Introduction of plasmid pC194 into Bacillus thuringiensis by protoplast transformation and plasmid transfer

The Staphylococcus aureus plasmid pC194 which codes for resistance to chloramphenicol was introduced into six Bacillus thuringiensis strains representing five varieties by protoplast transformation. Six other varieties could not be transformed. pC194 could be identified in transformed strains as autonomous plasmid. The transformed clones contained in addition a new extrachromosomal element of somewhat lower electrophoretic mobility hybridizing with pC194, and pC194 in multimeric forms. pC194 was also transferred from one B. thuringiensis variety to another and from Bacillus thuringiensis to Bacillus subtilis and vice versa by a conjugation-like process, requiring close cell-to-cell contact.Non-standard abbreviations BSA bovine serum albumin - CAT chloramphenicol acetyltransferase - Cm^R chloramphenicol resistant - PAB Penassay broth - SDS sodiumdodecylsulfate - Tc^R tetracycline resistant     

Survival of a plasmid-bearing strain of Bacillus subtilis introduced into compost

Survival of Bacillus subtilis strain 168 containing plasmid pAB224, which carries a gene for tetracycline resistance, was studied in mushroom compost under mesophilic and thermophilic conditions. Stable populations of B. subtilis were maintained as spores in both sterile and fresh mushroom compost incubated at 37 degrees C. At 65 degrees C, the introduced B. subtilis populations declined during incubation but spores were still detectable after 28 d. Survival at the higher temperature was greater in fresh than in sterile compost. There was no apparent loss of plasmid pAB224 or plasmid-determined phenotype from the introduced B. subtilis population at either incubation temperature. The frequency of tetracycline resistance in the indigenous Bacillus population was very low (10(-5), but some tetracycline-resistant isolates contained plasmid DNA. Four plasmid DNA profiles were found associated with five Bacillus phenotypes, and some evidence for homology with pAB224 was found. However, pAB224 was found to be a suitable marker for release studies because it was easily recovered, readily distinguished from indigenous plasmids on agarose gels, and was maintained in compost-grown B. subtilis 168 in the absence of any selective pressure.     

Plasmid transformation in Bacillus subtilis: effects of insertion of Bacillus subtilis DNA into plasmid pC194

Summary We have constructed a hybrid plasmid, pBC1, which consists of plasmid pC194 with an insert of B. subtilis DNA at its HindIII restriction site. This plasmid is stably maintained in B. subtilis. In contrast with pC194, monomeric ccc forms of pBC1 are active in transformation. Transformations with these monomeric molecules of pBC1 have a stringent requirement for recombination proficieny., as defined by recE in the recipient cell. The extent of dependence of the transforming activity of oligomeric pBC1 DNA on the recombination proficiency of the recipient cell decreases with increasing oligomer size. A model of DNA proccssing during plasmid transformation of B. subtilis is presented.     

A bifunctional plasmid carrying the recA gene of E. coli

Summary To investigate the effect of an active, plasmid-carried recA gene on the stability and/or the expression of plasmid genes in different genetic backgrounds, we have constructed a bifunctional plasmid (able to replicate in Escherichia coli and in Bacillus subtilis). Chimeric plasmids were obtained by inserting pC194 (Ehrlich 1977) into pDR1453 (Sancar and Rupp 1979). pDR1453 is a 12.9 Kbp plasmid constructed by inserting an E. coli chromosome fragment carrying the recA gene into pBR322. The expected bifunctional recombinant (pMR22/1) (15.7 Kbp) was easily obtained but surprisingly the Cm resistance was expressed only at a very low level in E. coli (as compared, for example, to pHV14, pHV15). We attribute this effect to the presence of multiple recA genes in the cell. On the contrary, Cm^r E. coli transformants bear a recombinant plasmid (pMR22/n) containing tandemly repeated copies of pC194 in equilibrium with excised free pC194. Such amplification has never been observed in a Rec^- background and is therefore mediated by the recA genes. Growth of these clones in the absence of Cm causes the loss of the extra copies, yielding a plasmid with a single copy of pC194, indistingishable from pMR22/1. Interestingly, we have observed that deletions occur at high frequency in pC194, which drastically increase Cm^r in E. coli containing plasmids with a single copy of pC194. Two types of such deletions were detected: (a) large 1050 bp deletions covering about onethird of pC194 and (b) small 120–150 bp deletions (near the MspI site) in the region containing the replicative functions of pC194 (Horinouchi and Weisblum 1982). Both types of deletion render the recombinant plasmid unable to replicate in B. subtilis. pM22/1 replicates, although with a low copy-number, and is stable in B. subtilis wild type; the recA gene of E. coli does not complement any of the rec ^- mutations of B. subtilis. A strong instability, mainly of the E. coli and pBR322 sequences, was observed in many dna and rec mutants of B. subtilis yielding smaller plasmid with a much higher copy-number.     

