Plasmid transfer in bacilli by a self-transmissible plasmid p19 from a Bacillus subtilis soil strain

The cryptic 95-kb plasmid p19 of the Bacillus subtilis 19 soil strain promotes the transfer of a small kanamycin resistance plasmid pUB110. To facilitate direct selection for p19 transfer, a plasmid derivative carrying the chloramphenicol resistance gene was constructed. The frequency of transfer of the large plasmid between cells of B. subtilis 19 approached 100% but was more than two orders of magnitude lower when the strain B. subtilis 168 was a recipient. However, when the restriction-deficient strain B. subtilis 168 was a recipient, the transfer efficiency was almost completely recovered. The effectiveness of pUB110 mobilization was virtually not altered in all these cases. pC194 was not mobilized by p19. The kinetics of p19 conjugative transfer is also presented.     

Inter- and intraspecies conjugal transfer of different plasmids in bacilli

Conjugal transfer of plasmid pUB110 between different strains of bacilli was studied. The plasmid transfer was possible not only between various strains of B. subtilis, but also when many other species of bacilli served as recipients. Conjugation of a donor strain B. subtilis 19 (p19pUB110) was accompanied by a transfer of plasmid p19 along with plasmid pUB110 to the B. subtilis recipient strains lacking a large plasmid p19. If, like the donor cells, the recipient B. subtilis strain carried plasmid p19, the frequency of conjugation decreased. The small plasmid pBC16 was also capable of conjugative transfer. However, if this plasmid carried the mob gene with an inverted region, the frequency of its transmission dramatically decreased. If the donor strain contained another small plasmid, pV, which also carried the mob gene, the efficiency of transmission was partially restored.     

Conjugative chromosomal gene transfer in Bacillus subtilis

Conjugative transfer of 20-kb chromosomal fragment carrying genes encoding tetracycline (tet(r)) and lincomycin (lin(r)) resistance in the soil strain Bacillus subtilis 19 is described. Transfer was preceded by this fragment insertion into the large conjugative pl9cat plasmid producing a hybrid plasmid. Insertion frequency was 10(-4)-10(-5). Then genes tet(r) and lin(r) were transferred to the recipient strains. The transfer of chromosomal genes inserted into the plasmid and plasmid gene cat occurred sequentially and resembled sexduction, which represents chromosomal gene transfer by F'- and R' plasmids during conjugation in Escherichia coli and other gram negative bacteria.     

Molecular analysis of some genes from plasmid p19 of the soil strain Bacillus subtilis 19 involved in conjugation

Two fragments of conjugative plasmid p19 (95 kb) from the soil strain Bacillus subtilis 19 were cloned and sequenced; these fragments carry genes, products of which are indispensable for the conjugative transfer. One of the fragments 4518 bp in size carries five open reading frames and their fragments (ORF1-ORF5). The protein corresponding to ORF4 is homologous to proteins from the family VirD4. Inactivation of ORF4 and ORF1 by insertional mutagenesis caused a three-to-fivefold decrease in the frequency of plasmid p19 conjugative transfer. Another 2932-bp fragment of p19 was shown to possess a rep region homologous to the rep region of plasmid pBS72 from the soil strain B. subtilis 72 and a novel ORF (ORF6); the protein corresponding to this ORF contains the HTH motif typical for DNA-binding proteins.     

Bacillus subtilis (natto) plasmid pLS20 mediates interspecies plasmid transfer.

The 55-kilobase plasmid, pLS20, of Bacillus subtilis (natto) 3335 promotes transfer of the tetracycline resistance plasmid pBC16 from B. subtilis (natto) to the Bacillus species B. anthracis, B. cereus, B. licheniformis, B. megaterium, B. pumilus, B. subtilis, and B. thuringiensis. Frequency of pBC16 transfer ranged from 2.3 x 10(-6) to 2.8 x 10(-3). Evidence for a plasmid-encoded conjugationlike mechanism of genetic exchange includes (i) pLS20+ strains, but not pLS20- strains, functioned as donors of pBC16; (ii) plasmid transfer was insensitive to the presence of DNase; and (iii) cell-free filtrates of donor cultures did not convert recipient cells to Tcr. Cotransfer of pLS20 and pBC16 in intraspecies matings and in matings with a restriction-deficient B. subtilis strain indicated that pLS20 was self-transmissible. In addition to mobilizing pBC16, pLS20 mediated transfer of the B. subtilis (natto) plasmid pLS19 and the Staphylococcus aureus plasmid pUB110. The fertility plasmid did not carry a selectable marker. To facilitate direct selection for pLS20 transfer, plasmid derivatives which carried the erythromycin resistance transposon Tn917 were generated. Development of this method of genetic exchange will facilitate the introduction of plasmid DNA into nontransformable species by use of transformable fertile B. subtilis or B. subtilis (natto) strains as intermediates.     

