DNA. Random S. pombe genomic fragments totaling ~7 Mb did not activate the M26 hotspot on a plasmid. M26 hotspot activity was maintained when 3.0-, 4.4-, and 5.9-kb ade6-M26 DNA fragments, with various amounts of non-S. pombe plasmid DNA, were integrated at the ura4 chromosomal locus, but only in certain configurations relative to the ura4 gene and the cointegrated plasmid DNA. Several integrations created new M26-independent recombination hotspots. In all cases the non-ade6 DNA was located >1 kb from the M26 site, and in some cases >2 kb. Because the chromosomal context effect was transmitted over large distances, and did not appear to be mediated by a single discrete DNA sequence element, we infer that the local chromatin structure has a pronounced effect on M26 hotspot activity.     

Cloning and characterization of a DNA repair gene inHaemophilus influenzae

Using a high-efficiency DNA cloning vector pJ1–8, a DNA repair geneuvr1 has been self-cloned in bacteriumHaemophilus influenzae. Chimeric plasmid pKuvrl, carrying wild type allele ofuvr1 gene and flanking DNA sequences, specifically complements auvr1 gene mutation in the bacterial chromosome. Auvr1_} mutation could be transferred from chromosome byin vivo recombination to pKuvr1 and isolated and designated as plasmid pKuvrl₋. Plasmid pKuvrl carries a 11.3 kb chromosomal DNA insert which was scanned for the presence of any other DNA repair genes by a novel method of directed mutagenesis. Preliminary analysis of the 3 new mutants isolated by this method supports the notion that the insert contains more than one gene concerned with ultraviolet radiation-sensitivity.     

Observations on integrative transformation in Schizosaccharomyces pombe

Summary Three different Schizosaccharomyces pombe strains have been transformed with a circular or linearized non-ars plasmid carrying the ura4 ⁺ gene as a selectable marker. The first strain shows full homology between the genomic ura4-294 gene (point mutation) and the marker gene on the plasmid. The second strain carries a 600 bp deletion (ura4-D6) that decreases homology between plasmid and chromosome. No homology remains in the third strain which has a complete deletion of the ura4 gene on the chromosome (ura4-D18). When sequence homology exists between transforming DNA and the chromosomal ura4 region, gene conversion is strongly preferred over integration of the circular plasmid. Reduction of the length of homology leads to a decrease of transformation frequencies, and homology dependent as well as a minority of homology independent integrations are observed. In the complete absence of homology two rate types of transformants are encountered: either the circular plasmid replicates autonomously, although it is devoid of an ars sequence, or alternatively the plasmid integrates into the genome at various positions. Transformation with plasmid cut within the coding region of ura4 can lead to tandemly arranged multiple integrations, when no homology exists between the free ends and the chromosome. The integrations occur at the ura4 locus, when homology is retained between plasmid and chromosome, and at various sites in the genome of the strain with a complete deletion of the ura4 gene. The results suggest that homology dependent events (conversion, integration) are strongly preferred in transformation of S. pombe with non-ars plasmids. In addition low frequency integration by illegitimate recombination is observed. Linearized plasmid can be ligated in vivo to form monomers or multimers in the absence of homology between the free plasmid ends and the chromosomal genome.     

Homologous recombination between plasmid and chromosomal DNA in Bacillus subtilis requires approximately 70 bp of homology

Summary To determine the minimal DNA sequence homology required for recombination in Bacillus subtilis, we developed a system capable of distinguishing between homologous and illegitimate recombination events during plasmid integration into the chromosome. In this system the recombination frequencies were measured between is pE194 derivatives carrying segments of the chromosomal -gluconase gene (bglS) of various lengths and the bacterial chromosome, using selection for erythromycin resistance at the non-permissive temperature. Homologous recombination events, resulting in disruption of the bglS gene, were easily detected by a colorimetric assay for -gluconase activity. A linear dependence of recombination frequency on homology length was observed over an interval of 77 bp. It was found that approximately 70 bp of homology is required for detectable homologous recombination. Homologous recombination was not detected when only 25 by of homology between plasmid and chromosome were provided. The data indicate that homology requirements for recombination in B. subtilis differ from those in Escherichia coli.     