Characterization of a cryptic plasmid pPZZ84 from Bacillus pumilus

The complete nucleotide sequence of a cryptic plasmid pPZZ84 from Bacillus pumilus strain ZZ84 was determined. Plasmid pPZZ84 is 6817 bp long with GC content of 36.7%. Seven putative open reading frames were identified. ORF7 shows 91% and 90% amino acid identity with rep proteins of pSH1452 and pPL1, respectively, members of rolling-circle replication (RCR) pC194-family. A typical pC194-family double strand origin (dso), a single-stranded origin (sso) and rap (regulator aspartate phosphatase) proteins were also identified in the plasmid. These results imply that pPZZ84 belongs to the Bacillus subtilis species group of small rolling circle (BsSRC) replicating plasmids. The plasmid copy number of pPZZ84 in B. pumilus ZZ84 was estimated to be 46 per cell, more than that of other BsSRC plasmids in their hosts.     

Plasmid maintenance in Bacillus subtilis recombination-deficient mutants

Summary An isogenic set of 11 recombination-deficient mutant strains of Bacillus subtilis has been constructed. Whereas plasmid pUB110 is stably maintained in such Rec^- cells, the high copy number plasmid pC194 is unstable. Instability in Rec^- strains could be mostly attributed to the deleterious effect of the presence of the plasmid on the Rec^- cells' growth capability. In part, instability of pC194 derivatives could also be correlated with the presence of an unusually high amount of multimeric DNA molecules.     

Survival of bacillus subtilis NB22, an antifungal-antibiotic iturin producer,and its transformant in soil-systems

Bacillus subtilis NB22 is an antifungal-antibiotic iturin producer that expresses broad suppressibility against phytopathogenic microorganisms. The survival of B. subtilis NB22-1, which is a spontaneous streptomycin-resistance mutant of NB22 was investigated in four different soils. After a gradual decline, the bacterial viable cell number stabilized at a level of 10⁴–10⁵ colony forming units/g-dry soil irrespective of soil differences. A similar decline and stabilization pattern was observed in the case of the transformant of B. subtilis NB22-1 with the plasmid pC194 in nonsterile soil. The transformant reached a much higher stabilized level in sterile soil than in nonsterile soil. However, significant loss of the plasmid was observed in both the soil systems after 10 to 20 d incubation. Plasmid pC194 was stable over a hundred generations in the strain when cultivated in a liquid complex medium, but unstable in minimal medium, indicating that the plasmid stability in soil does not necessarily reflect that in liquid culture.     

A gene controlling segregation of the Bacillus subtilis plasmid pC194

Summary Plasmid pC194-1, a mutant of pC194, and chimeric derivatives of pC194-1 are segregationally unstable in B. subtilis. Such instability could be enhanced by exposure of pC194-1-carrying cells to methyl methanesulfonate. pC194-1 is distinct from pC194 in the addition of two A:T base pairs within the previously defined D region of pC194. Complementation experiments between pC194-1 and other plasmids suggest that the mutation of pC194-1 interferes with the production of a diffusible gene product required for plasmid maintenance.     

Generation of deletions through a cis-acting mutation in plasmid pC194

Summary When plasmid pC194-1 is ligated to pBR322 to generate plasmid pHV15-1, deletions occur with high frequency within the joined pBR322 DNA. Generation of deletions is recE4 independent, and occurs in B. subtilis with a 1,000-fold higher frequency than in Escherichia coli. In the hybrid plasmid pVH15-1, deletion end-points are not at random, but at defined locations within pBR322. We propose that the base alteration, characterizing pC194-1, has stabilized within the plasmid a stem/loop structure, which acts as a deletion generator.     

A Useful Cloning Vector for Bacillus subtilis

We have constructed plasmid pDN1050 a new small cloning vector for Bacillus subtilis . pDN1050 harbors the origin of replication of Staphylococcus aureus plasmid pUB110 and the chloramphenicol resistance gene of S. aureus plasmid pC194. The plasmid is segregationally and structurally stable. Plasmid pDN1370, a low copy number mutant of pDN1050 was isolated and shown to harbor a mutation in the repA gene of the replication protein.     

