In vitro genetic labeling of Bacillus subtilis cryptic plasmid pHV400.

A DNA segment which encodes resistance to tetracycline, and cannot replicate autonomously, was excised by HindIII endonuclease from plasmid pT127 and joined to the cryptic Bacillus subtilis plasmid pHV400. The analysis of resulting chimerae has allowed us to identify a 1.8 × 10⁶ segment of pHV400 which carried the replication functions of the cryptic plasmid. Another DNA segment, designated pHV32, which can replicate in Escherichia coli but not in B. subtilis has also been used for genetic labeling of the replication region of pHV400. pHV32 is convenient for use in isolating cryptic replicons active in B. subtilis because (1) it can be prepared in large quantities, free from any interferring B. subtilis replicons, from an appropriate E. coli strain; (2) it carries unique sites for various restriction endonucleases; (3) the chloramphenicol resistance gene which it specifies can transform B. subtilis at a high efficiency (10⁶–10⁷ transformants/μg of DNA).     

Transformation frequencies are enhanced and vector DNA is targeted during retransformation of Leptosphaeria maculans, a fungal plant pathogen.

Summary Leptosphaeria maculans, a fungal pathogen of Brassica spp., was successfully transformed with the vector pAN8-1, encoding phleomycin resistance. Protoplasts of a vigorous Phleo^r transformant were then retransformed using the partially homologous vector, pAN7-1 which encodes hygromycin B resistance. Retransformation of this strain to hygromycin resistance occurred at frequencies that were consistently twofold higher than with the original recipient strain. Linearised pAN7-1 DNA transformed phleomycin-resistant protoplasts at higher frequencies still. All the transformants that were tested retained a phleomycin-resistant phenotype (20/20). Molecular analysis of five transformants generated with circular pAN7-1 DNA indicated that in four cases the pAN7-1 vector had integrated into pAN8-1 sequences. These results suggest that transformation frequencies in L. maculans are limited by the ability of vector DNA to integrate into the genome. Hence, construction of strains with target sites for integration may prove to be a generally useful method for improving transformation frequencies of poorly characterised filamentous fungi, particularly when using heterologous vectors. This would greatly facilitate the identification of genes by transfer of gene libraries and the standardisation of chromosomal location effects in studies of expression of nested promoter deletions.     

Integration of vector-containing Bacillus subtilis chromosomal DNA by a Campbell-like mechanism

Summary Using plasmid pHV60, which contains a chloramphenicol resistance (Cm^r) gene that is expressed in Bacillus subtilis, a set of transformation-deficient strains of B. subtilis was isolated by insertional mutagenesis. When chromosomal DNA from these mutants was used to transform a transformation-proficient B. subtilis strain, almost all of the Cm^r transformants had the mutant phenotype as expected. However, with a frequency of approximately 3×10^-4 atypical transformants with the wild-type phenotype were produced. Data concerning amplification of the DNA containing the Cm^r marker and duplication of DNA sequences are presented that suggest that these atypical transformants are the result of a Campbell-like integration of the chromosomal DNA containing the integrated plasmid. Transductional mapping showed that in the atypical transformants the vector-containing DNA had a strong tendency to integrate at sites adjacent to the original site of integration, although integration at sites elsewhere on the chromosome was also observed. The production of atypical transformants is explained on the basis of integration of chromosomal DNA by a Campbell-like mechanism. Circularization of vector-containing chromosomal DNA is thought to occur through joining of the extremities of single-stranded DNA molecules by fortuitous base pairing with an independently entered single-stranded DNA molecule.     

Controlled gene expression utilising Lambda phage regulatory signals in a cyanobacterium host

Summary This study presents plasmid systems that utilize regulatory signals of bacteriophage Lambda to accomplish regulated expression of cloned genes in an A. nidulans R2 derivative strain. An operator-promoter region and the temperature-sensitive repressor gene cI857 of bacteriophage Lambda were employed. Linked to a cyanobacterial replicon, the plasmid vectors efficiently transformed Anacystis and were stably maintained within this host. The cat structural gene, encoding chloramphenicol acetyltransferase, was used to demonstrate that expression can be regulated by temperature shift. We have identified in extracts from the vector bearing Anacystis, a protein similar in size and immunology to the Lambda repressor. The systems described should allow controlled expression of adventitious genes in the cyanobacterial host.Abbreviations AP^r ampicillin resistance - Cm^r chloramphenicol resistance - CmActase chloramphenicol acetyltransferase - Km^r Kanamycine resistance - [ ] indicates plasmid carrier state     

Restriction of plasmid-mediated transformation in Bacillus subtilis 168.