The cloning of chromosomal DNA associated with methicillin and other resistances in Staphylococcus aureus

Competitive hybridization was used to detect the deletion of chromosomal DNA accompanying the loss of resistance to methicillin (and concomitantly, to cadmium, mercury and tetracycline) from a clinical strain of methicillin-resistant Staphylococcus aureus (MRSA). The method was also used to screen a partial plasmid library of chromosomal HindIII fragments from the MRSA strain. Eight recombinant plasmid clones were identified as containing DNA included in the deletion. These clones were used as probes to screen a phage library of the total DNA of the same MRSA strain, resulting in the isolation of overlapping recombinant phage clones carrying 24 kb of the deleted DNA. Two of the cloned HindIII fragments were associated closely with methicillin resistance, as shown by probing DNA from an independent methicillin-sensitive/resistant transduced strain pair and from two MRSA strains following growth in the presence of high concentrations of methicillin. The endonuclease map of the cloned DNA indicates the presence of four copies of a direct repeat less than 1 kb in size. The map is also consistent with the presence in the chromosome of sequences for mercury resistance (mer A mer B) and for tetracycline-resistance plasmid pT181.     

Possible involvement of the ugpA gene product in the stable maintenance of mini-F plasmid in Escherichia coli

Summary The seg-3 mutant Escherichia coli does not support the maintenance of mini-F plasmid at 42° C. We cloned the chromosomal DNA segment of the wild-type strain W3110 that complements the Seg^– phenotype of this mutant. Cleavage mapping of this segment showed that it was derived from the 76-min region of the E. coli chromosome map. Complementation tests using plasmids carrying subcloned DNA segments suggested that the seg-3 mutant carried two mutations that additively affected the maintenance of mini-F plasmid; one was in the ugpA gene and the other was presumably in the rpoH gene. We generated a disrupted ugpA null mutant and found that the mini-F plasmid was unstable in this ugpA null mutant even at 30° C. This suggests that the ugpA gene product is required for the stable maintenance of mini-F plasmid.     

Chromosomal DNA contains the gene coding for Salmonella enterotoxin

This report examines the genetic basis for Salmonella enterotoxin production. The examination was conducted using an internal XbaI/HincII sequence of plasmid pJM17 encoding cholera toxin as a gene probe (ctxAB). This gene probe detected some sequence homology with the total as well as digested chromosomal DNA fragments from Salmonella strains under reduced stringent conditions in dot-blot and Southern-blot hybridization experiments. Our hybridization analysis results suggested that the enterotoxin (ent) gene of Salmonella resides on chromosomal DNA and that the Salmonella ent operon might be duplicated on the Salmonella chromosome.     

Isolation and genetic analysis of an Agrobacterium tumefaciens avirulent mutant with a chromosomal mutation produced by transposon mutagenesis.

A transposon 5 (Tn5) insertion was introduced into the genome of A. tumefaciens (A-208 strain harboring a nopaline type Ti-plasmid) using a conjugative pJB4JI plasmid containing Tn5. Five thousand transconjugants were assayed for virulence on carrot (Daucus carota L.) disks; 54 isolates were avirulent or very attenuated. The cellular localization (plasmid or chromosome) of the Tn5 insertion in those isolates were identified by Southern hybridization analysis. An avirulent mutant (B-90 strain) with the Tn5 insertion in the chromosome was selected and characterized. The mutant had the same growth rate as that of the parent strain in L-broth. The mutant and the parent strain had similar attachment ability to carrot root cells. Tn5 was inserted into one site of the chromosome. The wild-type target chromosomal region (1281 base pairs) was cloned and sequenced. An open reading frame (ORF) consisting of 395 base pairs was identified. The wild-type DNA fragment (1.6 kb) containing the ORF introduced into B-90 strain complemented the avirulent phenotype of the strain. A soluble protein was predicted from the ORF. The Tn5 was inserted near the 3'-terminal of the ORF. Homology search of this ORF found no significant homology to known genes and proteins. Thus, the ORF identified in this paper seems to be a new chromosomal virulence gene of A. tumefaciens.     

