Expression and Secretion of an Acid-Stable <Emphasis Type="Italic">α</Emphasis>-Amylase Gene in Bacillus Subtilis by <Emphasis Type="Italic">SacB</Emphasis> Promoter and Signal Peptide

Alpha amylase gene from Bacillus licheniformis was mutated by site-directed mutagenesis to improve its acid stability. The mutant gene was expression in Bacillus subtilis under the control of the promoter of sacB gene which was followed by either the α-amylase leader peptide of Bacillus licheniformis or the signal peptide sequence of sacB gene of Bacillus subtilis. Both peptides efficiently directed the secretion of α-amylase from the recombinant B. subtilis cells. The extracellular α-amylase activities in two recombinants were 1001 and 2012 U ml⁻¹, respectively. The purity of the recombinant product was confirmed by SDS-PAGE.     

ThesacB gene cannot be used as a counter-selectable marker inPasteurella multocida

The use of theBacillus subtilis sacB gene as a counter-selectable marker was assessed in serogroup A and B strains ofPasteurella multocida. Expression ofsacB failed to render any of the strains sensitive to sucrose, indicating that thesacB gene can not be used as a positive selection system inP. multocida.     

Secretory expression in Escherichia coli and Bacillus subtilis of human interferon alpha genes directed by staphylokinase signals

Summary A DNA segment covering the signal sequence coding region, the ribosome binding site, and the promoter of the staphylokinase (sak) 42D gene (Behnke and Gerlach 1987) was cloned into pUC19 to form a portable expression-secretion unit (ESU). Fusion of human interferon α₁ (hIFNα₁) and hybrid hIFNα_1/2 genes to thissak ESU resulted in secretory expression of the two gene products in bothEscherichia coli andBacillus subtilis. While most of the IFNα was exported to the periplasmic space ofE. coli, about 99% was secreted to the culture medium by recombinantB. subtilis strains. The total yield inE. coli was 1.2×10⁵ IU/ml. This level of expression and export led to instability of the recombinant strains that was spontaneously relieved in vivo by inactivation of thesak ESU through insertion of an IS1 element. No such instability was observed withB. subtilis although expression and secretion levels reached even 3×10⁶ IU/ml. Proteolytic degradation of IFNα by extracellular proteases was avoided by a combination of constitutive expression and secretion during the logarithmic growth phase and the use of exoprotease-reduced host strains. The IFNα₁ protein purified fromB. subtilis culture supernatant was correctly processed, carried the expected 11 amino acid N-terminal elongation that resulted from DNA manipulations and proved to be homogenous in Western blotting experiments. The same recombinant plasmid that directed efficient secretion of hIFNα₁ inB. subtilis gave poor yields when introduced intoStreptococcus sanguis.     

Construction of a new food-grade expression system for <Emphasis Type="Italic">Bacillus subtilis</Emphasis> based on theta replication plasmids and auxotrophic complementation

A new food-grade expression system was constructed for Bacillus subtilis based on replicative food-grade expression plasmids and auxotrophic complementation. The food-grade B. subtilis host FG01 was created by knockout of the dal locus from the chromosome of B. subtilis 168. Two food-grade expression plasmids pXFGT03 and pXFGT05 were constructed by combining a novel theta-type Bacillus replicon with the B. subtilis endogenous gene dal and P43 promoter; while pXFGT05 was derived from pXFGT03 by deletion of two open reading frames (ORFs) from the original replicon. Upon transformation of FG01 with pXFGT03 or pXFGT05, the host phenotype was complemented on Luria–Bertani agar plates by the plasmid-coded dal gene, which served as a food-grade selection marker for recombinants. Results showed that deletion of the two ORFs had no impact on plasmid replication. A reporter gene bgaB was cloned into pXFGT03 and pXFGT05, respectively, under control of the P43 promoter, and it was successfully expressed in this food-grade expression system. Segregational stabilities of two recombinant plasmids were investigated, and they were fully stable.     

A T7 promoter-specific, inducible protein expression system forBacillus subtilis

The adaptation and application of theEscherichia coli T7 RNA polymerase system for regulated and promoter-specific gene expression inBacillus subtilis is reported. The expression cassette used inBacillus subtilis was tightly regulated and T7 RNA polymerase (T7 RNAP) appeared 30 min after induction. The efficiency of T7 promoter-specific gene expression inB. subtilis was studied using one secretory and two cytosolic proteins of heterologous origin. The accumulation ofE. coli -galactosidase, as well as a 1,4--glucosidase fromThermoanaerobacter brockii inB. subtilis after T7 RNAP induction was strongly enhanced by rifampicin inhibition of host RNAP activity. The-amylase ofThermoactinomyces vulgaris, a secretory protein, was found to accumulate in the culture supernatant up to levels of about 70 mg/l 10–20 h after T7 RNAP induction, but was also deposited in cellular fractions. The addition of rifampicin inhibited-amylase secretion, but unexpectedly, after a short period, also prevented its further (intra)cellular accumulation     