Summary When plasmids carrying leucine genes of Bacillus subtilis 168 were isolated from a restriction and modification deficient (r^-m^-) strain and used for transformation of a restricting strain B. subtilis 168 leu recE4, the number of transformants was greatly reduced. Transformation of a rec ⁺ strain (transformation by integration of the donor DNA into the chromosome) with the plasmids was not affected irrespective of whether the recipient carried the r⁺ or r^- phenotype. These results show that the plasmid-mediated transformation is subject to the host controlled restriction and suggest that r^-m^- strains should be used for construction of recombinant DNA molecules in B. subtilis 168.     

Electroporation of Bradyrhizobium japonicum

Summary Electroporation offers a fast, efficient and reproducible way to introduce DNA into bacteria. We have successfully used this technique to transform two commercially important strains of Bradyrhizobium japonicum, the nitrogen-fixing soybean symbiont. Initially, electroporation conditions were optimized using plasmid DNA which had been prepared from the same B. japonicum strain into which the{imDNA was to b}e transformed. Efficiencies of 10⁵-10⁶ transformants/g DNA were obtained for strains USDA 110 and 61A152 with ready-to-use frozen cells. Successful electroporation of B. japonicum with plasmid DNA prepared from Escherichia coli varied with the E. coli strain from which the plasmid was purified. The highest transformation efficiencies (10⁴ transformants/g DNA) were obtained using DNA prepared from a dcm ^– dam ^– strain of E. coli. This suggests that routine isolation of DNA from an E. coli strain incapable of DNA modification should help in increasing transformation efficiencies for other strains of bacteria where DNA restriction appears to be a significant obstacle to successful transformation. We have also monitored the rate of spontaneous mutation in electroporated cells and saw no significant difference in the frequency of streptomycin resistance for electroporated cells compared to control cells.     

Cloning and expression of the gene for neutral protease of Bacillus amyloliquefaciens in Bacillus subtilis

A Bacillus amyloliquefaciens neutral protease gene was cloned and expressed in Bacillus subtilis.The chromosomal DNA of B. amyloliquefaciens strain F was partially digested with restriction endonuclease Sau3AI, and 2 to 9 kb fragments isolated were ligated into the BamHI site of plasmid pUB110. Then, B. subtilis strain 1A289 was transformed with the hybrid plasmids by the method of protoplast transformation and kanamycin-resistant transformants were screened for the formation of large halo on a casein plate. A transformant that produced a large amount of an extracellular neutral protease harbored a plasmid, designated as pNP150, which contained a 1.7 kb insert.The secreted neutral protease of the transformant was found to be indistinguishable from that of DNA donor strain B. amyloliquefaciens by double immunodiffusion test and SDS-polyacrylamide gel electrophoresis.The amount of the neutral protease activity excreted into culture medium by the B. subtilis transformed with pNP150 was about 50-fold higher than that secreted by B. amyloliquefaciens. The production of the neutral protease in the transformant was partially repressed by addition of glucose to the medium.     

The mitochondrial genome of an exsymbiotic Chlorella-like green alga

Mitochondrial (mt) DNA from the unicellular, exsymbiotic Chlorella-like green alga, strain Nla was isolated and cloned. The mtDNA has a buoyant density of 1.692 g/ml in CsCl and an apparent G/C base composition of 32.5%. The genome contains approximately 76 kbp of DNA based on restriction fragment summation and electron microscopic measurements. A map of restriction endonuclease sites using Sst I, Bam I, Sal I and Xho I was generated. The genome maps as a circular molecule and appears as such under the electron microscope. Eight genes were assigned to the map by hybridization to specific restriction fragments using heterologous mt-encoded specific probes. These include the genes for subunits 6, 9, and alpha of the F₀-F₁ ATPase complex, the large and small subunit rRNAs, cytochrome oxidase subunits I and II, and apocytochrome b.     