Heat-inducible translational coupling in Bacillus subtilis.

Bacillus subtilis plasmid pGR71 is a promoter-probe shuttle vector derived from pUB110. The expression of the cat gene on pGR71 in B. subtilis requires the insertion of a Bacillus promoter and a ribosomal binding site (RBS) into the HindIII cloning site immediately upstream from the cat gene. A recombinant plasmid of pGR71, named pGR71-369, was obtained by a spontaneous deletion of a fragment containing most of the inserted HindIII fragment and the replication origin necessary for multiplication in Escherichia coli. The expression of the cat gene in B. subtilis cells carrying this plasmid was inducible by heat. Nucleotide sequence analysis of the upstream region of the cat gene, deletion analysis, and dot blot hybridization analysis of mRNA in various conditions revealed that the cat gene was expressed by heat-inducible translational coupling and that the regulatory region of heat inducibility was present in the upstream region of the cat gene.     

Recombinational transfer of 100-kilobase genomic DNA to plasmid in Bacillus subtilis 168

Transformation of Bacillus subtilis by a plasmid requires a circular multimeric form. In contrast, linearized plasmids can be circularized only when homologous sequences are present in the host genome. A recombinational transfer system was constructed with this intrinsic B. subtilis recombinational repair pathway. The vector, pGETS103, a derivative of the theta-type replicating plasmid pTB19 of thermophilic Bacillus, had the full length of Escherichia coli plasmid pBR322. A multimeric form of pGETS103 yielded tetracycline-resistant transformants of B. subtilis. In contrast, linearized pGETS103 gave tetracycline-resistant transformants only when the recipient strain had the pBR322 sequence in the genome. The efficiency and fidelity of the recombinational transfer of DNAs of up to 90 kb are demonstrated.     

A phenomenon of plasmid retrotransfer in conjugation of Bacillus subtilis

A conjugal retrotransfer-retromobilization of a small nonconjugative plasmid pUB110 was established in Bacillus subtilis. This process involves a large conjugative plasmid p19.     

Soil strain of Bacillus subtilis harboring a large plasmid that mediates high-frequency conjugal mobilization

The ability of a soil strain of Bacillus subtilis harboring a large plasmid, p19, to mobilize a small staphylococcus plasmid, pUB110, was studied. The latter plasmid was transferred to the recipient cells of Bacillus subtilis 168 at a high frequency (about 10(-2) per recipient cell) both on filter surface and in liquid medium. Mobilization was initiated 40 to 50 min after the beginning of the contact between donor and recipient cells.     

Expression of the Bacillus pumilus chloramphenicol acetyltransferase gene in Bacillus subtilis, achieved by the P-R-promotor of phage lambda

The possibility of expression of the Bacillus pumilus chloramphenicol acetyltransferase gene (cat) in Bacillus subtilis from the pR promoter of phage lambda has been investigated in this work. For this purpose, the plasmid pPL703 carrying the B. pumilus DNA segment with the cat gene lacking promoter has been combined with the plasmid pBM21 containing the pR promoter. The recombinant plasmid pEL1 is capable of providing the 60 mkg/ml chloramphenicol resistance in Bac. subtilis cells.     

Inter- and Intraspecies Conjugal Transfer of Different Plasmids in Bacilli

Conjugal transfer of plasmid pUB110 between different strains of bacilli was studied. The plasmid transfer was possible not only between various strains of B. subtilis, but also when many other species of bacilli served as recipients. Conjugation of a donor strain B. subtilis 19 (p19 pUB110) was accompanied by a transfer of plasmid p19 along with plasmid pUB110 to the B. subtilis recipient strains lacking a large plasmid p19. If, like the donor cells, the recipient B. subtilis strain carried plasmid p19, the frequency of conjugation decreased. The small plasmid pBC16 was also capable of conjugative transfer. However, if this plasmid carried the mob gene with an inverted region, the frequency of its transmission dramatically decreased. If the donor strain contained another small plasmid, pV, which also carried the mob gene, the efficiency of transmission was partially restored.     

Genetic control of the biotransformation of plant terpenoids by Pseudomonas strain SP.1K1

Bacterial strain Pseudomonas sp. 1K1 can grow on sesquiterpene lactones isolated from medicinal plants of Kazakhstan due to 18-kb conjugative plasmid. This plasmid is stable in heterologous environment (E. coli and B. subtilis), which was proven by transformation transfer. The possibility of using salicylate as p1K1 selective agent has been demonstrated.     

