Development of marker-free strains of Bacillus subtilis capable of secreting high levels of industrial enzymes

Different strategies have been employed to achieve high-level expression of single-copy genes encoding secreted enzymes in Bacillus subtilis. A model system was developed which utilizes the aprL gene from Bacillus clausii as a reporter gene for monitoring expression levels during stationary phase. An exceptionally strong promoter was constructed by altering the nuceotide sequence in the −10 and −35 regions of the promoter for the amyQ gene of Bacillus amyloliquefaciens. In addition, two or three tandem copies of this promoter were shown to increase expression levels substantially in comparison to the monomer promoter alone. Finally, the promoter and mRNA stabilization sequences derived from the cry3A gene of Bacillus thuringiensis were used in combination with the mutant amyQ promoter to achieve the highest levels of aprL expression. These promoters were shown to be fully functional in a high-expressing Bacillus strain grown under industrial fermentation conditions. The ability to obtain maximum expression levels from a single copy gene now makes it feasible to construct environmentally friendly, marker-free industrial strains of B. subtilis. Journal of Industrial Microbiology & Biotechnology (2000) 25, 204–212. Received 05 January 2000/ Accepted in revised form 26 June 2000     

芽胞杆菌中重组蛋白分泌表达的优化策略及研究进展

芽胞杆菌属具有良好的蛋白表达和分泌能力,在工业酶的生产中被广泛应用,是理想的工业宿主菌,但实现蛋白分泌表达的普遍高效性还存在许多瓶颈。本文综述了芽胞杆菌的蛋白分泌表达策略,从启动子、信号肽、分泌途径、宿主和培养条件这5个方面总结了提高芽胞杆菌中分泌表达重组蛋白的方法,对芽胞杆菌高效生产工业酶有一定的参考价值,最后展望了优化芽胞杆菌分泌表达的研究方向,各种新型生物技术的发展必将推进芽胞杆菌在分泌表达领域有更深入的应用。     

枯草芽孢杆菌表达和分泌异源蛋白的研究进展

枯草芽孢杆菌是一种广泛应用于基础研究和工业生产的重要模式菌株,具有无致病性、蛋白分泌能力强、遗传背景清晰等多种优势,是生产异源蛋白的理想宿主。目前已有诸多异源蛋白在枯草芽孢杆菌中实现表达和分泌,其中包括淀粉酶、β-半乳糖苷酶和蛋白酶等有价值的工业酶。本文从异源蛋白表达和分泌的关键步骤出发,总结了枯草芽孢杆菌生产异源蛋白的传统策略和最新技术。除此之外,分析了当前研究存在的瓶颈并对如何提高异源蛋白产量提出了新的建议和策略。     

Recombinant production of bacterial toxins and their derivatives in the methylotrophic yeast <Emphasis Type="Italic">Pichia pastoris</Emphasis>

The methylotrophic yeast Pichia pastoris is a popular heterologous expression host for the recombinant production of a variety of prokaryotic and eukaryotic proteins. The rapid emergence of P. pastoris as a robust heterologous expression host was facilitated by the ease with which it can be manipulated and propagated, which is comparable to that of Escherichia coli and Saccharomyces cerevisiae. P. pastoris offers further advantages such as the tightly-regulated alcohol oxidase promoter that is particularly suitable for heterologous expression of foreign genes. While recombinant production of bacterial toxins and their derivatives is highly desirable, attempts at their heterologous expression using the traditional E. coli expression system can be problematic due to the formation of inclusion bodies that often severely limit the final yields of biologically active products. However, recent literature now suggests that P. pastoris may be an attractive alternative host for the heterologous production of bacterial toxins, such as those from the genera Bacillus, Clostridium, and Corynebacterium, as well as their more complex derivatives. Here, we review the recombinant production of bacterial toxins and their derivatives in P. pastoris with special emphasis on their potential clinical applications. Considering that de novo design and construction of synthetic toxin genes have often been necessary to achieve optimal heterologous expression in P. pastoris, we also present general guidelines to this end based on our experience with the P. pastoris expression of the Bacillus thuringiensis Cyt2Aa1 toxin.     

Versatile Expression and Secretion Vectors for Bacillus subtilis

Most expression systems are based on Escherichia coli as the host strain because of the large availability of all kinds of vector plasmids. However, aside from the obvious advantages of E. coli systems, serious problems can occur during the process of heterologous gene expression and purification. Therefore, low expression rates, formation of inclusion bodies, improper protein-folding, and/or toxicity problems might enforce changing the expression host. Here we describe the construction of two new vectors, pBSMuL1 and pBSMuL2, for overexpression and secretion of heterologous proteins in Bacillus subtilis as an alternative expression host. The new plasmids combine several advantages in comparison to available Bacillus expression systems: an appropriate multiple cloning site consisting of 13 unique restriction sites, one (pBSMuL1) or two (pBSMuL2) strong constitutive promoters, a high efficient signal sequence for protein secretion, and the possibility to express proteins as His-tagged fusions for easy detection and purification. We have demonstrated the applicability of the novel vector plasmids for the production and purification of the heterologous cutinase from Fusarium solani pisi.     