Structural organization of the nuclear ribosomal RNA genes in Cannabis and Humulus (Cannabaceae)

The structural organization of the nuclear ribosomal DNA (rDNA) of Humulus lupulus, H. japonicus and Cannabis sativa was determined by restriction site mapping. A high degree of DNA sequence similarity was evident in the coding regions of the rDNA repeats of the taxa and supports the placement of Cannabis and Humulus in one family, Cannabaceae. However, the presence of a BstEII site, an additional SacI site, absence of the SpeI site and positional differences of the SspI sites in the 25 S gene distinguished H. japonicus from H. lupulus. Humulus lupulus has an additional EcoRV site in the IGS region. A XhoI site in the 18S region of C. sativa distinguishes it from the two hop species. The diagnostic differences in the IGS of C. sativa include the EcoRI, HindIII and XhoI sites. These sites were not detected in the IGS of the two hop species.     

Stopped-Flow Measurement of Reaction Rate of Dihydroxyfumaric Acid with 2, 6-Dichlorophenolindophenol

The proline auxotrophic strain of Acetobacter aceti No. 1023 treated with CaCl₂ solution was transformed to the Pro⁺ phenotype at a frequency of up to 10²/μg DNA using chromosomal DNA prepared from the wild type prototrophic strain. The CaCl₂-treated cells of A. aceti No. 1023 could also be rendered competent for uptake of plasmid DNA. In an attempt to produce an appropriate cloning vector for A. aceti, the restriction patterns of the cryptic plasmids, pTA5001 A (23.5 Kb) and pTA5001B (23 Kb), found in A. aceti No. 1023 were determined. A selectable marker (ampicillin resistance) was introduced onto these cryptic plasmids by fusing them to vector pACYC177 from E. coli, using their single restriction site for XhoI. The hybrid plasmids generated could replicate in and confer ampicillin resistance to both A. aceti and E. coli. The maximum transformation frequency for A. aceti No. 1023 with these vectors was 10³/μg DNA.     

Release of transforming plasmid and chromosomal DNA from two cultured soil bacteria

The release of chromosomal and plasmid DNA from Acinetobacter calcoaceticus and Bacillus subtilis cultivated in minimal medium and broth over a period of 50 h was monitored and related to growth phase, autolysis, DNase production and natural competence. The released DNAs were biologically active in natural transformation. In addition, the circular integrity of a released B. subtilis shuttle vector (pHV14) was demonstrated by artificial transformation of Escherichia coli. In cultures of both strains high molecular weight DNA accumulated, particularly during the stationary and death phase (up to 30 g ml^-1). Generally, despite the presence in culture fluids of DNase activity (and of an intracellular enzyme, catalase, indicating some cell lysis) there was high transforming activity of chromsomal and plasmid DNA even 40 h after the cultures reached the stationary phase. In cultures of B. subtilis in minimal medium a presumably active release of intact plasmids and chromsomal DNA occurred during the competence phase. The release of biologically functional DNA during essentially all growth phases of a gram-positive and a gram-negative member of soil bacteria might facilitate horizontal gene transfer by transformation in natural habitats.     

The effect of restriction on shotgun cloning and plasmid stability in Bacillus subtilis Marburg

Summary Using the bifunctional cloning vehicle pHP13, which carries the replication functions of the cryptic Bacillus subtilis plasmid pTA1060, the effects of BsuM restriction on the efficiency of shotgun cloning of heterologous Escherichia coli DNA were studied. In a restriction-deficient but modification-proficient mutant of B. subtilis, clones were obtained at a high frequency, comparable to frequencies normally obtained in E. coli (10⁴ clones per g target DNA). Large inserts were relatively abundant (26% of the clones contained inserts in the range of 6 to 15 kb), which resulted in a high average insert length (3.6 kb). In the restriction-proficient B. subtilis strain, the class of large inserts was underrepresented. Transformation of B. subtilis with E. coli-derived individual recombinant plasmids was affected by BsuM restriction in two ways. First, the transforming activities of recombinant plasmids carrying inserts larger than 4 kb, were, in comparison with the vector pHP13, reduced to varying degrees in the restricting host. The levels of the reduction increased with insert length, resulting in a 7800-fold reduction for the largest plasmid used (pC23; insert length 16 kb). Second, more than 80% of the pC23 transformants in the restricting strain contained a deleted plasmid. In the non-restricting strain, the transforming activities of the plasmids were fairly constant as a function of insert length (in the range of 0–16 kb), and no structural instability was observed. It is concluded that for shotgun cloning in B. subtilis, the use of restriction-deficient strains is highly preferable. Evidence is presented that in addition to XhoI other sequences are involved in BsuM restriction. It is postulated that AsuII sites are additional target sites for BsuM restriction.     

