B→O血型转变工具酶α-半乳糖苷酶cDNA克隆及表达

 α-半乳糖苷酶是实现 B→O血型转变、制备通用型血的关键工具酶 .利用反转录 PCR方法从中国海南 Catimor咖啡豆中克隆α-半乳糖苷酶 c DNA,插入嗜甲基酵母 P.pastoris分泌表达载体 p PIC9K中 ,转化 P.pastoris GS1 1 5,筛选高表达重组菌株 .经甲醇诱导表达 7d后 ,发酵液总蛋白分泌量约 1 .2 mg/ml,SDS- PAGE呈现约 41 k D特异表达带 ,与专一性底物对 -硝基 -苯基 -α- D-吡喃半乳糖苷反应证明 ,表达产物具有 α-半乳糖苷酶活性 ,最高达到 1 8U/ml.初步实验表明 ,表达的 α-半乳糖苷酶可酶解 B型红细胞 ,成功实现 B→O血型转变 .     

Pathway analysis of Pichia pastoris to elucidate methanol metabolism and its regulation for production of recombinant proteins

This research rationally analyzes metabolic pathways of Pichia pastoris to study the metabolic flux responses of this yeast under methanol metabolism. A metabolic model of P. pastoris was constructed and analyzed by elementary mode analysis (EMA). EMA was used to comprehensively identify the cell's metabolic flux profiles and its underlying regulation mechanisms for the production of recombinant proteins from methanol. Change in phenotypes and flux profiles during methanol adaptation with varying feed mixture of glycerol and methanol was examined. EMA identified increasing and decreasing fluxes during the glycerol–methanol metabolic shift, which well agreed with experimental observations supporting the validity of the metabolic network model. Analysis of all the identified pathways also led to the determination of the metabolic capacities as well as the optimum metabolic pathways for recombinant protein synthesis during methanol induction. The network sensitivity analysis revealed that the production of proteins can be improved by manipulating the flux ratios at the pyruvate branch point. In addition, EMA suggested that protein synthesis is optimum under hypoxic culture conditions. The metabolic modeling and analysis presented in this study could potentially form a valuable knowledge base for future research on rational design and optimization of P. pastoris by determining target genes, pathways, and culture conditions for enhanced recombinant protein synthesis. The metabolic pathway analysis is also of considerable value for production of therapeutic proteins by P. pastoris in biopharmaceutical applications. © 2013 American Institute of Chemical Engineers Biotechnol. Prog., 30:28–37, 2014     

Recombinant shrimp (Litopenaeus vannamei) trypsinogen production in Pichia pastoris

Shrimp (Litopenaeus vannamei) trypsinogen has never been isolated from its natural source. To assess the production of L. vannamei trypsinogen, we engineered Pichia pastoris strains and evaluated two culture approaches with three induction culture media, to produce recombinant shrimp trypsinogen for the first time. The trypsinogen II cDNA was fused to the signal sequence of the Saccharomyces cerevisiae alpha mating factor, placed under the control of the P. pastoris AOX1 promoter, and integrated into the genome of P. pastoris host strain GS115. Using standard culture conditions for heterologous gene induction of a GS115 strain in shake flasks, recombinant shrimp trypsinogen was not detected by SDS‐PAGE and Western blot analysis. Growth kinetics revealed a toxicity of recombinant shrimp trypsinogen or its activated form over the cell host. Thus, a different culture approach was tested for the induction step, involving the use of high cell density cultures, a higher frequency of methanol feeding (every 12 h), and a buffered minimal methanol medium supplemented with sorbitol or alanine; alanine supplemented medium was found to be more efficient. After 96 h of induction with alanine supplemented medium, a 29‐kDa band from the cell‐free culture medium was clearly observed by SDS‐PAGE, and confirmed by Western blot to be shrimp trypsinogen, at a concentration of 14 μg/mL. Our results demonstrate that high density cell cultures with alanine in the induction medium allow the production of recombinant shrimp trypsinogen using the P. pastoris expression system, because of improved cell viability and greater stability of the recombinant trypsinogen. © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2009     

