热稳定α-半乳糖苷酶基因在毕赤酵母中的分泌表达及酶学性质研究

克隆前期筛得分枝犁头霉Absidia ramosa WL511的热稳定α-半乳糖苷酶cDNA基因aga(GenBank No.DQ234280),将aga基因插入表达载体pPICZαA并电转化整合到毕赤酵母P.pastoris GS115的染色体上。30℃、甲醇流加量0.5%(V/V)时,酵母发酵上清液中酶活达32U/ml。纯化后酶的比活力为137U/mg,SDS-PAGE显示单一条带,凝胶过滤和SDS-PAGE估算其分子量分别为348kDa和87kDa,该酶为四聚体结构,糖基化导致重组蛋白的分子量比原酶大6kDa。该酶等电点为5.2,最适反应温度73℃,最适pH6.8,60℃以下及pH5.5～9.0范围内活性稳定。75℃时保温2小时保留54%的酶活,85℃时酶活完全消失。以对硝基苯酚-α-D-半乳糖苷为底物,该酶Km值为0.42mmol/Lol/L;Vmax为413U/mg;kcat为64531/min。     

共表达内质网响应蛋白HAC1对α-半乳糖苷酶在毕氏酵母中表达的影响

为提高毕氏酵母(Pichia pastoris)中重组α-半乳糖苷酶的表达,将来源于P.pastoris GS115的hac1基因构建至pPIC9K表达载体中,转化到重组P.pastoris中与α-半乳糖苷酶共表达。研究结果表明,在AOX1启动子控制下,HAC1过表达提高了重组P.pastoris中α-半乳糖苷酶蛋白表达含量,使α-半乳糖苷酶活性提高了2.2倍。经PCR产物鉴定,结果表明重组P.pastoris基因组中插入hac1基因。经50 L发酵罐甲醇诱导168 h,Gal-HAC1-4#工程菌最终酶活达到6 560 U/mL,比Gal-21#工程菌提高了27%。甲醇诱导后Gal-HAC1-4#发酵液中粗蛋白浓度均高于Gal-21#工程菌。表明共表达HAC1蛋白可提高毕氏酵母产α-半乳糖苷酶蛋白的能力。     

诺卡氏菌腈水合酶基因在重组毕赤酵母中的表达

为从基因水平上改造腈水合酶,进行了诺卡氏菌腈水合酶基因的外源表达研究。在重组大肠杆菌表达系统内,腈水合酶的α亚基几乎不能正常表达,在重组E. coli BL21(DE3) (pET32aNHBAX)中,腈水合酶活性仅为0.04U/mg。构建重组毕赤酵母表达质粒pPIC3.5kNHBAX,采用电穿孔转化法将其转入宿主菌P. pastoris GS115中,经过菌株培养和腈水合酶的诱导表达,筛选获得了优选菌株P. pastoris NH4。对P. pastoris NH4的细胞培养和腈水合酶的诱导表达条件进行优化,结果表明,重组腈水合酶在毕赤酵母中的表达水平可以达到0.52U/mg,但不能稳定积累。     

嗜热毛壳菌热稳定脂肪酶基因(Im)的克隆及其在毕赤酵母中的表达

研究从嗜热毛壳菌Chaetomium thermophilum中克隆了一个新的脂肪酶基因(lm).其中DNA序列包含一个由870个碱基构成的开放阅读框,编码289个氨基酸,含有4个内含子,没有信号肽序列.序列提交GenBank,登录号为GU338248.将该基因在毕赤酵母中表达.在甲醇的诱导下,重组蛋白得到了高效表达,第6天的表达量最高,蛋白达到0.428mg/mL,酶活力为19.77U/mg.SDS-PAGE检测该蛋白的分子量为35kDa.该脂肪酶的最适反应温度为60℃,具有热稳定性,在40-80℃热稳定,80℃处理60min仍有65％的相对酶活.该酶最适反应pH值为10.0,在pH 9.0--12.0酶活相对稳定.该酶具有较好的热稳定性和耐碱性,具有良好的工业应用价值.     

