谷氨酸棒杆菌过氧化氢酶的异源表达、纯化以及酶学性质

过氧化氢酶能催化过氧化氢分解为水和氧气,在工业上有着较为广泛的应用。然而,纺织和造纸工业的特殊的高碱性环境,使得开发碱性过氧化氢酶有着重要的应用价值。利用大肠杆菌表达来自于谷氨酸棒杆菌的过氧化氢酶,对其表达条件进行了优化,并通过镍柱亲和层析的方法分离纯化重组蛋白,然后表征纯酶的酶学性质。最适表达条件为:诱导剂IPTG浓度0.2 mmol/L,诱导温度25℃,诱导时间11 h。过氧化氢酶比酶活达到55 266 U/mg,具有较高的催化活性。该酶具有相当宽泛的p H值适应范围,在p H 4.0–11.5范围内均具有较高的酶活性,并在p H 11.0条件下表现出最高的酶活性。将纯酶在p H 11.0的溶液中处理3 h时剩余酶活为93%,说明该酶在高碱条件下有良好的稳定性。该酶最适温度为30℃,在25–50℃热稳定性较好。其动力学参数Km为25.89mmol/L,Vmax为185.18mmol/(min?mg)。抑制剂十二烷基硫酸钠(SDS)、尿素、Na N3、β-巯基乙醇、EDTA对酶活有不同程度的抑制作用。来源于谷氨酸棒杆菌的过氧化氢酶具有较高的催化效率、良好的碱耐受性,在工业生产中有较好...     

利用蛋白质序列模式识别改善谷氨酸棒杆菌基因组注释

即使细菌基因组的基因结构较为简单,但在注释过程中也可能出现基因遗漏的现象。当潜在基因在高质量数据库中没有显著同源序列时,基于知识库的基因预测方法就会遇到困难。本文希望通过系统扫描基因组所有可能ORF的蛋白质序列模式来搜索遗漏基因。为验证该方法的可行性,作者系统分析了重要的工业发酵微生物谷氨酸棒杆菌的基因组,发现了25个候选疑似基因。它们具有显著的蛋白质序列模式,但在Swiss-Prot中元显著同源序列,并且在GenBank中仍未注释。深入分析发现,25个候选疑似基因中19个为可能基因,3个为可能假基因,3个为疑似基因序列。这些结果说明本文的分析方法可以有效地用于无显著同源序列基因的搜索。     

Combinatorial impact of Sec signal peptides from Bacillus subtilis and bioprocess conditions on heterologous cutinase secretion by Corynebacterium glutamicum

The impact of Sec signal peptides (SPs) from Bacillus subtilis in combination with isopropyl-β- d -1-thiogalactopyranoside concentration and feeding profile was investigated for heterologous protein secretion performance by Corynebacterium glutamicum using cutinase as model enzyme. Based on a comprehensive data set of about 150 bench-scale bioreactor cultivations in fed-batch mode and choosing the cutinase yield as objective, it was shown that relative secretion performance for bioprocesses remains very similar, irrespective of the applied SP enabling Sec-mediated cutinase secretion. However, to achieve the maximal absolute cutinase yield, careful adjustment of bioprocess conditions was found to be necessary. A model-based, two-step multiple regression approach resembled the collected data in a comprehensive way. The corresponding results suggest that the choice of the heterologous Sec SP and its interaction with the adjusted exponential feeding profile is highly relevant to maximize absolute cutinase yield in this study. For example, the impact of Sec SP is high at low growth rates and low at high growth rates. However, promising Sec SPs could be inferred from less complex batch cultivations. The extensive data were also evaluated in terms of cutinase productivity, highlighting the well-known trade-off between yield and productivity in bioprocess development in detail. Conclusively, only the right combination of target protein, Sec SP, and bioprocess conditions is the key to success.     

Increased expression of pyruvate carboxylase and biotin protein ligase increases lysine production in a biotin prototrophic Corynebacterium glutamicum strain

Corynebacterium glutamicum, a Gram‐positive bacterium used for the production of various biochemicals, is naturally a biotin auxotroph. We introduced the biotin genes from Bacillus subtilis on a plasmid, pBIO, into a lysine‐producing derivative (termed AHP‐3) that has been described previously, and achieved biotin prototrophy. We found that AHP‐3, containing pBIO, was able to produce lysine in a medium lacking biotin and that the lysine yield on glucose was similar to what is obtained when using a medium containing biotin. However, there was a decrease in specific growth rate of 20% when the strain was cultivated without biotin, indicating a suboptimal intracellular concentration of biotin. In an attempt to locate the potential bottleneck, we added pimelic acid, an early biotin precursor, and found that growth rate could be restored fully, which demonstrates that the bottleneck is in pimeloyl‐CoA (or pimeloyl‐Acyl Carrier Protein [ACP]) formation. Pyruvate carboxylase (pycA), a biotin‐dependent enzyme needed for lysine biosynthesis and biotin ligase (birA), which is responsible for attaching biotin to pyruvate carboxylase, were overexpressed by replacing the native promoters with the strong superoxide dismutase (sod) promoter, to see whether growth could be restored. Neither pycA nor birA overexpression, whether alone or in combination, had an effect on specific growth rate, but they did have a positive effect on lysine yield, which increased by 55% in the strain overexpressing both enzymes.     