强化表达SAM合成酶促进SAM在毕赤酵母中累积

S 腺苷甲硫氨酸 (S adenosyl L methionine ,SAM)是生物体硫代谢的重要中间代谢物质 ,在体内起着转甲基、转硫基、转氨丙基的作用 ,具有重要的药用和保健价值。将酿酒酵母来源的SAM合成酶 2基因置于GAP启动子调控下 ,构建胞内组成型表达质粒 ,并电转化至毕赤酵母菌株GS115。经Zeocin抗性和培养筛选到一株高产SAM的重组菌。对重组菌表达工艺的研究表明 ,碳源、氮源、pH和溶解氧对SAM的累积有较大影响。在优化条件下 ,重组细胞培养 3天 ,SAM累积量可达 2 .49g/L。     

Impact of methanol concentration on secreted protein production in oxygen-limited cultures of recombinant Pichia pastoris

The methylotrophic yeast Pichia pastoris is a powerful system for production of recombinant proteins, showing high ability to secrete properly folded proteins. A major plus is the strong AOX1 promoter highly induced by methanol. During growth on methanol, however, oxygen readily becomes limiting. In oxygen-limited cultivations of recombinant Pichia pastoris, the methanol concentration had a strong impact on the production of a single-chain antibody fragment (scFv). High methanol concentrations were required to compensate the lack of oxygen and fully induce recombinant protein production, at the same time reducing gratuitous biomass formation due to a lower biomass yield. Product concentrations of 60, 150, and 350 mg/L were obtained with methanol concentrations of 0.3, 1, and 3% (v/v). Moreover, accumulation of a putative product fragment that cannot be removed during affinity purification was prevented at high methanol concentrations. Cell vitality after 100 h was maintained above 98% and 96% of the culture with 0.3% and 3% methanol, respectively. In cultivations supplemented with oxygen, in contrast, methanol concentration between 0.3% and 3% did not influence the product yield of 300-400 mg/L. Thus, efficient recombinant protein production under oxygen-limitation seems to require high methanol concentrations, enabling product concentration as high as otherwise obtained only with expensive supply of pure oxygen.     

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     

重组毕赤酵母产青蛤Mytimacin抗菌肽的表达研究

Mytimacin是主要在无脊椎动物中表达的Macin抗菌肽家族中的一员,具有较强的抗病原微生物活性,是利用重组DNA技术开发天然抗菌剂的良好候选者。通过RT-PCR从青蛤(Cyclina sinensis)闭壳肌中克隆编码Mytimacin成熟肽的基因,经3次PCR在该基因的5’端添加Xho I限制性酶切位点和信号肽酶识别位点、3’端添加Xba I限制性酶切位点和6×His,获得目的基因"CsMm";以pPICZαA为表达载体、毕赤酵母(Pichia pastoris)X-33为工程菌,构建重组毕赤酵母X-33/pPICZαA-CsMm。通过高浓度博来霉素筛选高拷贝酵母转化子,在28℃、250 r/min条件下,使用1.5%的甲醇诱导表达72 h;使用固化金属离子亲和层析(IMAC)对表达产物进行纯化,并通过MALDI-TOF-TOF质谱分析对纯化产物进行鉴定。另外,通过涂布法和浊度法考察重组CsMm的抑菌活性。结果表明:基于X-33/pPICZαA-CsMm重组毕赤酵母的外源表达获得了表达量为25.6 mg/L的重组蛋白,经MALDI-TOF-TOF质谱鉴定其为分子量约7.8 kD的预期重组CsMm。抑菌试验证明重组CsMm对金黄色葡萄球菌(Staphylococcus aureus)、枯草芽孢杆菌(Bacillus subtilis)、大肠杆菌(Escherichia coli)和副溶血性弧菌(Vibrio Parahemolyticus)具有明显的抑菌活性。构建的重组毕赤酵母X-33/pPICZαA-CsMm能有效合成具有生物学活性的重组青蛤Mytimacin,旨为贝类来源天然小分子抗菌剂的开发提供可资参考的技术途径。     