DNA sequence analysis of a putative primary replicon from a cryptic plasmid pNM214 of a hydrocarbon utilizing marine <Emphasis Type="Italic">Bacillus</Emphasis> strain NM21

Marine Bacillus strain NM21 isolated from hydrocarbon-contaminated site at Naval Harbour, Mumbai grows on high-speed diesel as a source of carbon and energy. This bacterium harbours four plasmids in it. The smallest plasmid, pNM214 was digested with EcoRI enzyme and cloned in pUC19 vector. The clone Om4 containing largest insert of >3.5 kb was sequenced by primer walking. DNA sequence analysis showed this fragment to be homologous to replication initiation protein (rep) gene and dso (double strand origin) of different plasmids from Bacillus subtilis and Bacillus pumilus species. The putative rep gene sequence of pNM214 showed 74.3–91.6% DNA identity to B. subtilis plasmids (pTA1015, pTA1060 and pTA1040) and 86.3% to 88.9% DNA identity to B. pumilus plasmids (pPL7065, pPL10 and pSH1452). The translated amino acid sequence of rep shows that it contains all the three conserved motifs present in the Rep protein of pC194 family of plasmids. DNA sequence comparison of putative dso of pNM214 with other bacillus plasmids belonging to pC194 group shows that it contains highly conserved nick site sequence 5′-TCTTTTCTTATCTTGATA-3′ and surrounding inverted repeats. Thus, it indicates that pNM214 to be a rolling circle replicating plasmid belonging to the pC194 group. The presence of rep and dso like sequences in the sequenced EcoRI fragment indicate that the cloned fragment contain putative primary replicon of pNM214.     

Purification and characterization of an extracellular alpha-L-arabinosidase from a novel isolate Bacillus pumilus ARA and its over-expression in Escherichia coli

The α-l-arabinosidase, AraB, was induced when Bacillus pumilus ARA was grown at 50°C in a minimal medium containing xylan. A 56-kDa protein with α-l-arabinosidase activity was purified from culture supernatant to gel electrophoretic homogeneity. The optimal activity was at pH 6.4 and 60°C over a 10-min assay. The purified enzyme was stable over a pH range of 5.2–7.6 and had a 1-h half life at 70°C. The enzyme released arabinose from oat spelt xylan. Kinetic experiments at 60°C with p-nitrophenyl α-l-arabinofuranoside as substrate gave a K _m, and V _max of 1.05 mM and 240 U per mg of protein. The NH₂-terminal amino acid sequence of the enzyme was determined, and its gene araB was subsequently cloned, sequenced, and over-expressed in Escherichia coli. The open reading frame of araB consists of a 1,479-bp fragment encoding a protein of 472 amino acids, which belonged to family 51 of the glycoside hydrolases with an identity of 67% to the protein encoded by abfB of Bacillus subtilis 168.     

Factors Affecting the Production of Antifungal Compounds by Enterobacter aerogenes and Bacillus subtilis,Antagonists of Phytophthora cactorum1

The effects of temperature and pH on the production of antifungal compounds and growth in sterilized soil of Enterobacter aerogenes and Bacillus subtilis, antagonists of Phytophthora cactorum, the cause of crown rot of apple trees, were studied. With E. aerogenes maximum amounts of antifungal compounds were produced between 14 and 21°C and at pH levels between 3.5 and 5.0. Bacillus subtilis produced maximum amounts of antifungal compounds between 21 and 28°C andwith pH levels between 5.0 and 8.0. P. cactorum inoculum, produced in the presence of E. aerogenes or B. subtilis at optimum temperature and pH levels, was significantly less virulent compared with controls. The optimum temperature of maximum population growth in sterilized soil for E. aerogenes was 18°C and for B. subtilis 25°C. The population growth of B. subtilis was much slower than that of E. aerogenes. Fosetyl Al stimulated the multiplication of bacteria at lower temperatures while metalaxyl had the same effect at higher temperatures. These results indicate that populations of these antagonistic bacteria increase in sterile soil up to the 33rd day from inoculation and that the fungicides fosetyl, Al and metalaxyl did not limit their multiplication and production of antifungal compounds.     

Thermostability and superhelicity of plasmid DNA in Bacillus stearothermophilus

Summary The thermostability of the staphylococcal plasmids pC194 and pUB110 and their antibiotic-resistance determinants was examined upon transfer to Bacillus stearothermophilus CU21. Plasmid pGS13, a pUB110 derivative carrying the chloramphenicol acetyltransferase (CAT) gene of pC194, could be maintained up to the maximum growth temperature (68° C) by selection for chloramphenicol resistance. In the absence of selective pressure, pGS13 was lost at temperatures above 60° C. Segregational instability of pGS13 was accompanied by a progressive loss of negative superhelicity at elevated temperatures. Thermostable mutants of pGS13 were isolated by screening for expression of the antibiotic-resistance determinants after growth under non-selective conditions. These mutants were found to contain an insertion of a 1.7 kb DNA sequence derived from the cryptic B. stearothermophilus plasmid pBS02. Increased thermostability correlated with preservation of plasmid superhelicity at elevated temperatures.     