Heterologous protein expression in Pichia thermomethanolica BCC16875, a thermotolerant methylotrophic yeast and characterization of N-linked glycosylation in secreted protein

This study describes Pichia thermomethanolica BCC16875, a new methylotrophic yeast host for heterologous expression. Both methanol-inducible alcohol oxidase (AOX1) and constitutive glyceraldehyde-3-phosphate dehydrogenase (GAP) promoters from Pichia pastoris were shown to drive efficient gene expression in this host. Recombinant phytase and xylanase were expressed from both promoters as secreted proteins, with the former showing different patterns of N-glycosylation dependent on the promoter used and culture medium. In addition, growth temperature also had an effect on N-glycan modification of cell wall mannoproteins. The major glycoprotein oligosaccharide species produced from P.?thermomethanolica BCC16875 is Man(8-12) GlcNAc(2) , which is similar to that from other methylotrophs. Moreover, mannosylphosphate and α-1,6- and α-1,2-linked mannose modifications of heterologous secreted protein were also detected. The attainably high level of protein production in complement to distinctive thermotolerance rarely found in other industrial yeasts makes this microorganism an attractive host for large-scale fermentation.     

Improvement of Sec-dependent secretion of a heterologous model protein in Bacillus subtilis by saturation mutagenesis of the N-domain of the AmyE signal peptide

Due to the lack of an outer membrane, Gram-positive bacteria (e.g., Bacillus species) are considered as promising host organisms for the secretory production of biotechnologically relevant heterologous proteins. However, the yields of the desired target proteins were often reported to be disappointingly low. Here, we used saturation mutagenesis of the positively charged N-domain (positions 2–7) of the signal peptide of the Bacillus subtilis α-amylase (AmyE) as a novel approach for the improvement of the secretion of a heterologous model protein, cutinase from Fusarium solani pisi, by the general secretory pathway of B. subtilis. Automated high-throughput screening of the resulting signal peptide libraries allowed for the identification of four single point mutations that resulted in significantly increased cutinase amounts, three of which surprisingly reduced the net charge of the N-domain from +3 to +2. Characterization of the effects of the identified mutations on protein synthesis and export kinetics by pulse-chase analyses indicates that an optimal balance between biosynthesis and the flow of the target protein through all stages of the B. subtilis secretion pathway is of crucial importance with respect to yield and quality of secreted heterologous proteins.     

β-Chemokines Are Produced in Lungs of Mice with Mycoplasma Respiratory Disease

The abilities of Bacillus polymyxa and Bacillus thuringiensis to survive on the rice phyllospere were compared; it was found that B. polymyxa colonizes the crop better. This study also showed that B. polymyxa inoculation to rice plants increased the shoot and the root growth of the crop. Efforts were made to introduce the cry1Ac gene of B. thuringiensis subsp. kurstaki into B. polymyxa so that the application of such transgenic B. polymyxa strains would prove to be dually beneficial to rice crops both as a biopesticide and as a biofertilizer. Immunoblot analysis of the recombinant organism containing the cry1Ac gene, strain BP113, indicated efficient expression of this gene in the heterologous host. Bioassays with the first instar larvae of the yellow stem borer of rice (Scirpophaga incertulas) revealed that the protein preparations from BP113 were toxic. Received: 12 August 1998 / Accepted: 25 September 1998     

Molecular identification of rRNA group 3 bacilli (Ash,Farrow, Wallbanks and Collins) using a PCR probe test

Comparative 16S rRNA sequence analysis has demonstrated that the genusBacillus consists of at least five phyletic lines. rRNA group 3 bacilli of Ash, Farrow, Wallbanks and Collins (1991) comprisingBacillus polymyxa and close relatives is phylogenetically so removed fromBacillus subtilis, the type species of the genus and other aerobic, endospore-forming bacilli that they warrant reclassification in a new genusPaenibacillus. The genusPaenibacillus can be readily distinguished from otherBacillus groups using a battery of phenotypic characters and a highly specific gene probe based on 16S rRNA.     