Advanced technologies for improved expression of recombinant proteins in bacteria: perspectives and applications

Prokaryotic expression systems are superior in producing valuable recombinant proteins, enzymes and therapeutic products. Conventional microbial technology is evolving gradually and amalgamated with advanced technologies in order to give rise to improved processes for the production of metabolites, recombinant biopharmaceuticals and industrial enzymes. Recently, several novel approaches have been employed in a bacterial expression platform to improve recombinant protein expression. These approaches involve metabolic engineering, use of strong promoters, novel vector elements such as inducers and enhancers, protein tags, secretion signals, high-throughput devices for cloning and process screening as well as fermentation technologies. Advancement of the novel technologies in E. coli systems led to the production of “difficult to express” complex products including small peptides, antibody fragments, few proteins and full-length aglycosylated monoclonal antibodies in considerable large quantity. Wacker's secretion technologies, Pfenex system, inducers, cell-free systems, strain engineering for post-translational modification, such as disulfide bridging and bacterial N-glycosylation, are still under evaluation for the production of complex proteins and peptides in E. coli in an efficient manner.

This appraisal provides an impression of expression technologies developed in recent times for enhanced production of heterologous proteins in E. coli which are of foremost importance for diverse applications in microbiology and biopharmaceutical production.     

Isolation,evaluation and use of two strong,carbon source‐inducible promoters from Corynebacterium glutamicum

Aims: To obtain strong, carbon source‐inducible promoters useful for industrial applications of Corynebacterium glutamicum. Methods and Results: DNA microarray and qRT‐PCR enabled identification of the promoters of cgR_2367 (malE1) and cgR_2459 (git1) as strong, maltose‐ and gluconate‐inducible promoters, respectively, in C. glutamicum. Promoter probe assays revealed that in the presence of the inducing sugars, PmalE1 and Pgit1, respectively, facilitated 3·4‐ and 4·2‐fold increased β‐galactosidase activities compared to the same activity induced by glucose. In addition, PmalE1 was not functional in Escherichia coli, in which Pgit1 function was repressible, which enabled the cloning of a hitherto ‘difficult‐to‐clone’ heterologous gene of a lignocellulolytic enzyme, whose secretion was consequently induced by the carbon sources. Conclusions: PmalE1 and Pgit1 are strong, carbon source‐inducible promoters of C. glutamicum whose characteristics in E. coli are integral to the secretion ability of C. glutamicum to secrete lignocellulolytic enzyme. Significance and Impact of the Study: Corynebacterium glutamicum, like its counterpart industrial workhorses E. coli and Bacillus subtilis, does exhibit strong, carbon source‐inducible promoters, and the functionality of two of which was demonstrated in this study. While this study may be most relevant in the ongoing efforts to establish technologies of the biorefinery, it should also be of interest to general microbiologists exploring the versatility of industrial micro‐organisms. In so doing, the study should impact future advances in industrial microbiology.     

Effects of gene dosage, promoters, and substrates on unfolded protein stress of recombinant Pichia pastoris

The expression of heterologous proteins may exert severe stress on the host cells at different levels. Depending on the specific features of the product, different steps may be rate-limiting. For the secretion of recombinant proteins from yeast cells, folding and disulfide bond formation were identified as rate-limiting in several cases and the induction of the chaperone BiP (binding protein) is described. During the development of Pichia pastoris strains secreting human trypsinogen, a severe limitation of the amount of secreted product was identified. Strains using either the AOX1 or the GAP promoter were compared at different gene copy numbers. With the constitutive GAP promoter, no effect on the expression level was observed, whereas with the inducible AOX1 promoter an increase of the copy number above two resulted in a decrease of expression. To identify whether part of the product remained in the cells, lysates were fractionated and significant amounts of the product were identified in the insoluble fraction containing the endoplasmic reticulum, while the soluble cytosolic fraction contained product only in clones using the GAP promoter. An increase of BiP was observed upon induction of expression, indicating that the intracellular product fraction exerts an unfolded protein response in the host cells. A strain using the GAP promoter was grown both on glucose and methanol and trypsinogen was identified in the insoluble fractions of both cultures, but only in the soluble fraction of the glucose grown cultures, indicating that the amounts and distribution of intracellularly retained product depends on the culture conditions, especially the carbon source.     