Cloning of resistance gene analogs located on the alien chromosome in an addition line of wheat-Thinopyrum intermedium

Homology-based gene/gene-analog cloning method has been extensively applied in isolation of RGAs (resistance gene analogs) in various plant species. However, serious interference of sequences on homoeologous chromosomes in polyploidy species usually occurred when cloning RGAs in a specific chromosome. In this research, the techniques of chromosome microdissection combined with homology-based cloning were used to clone RGAs from a specific chromosome of Wheat-Thinopyrum alien addition line TAi-27, which was derived from common wheat and Thinopyrum intermedium with a pair of chromosomes from Th. intermedium. The alien chromosomes carry genes for resistance to BYDV. The alien chromosome in TAi-27 was isolated by a glass needle and digested with proteinase K. The DNA of the alien chromosome was amplified by two rounds of Sau3A linker adaptor-mediated PCR. RGAs were amplified by PCR with the degenerated primers designed based on conserved domains of published resistance genes (R genes) by using the alien chromosome DNA, genomic DNA and cDNA of Th. intermedium, TAi-27 and 3B-2 (a parent of TAi-27) as templates. A total of seven RGAs were obtained and sequenced. Of which, a constitutively expressed single-copy NBS-LRR type RGA ACR3 was amplified from the dissected alien chromosome of TAi-27, TcDR2 and TcDR3 were from cDNA of Th. intermedium, AcDR3 was from cDNA of TAi-27, FcDR2 was from cDNA of 3B-2, AR2 was from genomic DNA of TAi-27 and TR2 was from genomic DNA of Th. intermedium. Sequence homology analyses showed that the above RGAs were highly homologous with known resistance genes or resistance gene analogs and belonged to NBS-LRR type of R genes. ACR3 was recovered by PCR from genomic DNA and cDNA of Th. intermedium and TAi-27, but not from 3B-2. Southern hybridization using the digested genomic DNA of Th. intermedium, TAi-27 and 3B-2 as the template and ACR3 as the probe showed that there is only one copy of ACR3 in the genome of Th. intermedium and TAi-27, but it is absent in 3B-2. The ACR3 could be used as a specific probe of the R gene on the alien chromosome of TAi-27. Results of Northern hybridization suggested that ACR3 was constitutively expressed in Th. intermedium and TAi-27, but not 3B-2, and expressed higher in leaves than in roots. This research demonstrated a new way to clone RGAs located on a specific chromosome. The information reported here should be useful to understand the resistance mechanism of, and to clone resistant genes from, the alien chromosome in TAi-27.     

Transgenic zebrafish for detecting mutations caused by compounds in aquatic environments

We have established a transgenic zebrafish line carrying a shuttle vector plasmid (pML4) for detecting mutagens in aquatic environments. The plasmid contains the rpsL gene of Escherichia coli as a mutational target gene, and the kanamycin-resistance gene for recovering the plasmid from the chromosomal DNA. To evaluate the system, we treated embryos of the transgenic fish with N-ethyl-N-nitrosourea (ENU), which induces a dose-dependent increase in the mutation frequency of the target gene. The mutation spectrum was consistent with the proposed mechanism of ENU mutagenesis. Similarly, treating the embryos with benzo[a]pyrene or 2-amino-3, 8-dimethylimidazo[4,5- f]quinoxaline, which are found in naturally polluted water, significantly increased the frequency of mutations in the target gene.     

Chromosomal location of Lg-FLO1 in bottom-fermenting yeast and the FLO5 locus of industrial yeast

Aims: To determine the chromosomal location and entire sequence of Lg-FLO1, the expression of which causes the flocculation of bottom-fermenting yeast. Methods and Results: Two cosmid clones carrying DNA from a bottom-fermenting yeast chromosome VIII right-arm end were selected by colony hybridization. Sequencing revealed that the clones contained DNA derived from a Saccharomyces cerevisiae type chromosome VIII and a Saccharomyces bayanus type chromosome VIII, both from bottom-fermenting yeast. Conclusions: Lg-FLO1 is located on the S. cerevisiae type chromosome VIII at the same position as the FLO5 gene of the laboratory yeast S. cerevisiae S288c. The unique chromosome VIII structure of bottom-fermenting yeast is conserved among other related strains. FLO5 and Lg-FLO1 promoter sequences are identical except for the presence of three 42 bp repeats in the latter, which are associated with gene activity. Flocculin genes might have been generated by chromosomal recombination at these repeats. Significance and Impact of the Study: This is the first report of the exact chromosomal location and entire sequence of Lg-FLO1. This information will be useful in the brewing industry for the identification of normal bottom-fermenting yeast. Moreover, variations in the FLO5 locus among strains are thought to reflect yeast evolution.