Expression and secretion of a single-chain sweet protein monellin in <Emphasis Type="Italic">Bacillus subtilis</Emphasis> by <Emphasis Type="Italic">sacB</Emphasis> promoter and signal peptide

The sweet protein monellin gene was expressed in Bacillus subtilis under the control of the Bacillus subtilis sacB promoter and signal peptide sequence. A 294-bp DNA fragment, coding for sweet protein monellin, was ligated into the Escherichia coli/B. subtilis shuttle vector pHPC, producing pHPMS, which was subsequently transformed into B. subtilis QB1098, DB104, and DB403. The peptide efficiently directed the secretion of monellin from the recombinant B. subtilis cells. A maximum yield of monellin of 0.29 g protein l⁻¹ was obtained from the supernatant of B. subtilis DB403 harboring pHPMS. SDS-PAGE confirmed the purity of the recombinant product.     

Construction of a novel sacB-based system for marker-free gene deletion in Corynebacterium glutamicum

Bacillus subtilis sacB gene with its 463 bp upstream region including its native promoter has been used for marker-free gene deletion in Corynebacterium glutamicum, but the role of this upstream region is not clear. In this study, it was demonstrated that the upstream region of sacB failed to efficiently promote its expression in C. glutamicum, and the native promoter of sacB is weak in C. glutamicum. The expression level of sacB under its native promoter in C. glutamicum is not high enough for cells to confer sucrose sensitivity. Therefore, a new promoter PlacM and a novel vector pDXW-3 were constructed. PlacM is 18 times stronger than the native promoter of sacB in C. glutamicum. The pDXW-3 contains B. subtilissacB with the PlacM fused at the 5′-end, a general Escherichia coli replicon oriE for easy cloning, a kanamycin resistance marker for selection, and a multiple unique restriction sites for XhoI, NotI, EagI, SalI, SacI, BamHI, and NheI, respectively. By using pDXW-3, the aceE gene in the chromosome of C. glutamicum was deleted. This sacB-based system should facilitate gene disruption and allelic exchange by homologous recombination in many bacteria.     

Analysis of heat shock promoters inHansenula polymorpha: TheTPS1 promoter, a novel element for heterologous gene expression

The strength and regulatory characteristics of the heat-inducibleHSA1, HSA2 andTPS1 promoters were compared with those of the well-established, carbon source-regulatedFMD promoter in aHansenula polymorpha-based host systemin vivo. In addition, theSaccharomyces cerevisiae-derivedADH1 promoter was analysed. WhileADH1 promoter showed to be of poor activity in the foreign host, the strength of the heat shockTPS1 promoter was found to exceed that of theFMD promoter, which at present is considered to be the strongest promoter for driving heterologous gene expression inH. polymorpha.     

Optimal Production of Poly-γ-glutamic Acid by Metabolically Engineered Escherichia coli

Metabolically-engineered Escherichia coli strains were developed by cloning poly-γ-glutamic acid (γ-PGA) biosynthesis genes, consisting of pgsB, pgsC and pgsA, from Bacillus subtilis The metabolic and regulatory pathways of γ-PGA biosynthesis in E. coli were analyzed by DNA microarray. The inducible trc promoter and a constitutive promoter (P_HCE) derived from the d-amino acid aminotransferase (D-AAT) gene of Geobacillus toebii were employed. The constitutive HCE promoter was more efficient than inducible trc promoter for the expression of γ-PGA biosynthesis genes. DNA microarray analysis showed that the expression levels of several NtrC family genes, glnA, glnK, glnG, yhdX, yhdY, yhdZ, amtB, nac, argT and cbl were up-regulated and sucA, B, C, D genes were down-regulated. When (NH₄)₂SO₄ was added at 40 g/l into the feeding solution, the final γ-PGA concentration reached 3.7 g/l in the fed-batch culture of recombinant E. coli/pCOpgs.     