Phytases: crystal structures, protein engineering and potential biotechnological applications

Phytases are a group of enzymes capable of releasing phosphates from phytates, one of the major forms of phosphorus (P) in animal feeds of plant origin. These enzymes have been widely used in animal feed to improve phosphorus nutrition and to reduce phosphorus pollution in animal waste. This review covers the basic nomenclature and crystal structures of phytases and emphasizes both the protein engineering strategies used for the development of new, effective phytases with improved properties and the potential biotechnological applications of phytases.     

钝齿棒杆菌精氨酸琥珀酸酶编码基因argH的克隆表达及其重组菌发酵产精氨酸研究

钝齿棒杆菌（Corynebacterium crenatum）SYPA是本实验室筛选获得的一株高产精氨酸生产菌株。精氨酸琥珀酸酶（AL）是精氨酸合成过程中的最后一个酶,催化底物精氨酸琥珀酸生成产物精氨酸。为进一步提高精氨酸产量,本文以钝齿棒杆菌基因组为模板,扩增得到其编码基因argH,全长为1434 bp,编码476个氨基酸,理论蛋白分子量大小为50.8 kDa,其与C. glutamicum ATCC 13032比对其同源性为99.4%,相差10 bp,3个氨基酸。将其在E.coli BL21(DE3)及C. crenatum SYPA中成功表达。利用载体pET-28a上的6×His?Tag选用Ni柱亲和层析纯化AL,纯化后获得的重组蛋白的比酶活达156.9mU/mg蛋白,总回收率为72.3%,对该酶的部分酶学性质进行了初步研究,并发现产物精氨酸对其具有反馈抑制作用。成功构建钝齿棒杆菌重组穿梭表达质粒pJC1-tac-argH并将其通过电击转化法转入C.crenatum SYPA中,加强其代谢途径中AL蛋白表达量,并对其发酵产精氨酸做了初步分析。结果表明与出发菌株相比,转化子在精氨酸琥珀酸酶酶活增强了66.8%的基础上精氨酸产量达40.9 g/L,比出发菌株产量的35.8 g/L提高了约14.2%。     

Metabolic engineering of l-leucine production in Escherichia coli and Corynebacterium glutamicum: a review

l-Leucine, as an essential branched-chain amino acid for humans and animals, has recently been attracting much attention because of its potential for a fast-growing market demand. The applicability ranges from flavor enhancers, animal feed additives and ingredients in cosmetic to specialty nutrients in pharmaceutical and medical fields. Microbial fermentation is the major method for producing l-leucine by using Escherichia coli and Corynebacterium glutamicum as host bacteria. This review gives an overview of the metabolic pathway of l-leucine (i.e. production, import and export systems) and highlights the main regulatory mechanisms of operons in E. coli and C. glutamicum l-leucine biosynthesis. We summarize here the current trends in metabolic engineering techniques and strategies for manipulating l-leucine producing strains. Finally, future perspectives to construct industrially advantageous strains are considered with respect to recent advances in biology.     

Advances and challenges in the production of extracellular thermoduric pullulanases by wild-type and recombinant microorganisms: a review

Thermoduric pullulanases, acting as starch-debranching enzymes, are required in many industrial applications, mainly in the production of concentrated glucose, maltose, and fructose syrups. To date, however, a single pullulanase, from Bacillus acidopullulyticus, is available on the market for industrial purposes. This review is an investigation of the major advances as well as the major challenges being faced with regard to optimization of the production of extracellular thermoduric pullulanases either by their original hosts or by recombinant organisms. The critical aspects linked to industrial pullulanase production, which should always be considered, are emphasized, including those parameters influencing solubility, thermostability, and catalytic efficiency of the enzyme. This review provides new insights for improving the production of extracellular thermoduric pullulanases in the hope that such information may facilitate their commercial utilization and potentially be applied to the development of other industrially relevant enzymes.     

Coexpression of the type I signal peptidase gene sipM increases recombinant protein production and export in Bacillus megaterium MS941

The removal of the signal peptide from a precursor protein is a crucial step of protein secretion. In order to improve Bacillus megaterium as protein production and secretion host, the influence of homologous type I signal peptidase SipM overproduction on recombinant Leuconostoc mesenteroides dextransucrase DsrS synthesis and export was investigated. The dsrS gene was integrated as a single copy into the chromosomal bgaM locus encoding beta-galactosidase. Desired clones were identified by blue-white selection. In this strain, the expression of sipM from a multicopy plasmid using its own promoter increased the amount of secreted DsrS 3.7-fold. This increase in protein secretion by SipM overproduction was next transferred to a high level DsrS production strain using a multicopy plasmid encoding sipM with its natural promoter and dsrS under control of a strong xylose-inducible promoter. No further increase in DsrS export were observed when this vector was carrying two sipM copies. Similarly, bicistronic sipM and dsrS high level expression did not enhance DsrS secretion, indicating the natural limitation of the approach. Interestingly, SipM-enhanced DsrS secretion also resulted in an overall increase of DsrS production.     