Restriction and modification in B. subtilis

Summary The effects of restriction in vivo by competent B. subtilis R cells and in vitro by purified endonuclease BsuR on transformation and transfection with native and denatured DNA were investigated.The results show that transformation by either native, or denatured DNA is not affected by restriction, whereas transfection both with native and denatured SPP1 DNA is severely restricted.In contrast to the results obtained in vivo, the biological activity of native and denatured transforming DNA is destroyed by BsuR in vitro, as is the transfecting activity of native and denatured SPP1 DNA. The sensitivity of denatured DNA, either with mixtures of the complementary strands or with separated single strands¹ alone, is significantly lower than that of native DNA.The results are discussed in the context of possible mechanisms underlying the different responses of transforming and transfecting DNA to in vivo restriction by B. subtilis R cells.Abbreviations EGTA ethyleneglycolbis-(aminoethylether)tetraacetic acid - m⁺ modified - m^- non-modified - moi multiplicity of infection - r⁺ m⁺ restricting and modifying - r^- m^- mon-restricting and non-modifying - SSC 0.15M NaCl+0.015 M trisodium citrate - SDS sodium dodecyl sulphate     

Restriction on Conjugational Transfer of pLS20 in Bacillus subtilis 168

Conjugational transfer of pLS20 in Bacillus subtilis Marburg 168 is restricted by the BsuM restriction-modification system. Restriction efficiency was measured using pLS20 derivatives possessing various numbers of XhoI sites, which are known to be recognized by BsuM. An increase in XhoI sites clearly reduced the conjugational efficiency of pLS20 as compared with that of pUB110 plasmid lacking XhoI.     

Insertional mutagenesis of Aspergillus fumigatus

We have investigated transformation with heterologous DNA as a method for insertional mutagenesis of Aspergillus fumigatus. Two methods, polyethylene glycol-mediated transformation of protoplasts and electroporation of germinating spores, were used to establish conditions leading to single-copy integration of transforming DNA at different genomic sites. We have assessed the effect of restriction enzyme-mediated integration (REMI) for both methods. Non-REMI protoplast transformation led to integration of multiple copies of transforming DNA in the majority of transformants. Results of REMI with protoplast transformation varied depending on the enzyme used. Low concentrations of several restriction enzymes stimulated transformation, but of ten enzymes investigated only REMI with XhoI and KpnI resulted in single-copy integration of transforming DNA for the majority of transformants. For protoplast transformation with XhoI- or KpnI-based REMI, 50% and 76% of insertions, respectively, were due to integrations at a genomic enzyme site corresponding to the enzyme used for REMI. Electroporation of spores without addition of restriction enzyme resulted in a high transformation efficiency, with up to 67% of transformants containing a single copy of transforming DNA. In contrast to protoplast transformation, electroporation of spores in the presence of a restriction enzyme did not improve transformation efficiency or lead to insertion at genomic restriction sites. Southern analysis indicated that for both protoplast transformation with REMI using KpnI or XhoI and for electroporation of spores without addition of restriction enzymes, transforming DNA inserted at different genomic sites in a high proportion of transformants. Received: 6 March 1998 / Accepted: 25 May 1998     

Intermolecular recE4-independent recombination in Bacillus subtilis: formation of plasmid pKBT1

Summary The plasmid pKBT1 was derived by in vivo recE4-independent recombinational event(s) yielding a structure containing regions of plasmid and chromosomal origin. BamHI digests of plasmid pUB110 (Kan^r/Neo^r) and Bg/II digests of pTL12 (Tmp^r, leuA) were mixed, ligated and used to transform competent cells of a recE4 strain of Bacillus subtilis. Kanamycin-resistant transformants were electrophoretically screened for hybrid plasmids. Plasmid pKBT1 (8.0 kb) was smaller than pTL12 (10.4 kb) but larger than monomeric pUB110 (4.5 kb). Plasmid PKBT1 was stably maintained in recE4 strains of B. subtilis and conferred kanamycin resistance but did not specify trimethoprim resistance or leucine prototrophy. At least 86% of the pUB110 monomer length was present in pKBT1 and was completely contained within a single 5.58 kb HindIII fragment. The other segment of pKBT1 was of chromosomal origin as evidenced by lack of homology to pTL12 and strong hybridization to B. subtilis chromosomal DNA. At least one of the in vivo recE4-independent event(s) which produced pKBT1 must have involved intermolecular recombination between transforming and chromosomal DNA. This finding differs from previous reports in which recE4-independent recombination involving pUB110 sequences was a strictly intramolecular event.     