Biological control of postharvest fungal rot of yam (<Emphasis Type="Italic">Dioscorea</Emphasis> spp.) with<Emphasis Type="Italic">Bacillus subtilis</Emphasis>

The potential of isolates of Bacillus subtilis from yam farm soil to control rot of yam in storage barns was investigated. Yam tubers inoculated in vivo with B. subtilis showed no rot while those inoculated with Aspergillus niger, Botryodiploidia theobromae or Penicillium oxalicum showed considerable rot. The set of yams in which B. subtilis and the fungi were simultaneously inoculated produced rot whereas those in which B. subtilis was inoculated a day before the fungi was inoculated were totally reduced or free of rot. Many fewer fungi were isolated from the surface of tubers treated with B. subtilis than from the untreated (control) and there was high recovery of B. subtilis (99–100%) throughout the period of storage. Rot build up was faster in uninoculated control tubers or those inoculated with a spoilage fungus, while those treated with the antagonist were totally reduced or free of rot. The culture filtrate of B. subtilis prevented spore germination in some spoilage fungi. The importance of this study in relation to farmers in developing countries is discussed.     

The expression of <Emphasis Type="Italic">Bacillus intermedius</Emphasis> glutamyl endopeptidase gene in <Emphasis Type="Italic">Bacillus subtilis</Emphasis> recombinant strains

The gene encoding for B. intermedius glutamyl endopeptidase (gseBi) has previously been cloned and its nucleotide sequence analyzed. In this study, the expression of this gene was explored in protease-deficient strain B. subtilis AJ73 during stationary phase of bacterial growth. We found that catabolite repression usually involved in control of endopeptidase expression during vegetative growth was not efficient at the late stationary phase. Testing of B. intermedius glutamyl endopeptidase gene expression with B. subtilis spo0-mutants revealed slight effect of these mutations on endopeptidase expression. Activity of glutamyl endopeptidase was partly left in B. subtilis ger-mutants. Probably, gseBi expression was not connected with sporulation. This enzyme might be involved in outgrowth of the spore, when germinating endospore converts into the vegetative cell. These data suggest complex regulation of B. intermedius glutamyl endopeptidase gene expression with contribution of several regulatory systems and demonstrate changes in control of enzyme biosynthesis at different stages of growth.     

Regulated expression of heterologous genes inBacillus subtilis using the Tn10 encodedtet regulatory elements

Summary TheEscherichia coli-derivedtet regulatory elements from Tn10 have been used to construct vectors allowing the regulated, inducible, high-level expression of foreign genes inBacillus subtilis. While the wild-typetet promoters are inactive inB. subtilis, a synthetic mutanttet sequence with improved promoter consensus sequences and upstream poly A blocks shows activity inB. subtilis. The expression of an indicatorcat gene is inducible by sublethal amounts of tetracycline, indicating that the Tet repressor protein and thetet operator sequences are functional. However, the inducibility and maximal expression are not sufficient in this construct. To improve these properties atet operator sequence was placed between the —35 and —10 boxes of theB. subtilis-derived very strongxyl promoter. In the presence of atetR gene this construct is about 100-fold inducible and has high promoter strength, but some basal expression. This is avoided by placing a secondtet operator downstream resulting in no detectable basal expression at the expense of reduced inducibility. Using the system with a singletet operator inducible expression of glucose dehydrogenase fromB. megaterium was obtained at a very high level, and inducible expression of human single-chain urokinase-like plasminogen activator was achieved at the same level as inE. coli. Unlike inE. coli, the product was not degraded up to 4 h after induction inB. subtilis. These results demonstrate that the regulated expression vector described here should be very useful for production of foreign gene products fromB. subtilis cultures.     

Expression of sfp gene and hydrocarbon degradation by Bacillus subtilis

Bacillus subtilis C9 produces a lipopeptide-type biosurfactant, surfactin, and rapidly degrades alkanes up to a chain length of C₁₉. The nucleotide sequence of the sfp gene cloned from B. subtilis C9 was determined and its deduced amino acid sequence showed 100% homology with the sfp gene reported before [Nakano et al. (1992) Mol. Gen. Genet. 232: 313–321]. To transform a non-surfactin producer, B. subtilis 168, to a surfactin producer, the sfp gene cloned from B. subtilis C9 was expressed in B. subtilis 168. The transformed B. subtilis SB103 derivative of the strain 168 was shown to produce surfactin measured by its decrease in surface tension, emulsification activity, and TLC analysis of the surface active compound isolated from the culture broth. Like B. subtilis C9, B. subtilis SB103 containing sfp gene readily degraded aliphatic hydrocarbons (C_10–19), though its original strain did not. The addition of surfactin (0.5%, w/v) to the culture of B. subtilis 168 significantly stimulated the biodegradation of hydrocarbons of the chain lengths of 10–19; over 98% of the hydrocarbons tested were degraded within 24 h of incubation. These results indicate that the lipopeptide-type biosurfactant, surfactin produced from B. subtilis enhances the bioavailability of hydrophobic hydrocarbons.     