高密度发酵P.pastoris诱导表达葡聚糖外切酶

目的:应用P.pastoris的pAOX1表达系统表达CBH Ⅱ酶.方法:PCR法扩增木霉的cbh Ⅱ基因.将其克隆进P.pastoris表达载体pPIC9k,电转法将其cbhⅡ基因重组于P.pastoris基因组,筛选高G418抗性的克隆为工程菌.重组CBH Ⅱ酶的生产是在50 L生物反应器中进行.连续24h补加甘油-PTM4增殖细胞,然后用甲醇诱导表达64h.结果:放罐时生物量为A600=180,重组CBHⅡ产量为80mg/L.表达产物具有酶解羧甲基纤维素的活性.结论:实现应用pAOX1表达系统在生物反应器中高密度发酵P.pastoris诱导表达CBH Ⅱ.该研究为重组CBH Ⅱ的规模化生产打下基础.     

长梗木霉内切葡聚糖酶Ⅰ基因的克隆及其在毕赤酵母中的表达

一株纤维素酶高产菌株经ITS序列鉴定并命名为长梗木霉SSL(Trichoderma longi-brachiatum,SSL).利用RT-PCR的方法从该菌株中克隆出内切-1-4-β-D-葡聚糖酶Ⅰ的基因(eg1),该基因全长1386 bp,编码461个氨基酸.序列分析表明:该基因序列与T. longibrachiatum egl1基因具有90%以上的同源性.将该基因的成熟肽编码序列插入到Pichiapastoris表达载体pPIC9k中,构建重组表达质粒pPIC9k-eg1,转化P.pastoris GS115.重组P.pastoris菌株,经甲醇诱导后,胞外重组内切葡聚糖酶Ⅰ的活力达73 U/mL.SDS-PAGE中出现一条明显加强的蛋白质条带,其分子量大约为58 kD.     

内生多粘芽孢杆菌EJS-3纤溶酶基因在毕赤氏酵母中的表达

以自构建的重组质粒pET-DsbA/PPFE-I为模板,扩增内生多粘芽孢杆菌纤溶酶基因PPFE-I,构建Pichia pastoris表达载体pPICZαA/PPFE-I,通过电击转化,pPICZαA/PPFE-I 被整合到Pichia pastoris SMD1168基因组中,抗性筛选得到的阳性转化子,用终浓度为1%甲醇诱导72 h,酶活达到286 IU/ml,是野生菌的2.6倍,表达产物用SDS-PAGE进行分析,在相对分子质量63 kDa处出现明显的蛋白条带,降解人血纤维蛋白试验中rPPFE-I最先降解人血纤维蛋白原的α链,其次是β链,而对γ链降解最缓慢。实现了多粘类芽孢杆菌纤溶酶基因在毕赤酵母中的表达,为植物内生菌来源溶栓药物的开发提供了新的途径。     

用P. pastoris的pAOX1表达系统表达木糖异构酶

目的:应用P. pastoris的pAOX1表达系统分泌表达重组木糖异构酶.方法:用PCR法从大肠杆菌基因组中扩增木糖异构酶基因(xi).用EcoRⅠ和NotⅠ双酶切将其基因克隆进P. pastoris表达载体.通过电转法将其木糖异构酶基因重组于P. pastoris基因组,筛选G418抗性700μg/ml的重组子作为工程菌GS115(pPIC9K-xi).在摇瓶中发酵用甲醇诱导表达重组木糖异构酶.用SDS-PAGE分析重组蛋白的表达情况,用糖酵解法对表达产物进行活性分析.结果:木糖异构酶基因在pAOX1的调控下,在P. pastoris中经甲醇诱导能分泌表达,摇瓶发酵2d表达量为35mg/L,表达产物具有代谢木糖的作用.结论:成功地克隆了大肠杆菌的木糖异构酶基因,并实现用pAOX1系统在P. pastoris中表达中木糖异构酶,为用P. pastoris规模化生产重组木糖异构酶奠定了基础.     

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...     