High‐level expression of Aspergillus niger β‐galactosidase in Ashbya gossypii

Ashbya gossypii has been recently considered as a host for the expression of recombinant proteins. The production levels achieved thus far were similar to those obtained with Saccharomyces cerevisiae for the same proteins. Here, the β‐galactosidase from Aspergillus niger was successfully expressed and secreted by A. gossypii from 2‐µm plasmids carrying the native signal sequence at higher levels than those secreted by S. cerevisiae laboratorial strains. Four different constitutive promoters were used to regulate the expression of β‐galactosidase: A. gossypii AgTEF and AgGPD promoters, and S. cerevisiae ScADH1 and ScPGK1 promoters. The native AgTEF promoter drove the highest expression levels of recombinant β‐galactosidase in A. gossypii, leading to 2‐ and 8‐fold higher extracellular activity than the AgGPD promoter and the heterologous promoters, respectively. In similar production conditions, the levels of active β‐galactosidase secreted by A. gossypii were up to 37 times higher than those secreted by recombinant S. cerevisiae and ～2.5 times higher than those previously reported for the β‐galactosidase‐high producing S. cerevisiae NCYC869‐A3/pVK1.1. The substitution of glucose by glycerol in the production medium led to a 1.5‐fold increase in the secretion of active β‐galactosidase by A. gossypii. Recombinant β‐galactosidase secreted by A. gossypii was extensively glycosylated, as are the native A. niger β‐galactosidase and recombinant β‐galactosidase produced by yeast. These results highlight the potential of A. gossypii as a recombinant protein producer and open new perspectives to further optimize recombinant protein secretion in this fungus. © 2013 American Institute of Chemical Engineers Biotechnol. Prog., 30:261–268, 2014     

Operational strategies, monitoring and control of heterologous protein production in the methylotrophic yeast Pichia pastoris under different promoters: A review

The methylotrophic yeast Pichia pastoris has been widely reported as a suitable expression system for heterologous protein production. The use of different phenotypes under PAOX promoter, other alternative promoters, culture medium, and operational strategies with the objective to maximize either yield or productivity of the heterologous protein, but also to obtain a repetitive product batch to batch to get a robust process for the final industrial application have been reported. Medium composition, kinetics growth, fermentation operational strategies from fed-batch to continuous cultures using different phenotypes with the most common PAOX promoter and other novel promoters (GAP, FLD, ICL), the use of mixed substrates, on-line monitoring of the key fermentation parameters (methanol) and control algorithms applied to the bioprocess are reviewed and discussed in detail.     

Enhanced production of recombinant nattokinase in <Emphasis Type="Italic">Bacillus subtilis</Emphasis> by promoter optimization

Nattokinase (NK) is a health product for the prevention and potential control of thrombosis diseases. To explore the possibility of enhancing NK production in Bacillus subtilis by altering the promoter of NK gene (PaprN), we tested several methods. We substituted the wild-type −10 box (TACAAT) of PaprN with the consensus sequence (TATAAT) of σ^A-dependent promoters, mutated the original −35 box (TACTAA) to a partial consensus sequence (TACACA), and expressed aprN from two tandem promoters, respectively. The efficacies of these changes were monitored by fibrinolytic activity, SDS-PAGE, and northern blotting analyses. Fibrinolytic activity analysis showed that altering the −10 region of PaprN could increase NK production by 136%. This production is significantly higher than those reported in the literatures. Similar results were obtained in SDS-PAGE and northern blotting analyses. This engineered promoter was also able to enhance the expression of β-glucuronidase (GUS) by 249%. Partial alteration of the −35 element could slightly improve the production of NK by 13%, while two tandem promoters just had marginal effects on the production of NK. Our study showed that alteration of −10 or −35 elements in PaprN, especially −10 element, is an effective way to enhance the production of heterologous proteins in B. subtilis.     

解淀粉芽孢杆菌内源启动子的筛选及表达碱性果胶酶的应用研究

【目的】通过检测目的基因的转录水平和表达强度,筛选来源于解淀粉芽孢杆菌(Bacillus amyloliquefaciens)的内源启动子,确定适合碱性果胶酶基因表达的强启动子,并进一步对选用的强启动子进行分析。【方法】通过生物信息学手段对启动子片段进行预测与筛选,采用相对荧光强度、酶活力等表征手段进行分析,同时采用实时荧光定量聚合酶链式反应(real-time fluorescence quantitative polymerase chain reaction, RT-qPCR)技术检测不同启动子的转录水平。【结果】启动子PrapA、PmetE-1、Phin-1表达碱性果胶酶的活力分别是P43启动子的9.8倍、4.8倍、3.0倍,筛选出的这3个强启动子为其他异源基因在解淀粉芽孢杆菌中的表达奠定了基础。【结论】通过生物信息学手段预测及筛选启动子,筛选得到比较强的启动子PrapA、PmetE-1和Phin-1,有效提高了碱性果胶酶的表达量。     

Ecology and biotechnological potential of <Emphasis Type="Italic">Paenibacillus polymyxa</Emphasis>: a minireview