Conjugational transfer system to shuttle giant DNA cloned by Bacillus subtilis genome (BGM) vector

The Bacillus subtilis GenoMe (BGM) vector was designed as a versatile vector for the cloning of giant DNA segments. Cloned DNA in the BGM can be retrieved to a plasmid using our Bacillus recombinational transfer (BReT) method that takes advantage of competent cell transformation. However, delivery of the plasmid to a different B. subtilis strain by the normal transformation method is hampered by DNA size-related inefficiency. Therefore, we designed a novel method, conjugational plasmid-mediated DNA retrieval and transfer (CReT) from the BGM vector, and investigated conjugational transmission to traverse DNA between cells to circumvent the transformation-induced size limitation. pLS20, a 65-kb plasmid capable of conjugational transfer between B. subtilis strains, was modified to retrieve DNA cloned in the BGM vector by homologous recombination during normal culture. As the plasmid copy number was estimated to be 3, the retrieval plasmid was selected using increased numbers of marker genes derived from the retrieved DNA. We applied this method to retrieve Synechocystis genome segments up to 90 kb in length. We observed retrieved plasmid transfers between B. subtilis strains by conjugation in the absence of structural alterations in the DNA fragment. Our observations extend DNA transfer protocols over previously exploited size ranges.     

Nucleotide sequence of a Bacillus pumilus gene specifying chloramphenicol acetyltransferase

Gene cat-86 of Bacillus pumilus, specifying chloramphenicol-inducible chloramphenicol acetyltransferase, was previously cloned in Bacillus subtilis on plasmid pUB110. The nucleotide sequence of cat-86 indicates that the gene encodes a protein of 220 amino acids and contains TTG as the translations-initiation codon. The proteins specified by cat-86 and the cat genes present on pC194, pC221 and Tn9 appear to share regions of amino acid sequence similarity. cat-86 is a structural gene on the B. subtilis expression plasmid pPL608. Restriction sites exist within the gene that should permit the product of inserted heterologous coding sequences to be synthesized in B. subtilis as fusion proteins.     

Transfer of transformation and conjugation plasmids from Escherichia coli to Bacillus subtilis and Azospirillum brasilense]

The conjugative transfer of RP4 plasmid from Escherichia coli to Azospirillum brasilense was detected after introduction and subsequent incubation of these microorganisms in soil. The plasmid transfer via transformation from Escherichia coli to Bacillus subtilis was observed in case both bacteria were growing together in sand containing sucrose solution. The possible reason for low frequency interspecies plasmid transformation under conditions close to natural habitats is poor survival of "domesticated" rather than wild type Bacillus subtilis strains and lack of competence state in this case.     

Sustained and constitutive high levels of protein production in continuous cultures of bacillus subtilis

The feasibility of continuous production of proteins in chemostat cultures of Bacillus subtilis was investigated. An expression system consisting of the bacterium B. subtilis BR151 carrying plasmid p602/19 was used. The plasmid contains the cat (chioramphenicol acetyltrans-ferase) gene downstream of a strong vegetative T5 promoter. It was found that, at a dilution rate of 0.2 h(-1) production of relatively high levels of CAT protein (about 4% ofcellular protein) can be sustained. But, experiments at a higher dilution rate of 0.4 h(-1) were unproductive because of high acidformation and washout. Combination of low cell yield, which results from excessive acid formation, and low dilution rate led to a low volumetric CAT productivity. Our recent work with the nonrecombinant cells, has demonstrated that uptake of small amounts of citrate significantly reduces or entirelyeliminates the acid formation. This superior performance in the presence ofcitrate was hypothesized, based on strong experimental evidence, to be the result of a reduction in glycolysis flux through a sequence of events leading to a reduction in pyruvate kinase and phosphof- ructokinase activities, the regulatory enzymes of glycol-ysis. In this study, it is demonstrated that cofeeding of glucose and citrate substantially reduces theorganic acid formation and significantly increases the recombinant culture productivity. The combination of high specific CAT activity and cell density resulted in a total of six- to tenfold higher culture productivitywhen citrate and glucose were cometabolized than when glucose was the only carbon source. (c) 1995 John Wiley & Sons Inc.     

不同培养时期的大肠杆菌和枯草芽孢杆菌间发生的跨属自然遗传转化

携带穿梭质粒的大肠杆菌与作为受体的枯草芽孢杆菌分别培养至不同生长阶段混合均匀后静置40min,涂布选择性平板,37℃培养30h后得到一定数目的转化子,DNaseⅠ敏感实验证实质粒是通过自然遗传转化而非其它形式发生转移。实验发现大肠杆菌可以在特定生长时期向胞外分泌DNA,并且在对数期具有最高的提供质粒的能力,而生长后期的细胞因为体系中DNase量的增加转化频率下降。进一步的研究发现枯草芽孢杆菌在营养丰富的LB培养基中也具有与基本培养基中相当的转化能力,并且在对数生长前期具有较高的转化频率。