黑曲霉阿魏酸酯酶基因密码子优化及在毕赤酵母中的高效表达

【目的】对黑曲霉(Aspergillus niger)阿魏酸酯酶基因进行克隆和密码子优化,使其在毕赤酵母(Pichia pastoris X-33)中高效表达。【方法】以黑曲霉基因组为模板,经重叠延伸PCR扩增得到阿魏酸酯酶基因(Anfae A),并对Anfae A基因进行毕赤酵母密码子偏好性"随机优化"和"一对一优化",全基因合成后分别与表达载体pPICZαA连接,构建表达载体pPICZαA-Anfae A、pPICZαA-op Anfae A I和pPICZαA-op Anfae A II。经Sac I线性化后电转化至P.pastoris X-33中,筛选阳性转化子。摇瓶发酵4.5 d后,测定并比较重组阿魏酸酯酶(re Anfae A)酶活。【结果】密码子优化前阿魏酸酯酶酶活为6.8±0.1 U/m L,基因"一对一优化"和"随机优化"后的重组酶酶活分别为5.2±0.1 U/m L和39.9±0.1 U/m L,"随机优化"后酶活比优化前提高了近6倍,而"一对一优化"后酶活仅为优化前酶活的76.5%。重组阿魏酸酯酶的最适p H为5.5,且在pH 4.5-7.0稳定性较好;最适反应温度50°C,在45-50°C较稳定。【结论】阿魏酸酯酶基因经密码子"随机优化"后进行重组表达,酶活显著提高,对研究阿魏酸酯酶在毕赤酵母及其它宿主中的高效表达具有一定的借鉴意义,也为大规模工业化应用奠定了基础。     

Characterization of Trichoderma reesei endoglucanase ii expressed heterologously in Pichia pastoris for better biofinishing and biostoning

The endoglucanase II of Trichoderma reesei is considered the most effective enzyme for biofinishing cotton fabrics and biostoning denim garments. However, the commercially available preparation of endoglucanase II is usually mixed with other cellulase components, especially endoglucanase I, resulting in hydrolysis and weight loss of garments during biofinishing and biostoning. We thus isolated the endoglucanase II gene from T. reesei to express this in Pichia pastoris, under the control of a methanol-inducible AOX1 promoter, to avoid the presence of other cellulase components. A highly expressible Mut(+) transformant was selected and its expression in BMMH medium was found most suitable for the production of large amounts of the recombinant protein. Recombinant endoglucanase II was purified to electrophoretic homogeneity, and functionally characterized by activity staining. The specific activity of recombinant endoglucanase II was found to be 220.57 EU/mg of protein. Purified recombinant endoglucanase II was estimated to have a molecular mass of 52.8 kDa. The increase in molecular mass was likely due to hyperglycosylation. Hyperglycosylation of recombinant endoglucanase II secreted by P. pastoris did not change the temperature or pH optima as compared to the native protein, but did result in increased thermostability. Kinetic analysis showed that recombinant endoglucanase was most active against amorphous cellulose, such as carboxymethyl cellulose, for which it also had a high affinity.     

嗜热毛壳菌CT2纤维二糖水解酶Ⅰ在毕赤酵母中的高效表达

嗜热毛壳菌ChaetomiumthermophilumCT2可产生具有重要工业生产价值的纤维素酶类。RT-PCR扩增cbh1成熟蛋白的编码基因,利用基因重组的方法构建可在毕赤酵母分泌表达系统中表达纤维二糖水解酶的重组表达载体,并转化毕赤酵母得到重组子。在毕赤酵母醇氧化酶AOX1基因启动子的作用下,重组蛋白得到高效表达,小规模发酵量达1.42mg/mL。表达蛋白分泌到培养基中,分子量约80kD;以脱脂棉为底物测得酶活为21U/mL。表达蛋白在60℃稳定,70℃保温60分钟仍保持90%的酶活力,具有较高的热稳定性。     

巴曲酶在毕赤酵母中的高效表达

目的研究巴曲酶在毕赤酵母菌中的表达。方法按Pichiapastoris偏好密码子人工合成巴曲酶全基因,克隆到酵母分泌型表达载体pPICZaA中,将重组载体酶切线性化后经电转化转入X-33。筛选鉴定转化子．经摇瓶发酵甲醇诱导,酵母菌分泌表达有凝血活性的巴曲酶。经SDS-PAGE电泳确定其分子量为33．0 kDa．免疫印迹证明重组巴曲酶具有天然巴曲酶的免疫活性。结果经发酵条件的优化．发酵罐的表达量达到25000Ku／L发酵液。从每升发酵液中可纯化出11．0mg重组巴曲酶。结论巴曲酶毕氏酵母菌成功的构建．为重组巴曲酶止血药的开发奠定了基础。     

Large-scale production,purification, and characterisation of recombinant Phaseolus vulgaris phytohemagglutinin E-form expressed in the methylotrophic yeast Pichia pastoris