Expression, purification, and crystallography of the conserved methionine-rich domain of human signal recognition particle 54 kDa protein.

Protein SRP54 is an essential component of eukaryotic signal recognition particle (SRP). The methionine-rich M-domain (SRP54M or 54M) interacts with the SRP RNA and is also involved in the binding to signal peptides of secretory proteins during their targeting to cellular membranes. To gain insight into the molecular details of SRP-mediated protein targeting, we studied the human 54M polypeptide. The recombinant human protein was expressed successfully in Escherichia coli and was purified to homogeneity. Our studies determined the sites that were susceptible to limited proteolysis, with the goal to design smaller functional mutant derivatives that lacked nonessential amino acid residues from both termini. Of the four polypeptides produced by V8 protease or chymotrypsin, 54MM-2 was the shortest (120 residues; Mr = 13,584.8), but still contained the conserved amino acids suggested to associate with the signal peptide or the SRP RNA. 54MM-2 was cloned, expressed, purified to homogeneity, and was shown to bind human SRP RNA in the presence of protein SRP19, indicating that it was functional. Highly reproducible conditions for the crystallization of 54MM-2 were established. Examination of the crystals by X-ray diffraction showed an orthorhombic unit cell of dimensions a = 29.127 A, b = 63.693 A, and c = 129.601 A, in space group P2(1)2(1)2(1), with reflections extending to at least 2.0 A.     

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...     

Cloning, disruption and protein secretory phenotype of the GAS1 homologue of Pichia pastoris

The aim of the study was the identification, cloning and disruption of the GAS1 homologue of Pichia pastoris. Gas1p is a glycoprotein anchored to the outer layer of the plasma membrane through a glycosylphosphatidylinositol (GPI) anchor. Gas1p is a beta-1,3-glucanosyltransglycosylase (EC 2.4.1.-). This cross-linking enzyme highly affects the structure and permeability of the yeast cell wall. The gene coding for the GAS1 homologue of P. pastoris was cloned by PCR, and its functionality was proven in a Saccharomyces cerevisiae GAS1 null mutant. Based on the nucleotide sequence information of the P. pastoris GAS1 homologue, a disruption cassette was constructed for the knockout of the GAS1 in P. pastoris. The morphology of DeltaGAS1 P. pastoris was identical to that of S. cerevisiae GAS1 mutants. Finally, the impact of GAS1 disruption on secretion of three recombinant model proteins in P. pastoris, human trypsinogen, human serum albumin and Rhizopus oryzae lipase, was evaluated. While the disruption had no effect on the secretion of trypsinogen and albumin, the amount of lipase released from the cells was doubled.     

Cell‐free production of a therapeutic protein: Expression,purification, and characterization of recombinant streptokinase using a CHO lysate

The use of cell‐free systems to produce recombinant proteins has grown rapidly over the past decade. In particular, cell‐free protein synthesis (CFPS) systems based on mammalian cells provide alternative methods for the production of many proteins, including those that contain disulfide bonds, glycosylation, and complex structures such as monoclonal antibodies. In the present study, we show robust production of turbo green fluorescent protein (tGFP) and streptokinase in a cell‐free system using instrumented mini‐bioreactors for highly reproducible protein production. We achieved recombinant protein production (～600 μg/ml of tGFP and 500 μg/ml streptokinase) in 2.5 hr of expression time, comparable to previously reported yields for cell‐free protein expression. Also, we demonstrate the use of two different affinity tags for product capture and compare those to a tag‐free self‐cleaving intein capture technology. The intein purification method provided a product recovery of 86%, compared with 52% for conventionally tagged proteins, while resulting in a 30% increase in total units of activity of purified recombinant streptokinase compared with conventionally tagged proteins. These promising beneficial features combined with the intein technology makes feasible the development of dose‐level production of therapeutic proteins at the point‐of‐care.     

遗传资源获取与惠益分享: 背景、进展与挑战

本文回顾了《生物多样性公约》(CBD)有关遗传资源获取与惠益分享(access and benefit sharing, ABS)问题的谈判背景, 介绍了ABS问题特设工作组的工作历程。对《公约》第8次缔约方大会以来有关ABS问题的谈判进展进行了详细的分析, 特别是有关遗传资源来源证书制度的讨论与成果, 进而对当前ABS问题面临的挑战进行了分析研究, 包括国际层面上WTO体系和世界知识产权组织(WIPO)体系与CBD之间在遗传资源及相关传统知识在知识产权问题上的冲突, 国家层面上ABS问题的立法需求与焦点问题, 以及在确定遗传资源来源和实施惠益分享方面的技术限制等。