DNA supercoiling and thermal regulation of unsaturated fatty acid synthesis in Bacillus subtilis

Bacillus subtilis growing at 37° C synthesizes, almost exclusively, saturated fatty acids. However, when a culture growing at 37°C is transferred to 20°C, the synthesis of unsaturated fatty acids is induced. The addition of the DNA gyrase inhibitor novobiocin specifically prevented the induction of unsaturated fatty acid synthesis at 20° C. Furthermore, it was determined that plasmid DNA isolated from cells growing at 20°C was significantly more negatively supercoiled than the equivalent DNA isolated from cells growing at 37°C. The overall results agree with the hypothesis that an increase in DNA supercoiling associated with a temperature downshift could regulate the unsaturated fatty acids synthesis in B. subtilis.     

Characteristics of plasmid stability in Bacillus subtilis NB22, an antifungal-antibiotic iturin producer

The stability of plasmids pC194 and pUB110 was investigated in an antifungal antibiotic iturin producer, Bacillus subtilis NB22. Although plasmid pC194 was maintained stably over a hundred generations in five successive cultivations in iturin-production no. 3 medium, significant curing was observed when the cultivation was prolonged for 10 d in the same medium. When the transformant of pC194 was cultivated in Schaeffer's sporulation medium, drastic curing took place in accordance with the occurrence of sporulation, even in the presence of an antibiotic for selective pressure. In the case of pUB110, in sharp contrast to the result with pC194, high stability was observed in the sporulation medium, but significant curing was observed during prolonged incubation in no. 3 medium.     

Functional Comparison of Conjugative Transposons Tn916and Tn925

During interspecies matings betweenBacillus subtilisandBacillus thuringiensissubsp.israelensis,transfer of conjugative transposon Tn916was detected at a frequency of 1.1 × 10⁻⁴transconjugants per donor. Tn916-dependent transfer of plasmids pC194 and pE194 was detected at frequencies of 1.4 × 10⁻⁵and 3.2 × 10⁻⁷transconjugants per donor, respectively. Similar frequencies were obtained during parallel matings with otherwise isogenic strains that contain Tn925instead of Tn916. Tn916- or Tn925-dependent transfer of plasmids pC194 or pUB110 from the recipient to the donor (retrotransfer) was not observed during inter- or intraspecies matings. Transposon-mediated plasmid transfer by Tn916and Tn925is a Rec independent event. Thus, the data from studies in which otherwise isogenic donor and recipient strains were used indicated that Tn916and Tn925are, from a functional point of view, much more similar than previously suggested.     

DNA amplification occurs between the core region of replicationori + of the ts plasmid integrated in the chromosome and its analog in the bacterial genome

Integrated in theBacillus subtilis chromosome, hybrid plasmid pGG10 is capable of thermosensitive amplification. One amplification site corresponds to the core region of replicationori ⁺ of pE194, a component of pGG10; the other is a homologous region of theB. subtilis chromosome. A model of illegitimate amplification mediated by pE194 RepF is proposed.     

Overexpression of the cat-86 Gene Is Associated with Thermosensitivity in Bacillus subtilis

Bacillus subtilis harboring the cat-86 constitutive plasmid pPL708C2 with an ochre mutation at the 9th codon (terc 9) was sensitive to chloramphenicol (Cm^s) and exhibited relative thermostability when heated at 47°C. Reversion to chloramphenicol resistance (Cm^r) occurred at a frequency of 5.4 × 10⁻⁸. All of the plasmid Cm^r revertants tested were thermosensitive. Similarly, wild-type pPL708C2 present in B. subtilis also rendered the bacterium thermosensitive. When a nonsense mutation is introduced at codon 141, however, this terc 141 variant of pPL708C2 failed to thermosensitize B. subtilis. Another variant of pPL708C2 that produces intact yet catalytically inactive CAT-86 has both His-16 and His-17 at the active site replaced by Pro. Nevertheless, cells of B. subtilis carrying this variant were thermosensitive. Plasmid-free and pPL708C2-bearing strains did not exhibit differences in major heat shock proteins. Electron micrographs revealed a threefold increase of inclusion bodies present in a strain harboring pPL708C2 when compared with those in an isogenic plasmid-free strain. Received: 26 July 1999 / Accepted: 30 August 1999     

Illegitimate recombination in Bacillus subtilis: nucleotide sequences at recombinant DNA junctions

Summary The illegitimate integration of plasmid pGG20 (the hybrid between Staphylococcus aureus plasmid pE194 and Escherichia coli plasmid pBR322) into the Bacillus subtilis chromosome was studied. It was found that nucleotide sequences of both parental plasmids could be involved in this process. The recombinant DNA junctions between plasmid pGG20 and the chromosome were cloned and their nucleotide sequences were determined. The site of recombination located on the pBR322 moiety carried a short region (8 bp) homologous with the site on the chromosome. The nucleotide sequences of the pE194 recombination sites did not share homology with chromosomal sequences involved in the integration process. Two different pathways of illegitimate recombination in B. subtilis are suggested.