Microbial diversity is a major resource for biotechnological products and processes. Bacteria are the most dominant group of this diversity which produce a wide range of products of industrial significance. Paenibacillus polymyxa (formerly Bacillus polymyxa), a non pathogenic and endospore-forming Bacillus, is one of the most industrially significant facultative anaerobic bacterium. It occurs naturally in soil, rhizosphere and roots of crop plants and in marine sediments. During the last two decades, there has been a growing interest for their ecological and biotechnological importance, despite their limited genomic information. P. polymyxa has a wide range of properties, including nitrogen fixation, plant growth promotion, soil phosphorus solubilisation and production of exopolysaccharides, hydrolytic enzymes, antibiotics, cytokinin. It also helps in bioflocculation and in the enhancement of soil porosity. In addition, it is known to produce optically active 2,3-butanediol (BDL), a potentially valuable chemical compound from a variety of carbohydrates. The present review article aims to provide an overview of the various roles that these microorganisms play in the environment and their biotechnological potential.     

Efficient secretory production of large-size heterologous enzymes in Bacillus subtilis: A secretory partner and directed evolution

Secretory production of recombinant proteins provides a simple approach to the production and purification of target proteins in the enzyme industry. We developed a combined strategy for the secretory production of three large-size heterologous enzymes with a special focus on 83-kDa isoamylase (IA) from an archaeon Sulfolobus tokodaii in a bacterium Bacillus subtilis. First, a secretory protein of the B. subtilis family 5 glycoside hydrolase endoglucanase (Cel5) was used as a fusion partner, along with the NprB signal peptide, to facilitate secretory production of IA. This secretory partner strategy was effective for the secretion of two other large enzymes: family 9 glycoside hydrolase from Clostridium phytofermentas and cellodextrin phosphorylase from Clostridium thermocellum. Second, the secretion of Cel5-IA was improved by directed evolution with two novel double-layer Petri-dish-based high-throughput screening (HTS) methods. The high-sensitivity HTS relied on the detection of high-activity Cel5 on the carboxymethylcellulose/Congo-red assay. The second modest-sensitivity HTS focused on the detection of low-activity IA on the amylodextrin-I₂ assay. After six rounds of HTS, a secretory Cel5-IA level was increased to 234 mg/L, 155 times the wild-type IA with the NprB signal peptide only. This combinatory strategy could be useful to enhance the secretory production of large-size heterologous proteins in B. subtilis.     

碱性蛋白酶SubC在枯草芽孢杆菌中的高效异源表达

【背景】碱性蛋白酶是工业用酶中占比最大的酶类,广泛应用于清洁、食品、医疗等行业。近期研究发现碱性蛋白酶在生产生物活性肽方面有巨大潜力,这将进一步拓宽其在保健食品领域中的应用。【目的】利用枯草芽孢杆菌异源表达地衣芽孢杆菌来源的碱性蛋白酶SubC。【方法】通过筛选3种枯草芽孢杆菌宿主菌株(Bacillus subtilis 1A751、MA07、MA08)和6种信号肽(AmyE、AprE、NprE、Pel、YddT、YoqM),同时优化诱导剂浓度、发酵培养基和发酵时长,最终得到最优重组菌株MA08-AmyE-subCopt。【结果】重组菌株MA08-AmyE-subCopt的胞外酶活力为3.33×103 AU/mL,胞外蛋白分泌量为胞内可溶蛋白表达量的4倍,与携带野生型信号肽的对照组菌株WT相比,酶活提高了73.4%。【结论】异源碱性蛋白酶SubC在枯草芽孢杆菌中成功表达,为碱性蛋白酶SubC的表达和在保健食品领域的工业化应用提供了理论基础。     

Combination of viral promoter sequences to generate highly active promoters for heterologous therapeutic protein over-expression in plants

To develop strong promoters for protein over-expression in both dicots and monocots, we constructed a new family of chimeric promoters using sequences of the Commelina Yellow Mosaic Virus (CoYMV), of the Cassava Vein Mosaic Virus (CsVMV) and activating sequences from the CaMV 35S promoter. The chimeric promoters were cloned upstream from the gusA reporter gene. The constructs were used in transient expression experiments, via DNA-coated gold particle delivery to tobacco leaves and maize endosperms. The results showed that candidates among the chimeric promoters could drive expression of the reporter gene to very high levels in the dicot plant tobacco, and all chimeric promoters showed higher expression in maize endosperm than the maize γ-zein promoter used as reference for the monocot expression. Expression cassettes were then used in stable tobacco transformation. Determination of GUS activity throughout growth of the primary transformants showed that two promoters (MPr1163 and MPr1165) could drive expression three to five-fold higher than the highly efficient enhanced 35S promoter. The use of MPr1163 was additionally validated for successful heterologous protein production of human lactoferrin in tobacco via agroinfiltration.