高密度发酵P.pastoris诱导表达egⅡ基因

用套叠PCR法扩增里氏木霉(Trichoderma reesei)的葡聚糖内切酶II(egⅡ)基因.扩增基因经EcoR I和Not I双酶切后克隆进P.pastoris表达载体pPIC9k,获得重组表达质粒pPIC9K-egⅡ.通过电转法将egⅡ基因重组于P.pastoris基因组,筛选高G418抗性的转化子作为工程菌...     

毕赤酵母优化表达外源蛋白策略

毕赤酵母(Pichia pastoris)表达系统是一种异源蛋白表达的理想系统,但目前并非所有的外源蛋白都能在毕赤酵母中成功高效表达,不同的蛋白表现为不同表达水平、生物活性及稳定性。从遗传因素和表达条件综述了外源蛋白在毕赤酵母中的优化表达策略。     

重组毕赤酵母甲醇利用表型与基因拷贝数对外源基因表达的影响

毕赤酵母是目前最优秀的外源蛋白表达系统之一。本文着重对重组毕赤酵母甲醇利用表型（Mut+型、MutS型和Mut-型）、基因剂量对外源蛋白高效表达的影响机理进行综述。MutS型的比生长速率和蛋白产率比Mut+型低、发酵周期长、副产物（如乙醇、乙酸等）形成速率不同。外源基因拷贝数对外源蛋白的影响主要有三种情况：（1）高基因拷贝数对外源蛋白表达水平有明显的正效应作用;（2）基因拷贝数增加反而降低了表达水平,即负效应作用;（3）重组蛋白表达与基因剂正相关,之后则表现负相关关系,这可能与外源蛋白翻译后加工有关（如二硫键形成、折叠等）,而与分子伴侣共表达可促进外源蛋白的高表达。     

Effect of methanol feeding strategies on production and yield of recombinant mouse endostatin from Pichia pastoris

Pichia pastoris, a methylotrophic yeast, is an efficient producer of recombinant proteins in which the heterologous gene is under the control of the methanol-induced AOX1 promoter. Hence, the accepted production procedure has two phases: In the first phase, the yeast utilizes glycerol and biomass is accumulated; in the second phase, the yeast utilizes methanol which is used both as an inducer for the expression of the recombinant protein and as a carbon source. Since the yeast is sensitive to methanol concentration, the methanol is supplied gradually to the growing culture. Three methanol addition strategies were evaluated for the purpose of optimizing recombinant endostatin production. Two strategies were based on the yeast metabolism; one responding to the methanol consumption using a methanol sensor, and the other responding to the oxygen consumption. In these two strategies, the methanol supply is unlimited. The third strategy was based on a predetermined exponential feeding rate, controling the growth rate at 0.02 h(-1), in this strategy the methanol supply is limited. Throughout the induction phase glycerol, in addition to methanol, was continuously added at a rate of 1 g L h(-1). Total endostatin production was similar in all three strategies, (400 mg was obtained from 3 L initial volume), but the amount of methanol added and the biomass produced were lower in the predetermined rate method. This caused the specific production of endostatin per biomass and per methanol to be 2 times higher in the predetermined rate than in the other two methods, making the growth control strategy not only more efficient but also more convenient for downstream processing.     