Isolation and partial purification of a novel type II restriction endonuclease Bsu121 I,from Bacillus subtilis – Bsu121I,a type II restriction endonuclease from Bacillus subtilis

A new type II restriction endonuclease which we designated as Bsu121I has been isolated from gram-positive bacterium Bacillus subtilis strain 121 and partially purified. The restriction endonuclease was isolated from cell extracts using step-wise purification through ammonium sulfate precipitation, followed by phosphocellulose column chromatography. SDS-PAGE profile showed denatured molecular weights (23 and 67 kDa) of the endonuclease. The partially purified enzyme restricted pBR322 DNA into two fragments of 3200 and 1700 bp. The endonuclease activity required Mg⁺² as cofactor like other type II endonucleases.     

Actinophages and restriction enzymes fromMicromonospora species (Actinomycetales)

Summary To develop a screening procedure for the detection of restriction endonucleases in micromonosporae and catellatosporae based on efficiency of plating, eight different actinophages were isolated from soils enriched withMicromonospora species and one fromCatellatospora-enriched soil. The lytic actinophages all contained double-stranded DNA and the majority appeared, when examined by electron microscopy, to belong to Ackermann's type B1 since they had isometric heads and noncontractile tails. One actinophage was classified as type C1 because of its isometric head and very short noncontractile tail. The host ranges of the actinophages were determined on strains ofMicromonospora and selected species from other actinomycete genera of cell wall chemotype II. Type II restriction enzymes were isolated fromM. echinospora ssp.echinospora (ATCC 15837),M. purpurea (ATCC 15835) andM. zionensis (LL-100-125) and were designatedMecI,MpuI andMziI, respectively. Restriction enzymesMecI andMpuI are isoschizomers ofXhoI, whileMziI is an isoschizomer ofPvuII.     

Cloning and expression in Escherichia coli of the homoserine kinase (thrB) gene from Brevibacterium lactofermentum

Summary Five DNA fragments carrying the thrB gene (homoserine kinase E.C. 2.7.1.39) of Brevibacterium lactofermentum were cloned by complementation of Escherichia coli thrB mutants using pBR322 as vector. All the cloned fragments contained a common 3.1 kb DNA sequence. The cloned fragments hybridized among themselves and with a 9 kb BamHI fragment of the chromosomal DNA of B. lactofermentum but not with the DNA of E. coli. None of the cloned fragments were able to complement thrA and thrC mutations of E. coli. Plasmids pULTH2, pULTH8 and pULTH11 had the cloned DNA fragments in the same orientation and were very stable. On the contrary, plasmid pULTH18 was very unstable and showed the DNA inserted in the opposite direction. E. coli minicells transformed with plasmids pULTH8 or pULTH11 (both carrying the common 3.1 kb fragment) synthesize a protein with an M _r of 30,000 that is similar in size to the homoserine kinase of E. coli.Abbreviations SSC 0.15 M NaCl, 0.015 M sodium citrate - SDS sodium dodecyl sulphate - TSB tripticase soy broth - m-DAP meso-diaminopimelic acid - Sm^r, Cp^r, Km^r, Am^r, Ap^r, Tc^r, MA15^r resistance to streptomycin, cephalotin, kanamycin, amykacin, ampicillin, tetracycline and microcin A 15, respectively     

Short communication: Construction of a cloning vector for Paenibacillus polymyxa and P. azotofixans

A cloning vector that could replicate in Paenibacillus polymyxa, P. azotofixans and Bacillus subtilis was constructed using two Staphylococcus aureus plasmids. The recombinant plasmid confers chloramphenicol and erythromycin resistance and contains unique restriction sites for PvuII and BclI. The stability of pRJ45 was analysed.