Evaluation in tobacco of the organ specificity and strength of therolD promoter,domain A of the 35S promoter and the 35S2 promoter

In order to study the expression in plants of therolD promoter ofAgrobacterium rhizogenes, we have constructed chimaeric genes placing the coding region of thegusA (uidA) marker gene under control of tworolD promoter fragments of different length. Similar results were obtained with both genes. Expression studies were carried out in transformed R₁ progeny plants. In mature transformed tobacco plants, therolD-gus genes were expressed strongly in roots, and to much lower levels in stems and leaves. This pattern of expression was transmitted to progeny, though the ratio of the level of expression in roots relative to that in leaves was much lower in young seedlings. The degree of root specificity inrolD-gus transformants was less than that of a gene constructed with domain A of the CaMV 35S promoter,domA-gus, but the level of root expression was much higher than with the latter gene. However, the level of expression of therolD-gus genes was less than that of agus gene with a 35S promoter with doubled domain B, 35S²-gus. TherolD-gus genes had a distinctive pattern of expression in roots, compared to that of the two other genes, with the strongest GUS activity observed in the root elongation zone and in vascular tissue, and much less in the root apex.     

Effect of dissolved oxygen concentration onnar promoter activity in batch and semi-continuous cultivations

The level of the dissolved oxygen concentration could significantly affect thenar promoter activity in the induction of the gene expression under the anaerobic condition. In batch culture, the β-galactosidase activity was about 12000 units/min/g cell under the anaerobic condition. The optimum DO concentration for the induction of the gene expression was 0% in both batch and continuous cultivations. In semi-continuous culture, the maximum enzyme activity was about 11000 units/min/g cell at 0% of the DO concentration. These results indicated that the absolutely anaerobic culture condition was required for the maximum gene expression.     

Development of insect resistant transgenic cotton lines expressing cry1EC gene from an insect bite and wound inducible promoter

Transgenic cotton lines were developed for high-level expression of a synthetic cry1EC gene from a wound inducible promoter. The tobacco pathogenesis related promoter PR-1a was modified by placing CaMV35S promoter on its upstream in reverse orientation. The resultant chimeric promoter CaMV35S(r)PR-1a expressed constitutively and was further up-regulated at the site of feeding by insects. It was induced more rapidly by treatment with salicylic acid (SA). The CaMV35S(r)PR-1a cry1EC expressing transgenic lines of cotton showed 100% mortality of Spodoptera litura larvae. The tightly regulated low-level expression of PR-1a was modified to a highly expressing constitutive expression by CaMV35S placed in reverse orientation. Salicylic acid treatment and wounding enhanced the expression further by the chimeric promoter. The leaves expressed more δ-endotoxin around the sites of insect bites. The levels of expression and induction varied among different transgenic lines, suggesting position effect. Some of the transgenic lines that expressed Cry1EC from the chimeric promoter at a low level also showed 100% mortality when induced with salicylic acid. A highly expressing insect bite and wound inducible promoter is desirable for developing insect resistant transgenic plants.     

Overexpression,purification and characterization of a recombinant secretary catalase from <Emphasis Type="Italic">Bacillus subtilis</Emphasis>

A recombinant Bacillus subtilis strain (KN25) was generated for the large-scale preparation of catalase. The B. subtilis katA gene encoding for catalase was cloned into the shuttle vector PRB374, downstream of the constitutively active vegII promoter, followed by transformation of the B. subtilis strain WB600 with the plasmid. The transformant strain, KN25 secretes high levels (3,500 U/ml) of catalase, which facilitates its purification. Three simple purification steps yielded nearly homogeneous catalase, with ∼70% recovery. The purified recombinant catalase has a specific activity of 34,600 U/mg under optimal conditions, and is more resistant to acidic conditions than bovine liver catalase.     

Generation of unmarked directed mutations in mycobacteria, using sucrose counter-selectable suicide vectors

The expression of sacB, the Bacillus subtilis gene encoding levansucrase, is lethal to mycobacteria in the presence of 10% sucrose. In this study, we describe the use of sacB as a marker for positive selection of gene-replacement events into Mycobacterium smegmatis. A sucrose counter-selectable suicide plasmid was used to deliver an inactivated copy of the pyrF gene (pyrFKm) into the M. smegmatis genome. Only uracil auxotroph clones, resulting from replacement of the endogenous pyrF allele, survived in a one-step selection on plates containing kanamycin and 10% sucrose. This demonstrated that selection on sucrose against the maintenance of the vector bearing the sacB gene is 100% efficient, enabling the positive selection of allelic-exchange mutants. Two-step selection is also feasible; it was used to construct unmarked pyrF mutants in which the gene was inactivated by a frameshift mutation. This method of generating unmarked, directed mutations is rapid and simple, making it a powerful tool for the genetic characterization of mycobacteria.