An ultra scale-down approach to assess the impact of the choice of recombinant P. pastoris strain on dewatering performance in centrifuges

Pichia pastoris is becoming a desirable host in the biopharmaceutical industry for therapeutics production. It grows on methanol to high cell densities ≥100 g DCW/L and secretes foreign proteins at high titers. However, the culture conditions to reach high cell densities pose a challenge to the processability by primary recovery operations, in particular centrifugation, used for cell removal. This work aims to assess the impact of recombinant P. pastoris strain selection on centrifugal dewatering. Normally, the choice of P. pastoris recombinant strain is based on best target protein expression levels; however, it is unknown whether the choice of strain will have an impact on performance of centrifugation operation. To achieve this aim, a previously developed laboratory ultra‐scale down (USD) methodology that successfully predicted centrifugal dewatering of pilot‐scale disk‐type machines, was used in this work. Two recombinant P. pastoris strains, namely a X‐33 and a glycoengineered Pichia strain, were used to perform fermentations secreting different products. The resulting harvested fermentation culture properties were analyzed and the dewatering performances of a pilot‐ and a large‐scale disk‐type centrifuge were evaluated using the USD methodology. The choice of P. pastoris strain was found to have a considerable impact on dewatering performance, with P. pastoris X‐33 strain reaching better dewatering levels than the glycoengineered strain. The USD method proved to be a useful tool to determine optimal conditions under which the large scale centrifuge needed to be operated, reducing the need for repeated pilot‐scale runs during early stages of process development for therapeutic products. © 2012 American Institute of Chemical Engineers Biotechnol. Prog., 28: 1029–1036, 2012     

重组毕赤酵母生产β-葡萄糖苷酶发酵条件初步研究

为提高重组毕赤酵母(P.pastoris KM71/pPIC9K-bgl)生产β-葡萄糖苷酶的产量,在摇瓶条件下对重组P.pastoris产β-葡萄糖苷酶的发酵过程进行了优化,得到最佳的条件:生长阶段甘油浓度为30 g/L,接种量为10%,诱导阶段甲醇的初浓度为4%,过程补加甲醇0.5%,诱导温度30℃,pH7.5,诱导周期120 h,酶活可达到245 U/mL。在此基础上,在3 L发酵罐上进行初步放大,流加甘油提高细胞密度至OD_(600)为170,开始流加甲醇诱导,最终BGL酶活达到1 175 U/mL。比摇瓶提高了4.8倍,为β-葡萄糖苷酶工业化生产打下了坚实的基础。     

重组毕赤酵母产青霉素G酰化酶的分批发酵动力学研究

构建了重组毕赤酵母产青霉素G酰化酶的分批发酵动力学模型。实验考察了分批发酵过程中甘油消耗、甲醇浓度、菌体浓度、溶氧、补料时间对青霉素G酰化酶活力的影响。应用Matlab软件,对菌体生长、基质消耗和产物生成方程进行最优参数估算和非线性拟合,得到相应的动力学模型。模型的计算值与实验值能较好地拟合,表明所建模型能较好反映重组毕赤酵母产青霉素G酰化酶的分批发酵过程。     

High-level expression and stabilization of recombinant human chitinase produced in a continuous constitutive Pichia pastoris expression system

A continuous fermentation process has been developed in Pichia pastoris (P. pastoris) with the glyceraldehyde-3-phosphate dehydrogenase (GAP) promoter in order to produce large quantities of recombinant human chitinase (rh-chitinase) for preclinical studies as a potential high-dose antifungal drug. Expression levels of about 200 to 400 mg/L have been demonstrated in fed-batch fermentations using strains with either the traditional methanol-inducible or the constitutive GAP promoter. Proteolytic degradation of the enzyme was typically seen in fed-batch fermentations. Continuous production of the enzyme by P. pastoris with the GAP promoter was demonstrated in a 1.5-L working volume fermentor using either glucose or glycerol as the carbon source. The fermentation could be extended for >1 month with a steady-state protein concentration of approximately 300 mg/L. Cell densities were >400 g/L wet cell weight (WCW) (approximately 100 g/L dry cell weight [DCW]) at a dilution rate (D) of 0.83 day(-1) or 1.2 volume exchanges per day (VVD). No proteolytic degradation of the enzyme was seen in the continuous fermentation mode.     

人源性抗HBsAg Fab抗体的发酵生产研究

为了适应工业生产的需要,利用fed—batch方法,重组人源性抗HBsAg Fab抗体酵母工程菌在30L发酵罐中进行了高密度发酵,发酵最适温度30℃,pH值范围5．0～5．3,溶氧范围20％～30％。发酵液OD600值达到300时开始诱导,甲醇最佳诱导浓度为10mL／L。重组人源性抗HBsAg Fab抗体经离子交换层析纯化,纯化产品经SDS-PAGE、Western blot进行分析和ELISA方法进行活性测定。结果显示,重组Fab抗体在Fed-batch发酵系统中可高效表达,经过192h的发酵生产,重组人源性抗HBsAg Fab抗体的表达量可达412mg／L。发酵上清经过离子交换层析纯化,获得纯度为95％的重组Fab抗体,该Fab抗体经ELISA分析具有较高的HBsAg抗原亲和力和特异性。结果证实可以通过高密度发酵毕赤酵母工程菌来高效生产重组人源性抗HBsAg Fab抗体,为后续的工业化生产应用奠定了基础。     

毕赤酵母高效表达策略概述

毕赤酵母表达系统是外源蛋白表达的较为理想的系统,但是并不是所有蛋白都能利用此系统获得高效表达,不同来源的蛋白,其表达水平、生物活性和稳定性均存有明显差别。概述了影响毕赤酵母高效表达的主要因素以及外源蛋白在毕赤酵母中的高效表达策略。     

猪囊尾蚴疫苗候选基因TSO18在酵母中的高效表达

将猪带绦虫六钩蚴TSO18基因亚克隆至毕赤酵母分泌性表达载体pPIC9K,构建重组表达载体pPIC9K_TSO18,电转化毕赤酵母菌GS115,使重组表达载体与酵母染色体发生同源整合。采用G418抗性梯度法筛选得到多拷贝重组菌株,用甲醇进行诱导表达,并对表达产物进行SDS_PAGE和Western blot分析、脱糖基化分析、分子筛纯化和小鼠免疫接种等表明,目的蛋白得到了高效表达并进行了适度的糖基化,易于纯化且具有免疫活性。在5L发酵罐中目的蛋白表达量达到2.54mg/mL,为制备基因工程疫苗打下了坚实的基础。     

Emerging applications of the methylotrophic yeasts

Abstract The use of methylotrophic yeasts for the production of single-cell-protein (SCP), alcohol oxidase and fine chemicals has been proposed. Fermentation technology developed for the growth of these yeasts on methanol at high cell densities has been commercialized. However, it is the production of heterologous recombinant proteins by Pichia pastoris that is emerging as the most significant application of the methylotrophic yeasts.     

甲醇浓度对毕赤酵母表达重组人复合α干扰素分离纯化得率的影响

研究了毕赤酵母Pichia pastoris表达的重组人复合α干扰素(cIFN)时不同诱导甲醇浓度对cIFN分离纯化得率的影响,并分析了原因.在5L罐中采用0.25、0.50和0.75％(W/V)三个甲醇浓度诱导时,在0.75％高甲醇浓度诱导下cIFN表达水平最高,达到2.06 g/L,是0.25％低甲醇浓度诱导的1.24倍,但是低甲醇浓度诱导下cIFN分离纯化得率却高于高甲醇诱导浓度下3.75倍.另外,低甲醇浓度下发酵上清液cIFN抗病毒活性为2.85×108IU/mL,较高甲醇浓度提高了4.48倍.进一步采用SDS-PAGE和Native-PAGE免疫印迹分析不同条件下发酵液中cIFN存在状态,发现在高甲醇浓度下cIFN容易形成大量的聚合体,分别为共价聚合和非共价聚合,而cIFN单体含量较少,但是低甲醇浓度诱导下情况完全相反.最终在0.25％甲醇诱导下分离纯化1L发酵上清液可得0.73 g单体cIFN,是0.75％甲醇诱导下的3.84倍.