The kidney bean lectin Phaseolus vulgaris phytohemagglutinin E-form (PHA-E) was expressed and secreted by the methylotrophic yeast Pichia pastoris. To optimise yields of PHA-E, transformants of P. pastoris were selected for high-level production of the recombinant protein. A scaleable process for the production and purification of gram quantities of recombinant PHA-E is reported. PHA-E was secreted at approximately 100 mg/L at the 2- and 200-L scale and was purified to 95% homogeneity in a single step using cation-exchange chromatography. The purified recombinant PHA-E consists of four forms with molecular masses between 28.5 and 31.5 kDa, as assessed by MALDI-TOF, whereas its native counterpart has a molecular mass of approximately 30.5 kDa. Endoglycosidase treatment revealed that the range in size of the recombinant protein was attributed to differences in the nature of the N-linked oligosaccharides bound to the protein. The primary amino acid sequence of the recombinant PHA-E was found to be identical to the native protein and to have an agglutination activity similar to that of native PHA-E. The data presented here suggest that, using P. pastoris, gram quantities of a recombinant phytohemagglutinin E-form can be produced and that the recombinant protein is similar to the protein synthesised in plants with respect to structure and biological activity.     

高温α-淀粉酶基因突变体在大肠杆菌、毕赤酵母中的表达

对地衣芽孢杆菌(Bacillus licheniformis)高温α-淀粉酶(amyE)基因进行改造获得的基因突变体(amyEM),通过PCR扩增,将此基因分别克隆至大肠杆菌表达载体pBV220和毕赤酵母表达载体pPIC9K上,并分别转化大肠杆菌DH5α和毕赤酵母GS115感受态细胞,获得重组大肠杆菌和重组毕赤酵母。通过表达产物的酶活性检测和SDS-PAGE分析,证明突变α-淀粉酶(AmyEM)在大肠杆菌、毕赤酵母中获得有效表达。对重组大肠杆菌产生的α-淀粉酶的粗酶性质分析表明,此酶分子量约为55kDa。其最适反应温度为80℃~90℃,与野生型基因相比,其最适pH均为6.0,但不同的是突变体在pH 5.0~5.5时表现出较高的酶活力;在毕赤酵母细胞的表达产物可分泌至胞外。由于酵母可对蛋白进行糖基化,酶分子量增加到60kDa,最适pH也改变为5.5。此高温α-淀粉酶突变体所具有的在微酸性环境具有较高酶活力的性质,具有重要的潜在工业应用价值。     

Expression and Antigenic Characterization of the Epitope-G1 of the Bovine Ephemeral Fever Virus Glycoprotein in Pichia pastoris

The epitope-G1 gene of Bovine ephemeral fever virus(BEFV) glycoprotein was synthesised by PCR and cloned into expression vector pPIC9K to construct recombinant plasmid pPIC9K-G1.Then the pPIC9K-G1 was linearized and transformed into Pichia pastoris GS115.The recombinant P.pastoris strains were selected by a G418 transformation screen and confirmed by PCR.After being induced with methanol,an expressed protein with 26 kDa molecular weight was obtained,which was much bigger than the predicted size(15.54 kDa).Deglycosylation analysis indicated the recombinant G1 was glycosylated.Western blot and ELISA tests,as well as rabbit immunization and specificity experiments indicated that the target protein had both higher reaction activity and higher immunocompetence and specificity.The recombinant G1 protein could be used as a coating antigen to develop an ELISA kit for bovine ephemeral fever diagnosis.     

Expression of glycosylated haloalkane dehalogenase LinB in Pichia pastoris

Heterologous expression of the bacterial enzyme haloalkane dehalogenase LinB from Sphingomonas paucimobilis UT26 in methylotrophic yeast Pichia pastoris is reported. The haloalkane dehalogenase gene linB was subcloned into the pPICZalphaA vector and integrated into the genome of P. pastoris. The recombinant LinB secreted from the yeast was purified to homogeneity and biochemically characterized. The deglycosylation experiment and mass spectrometry measurements showed that the recombinant LinB expressed in P. pastoris is glycosylated with a 2.8 kDa size of high mannose core. The specific activity of the glycosylated LinB was 15.6 +/- 3.7 micromol/min/mg of protein with 1,2-dibromoethane and 1.86 +/- 0.36 micromol/min/mg of protein with 1-chlorobutane. Activity and solution structure of the protein produced in P. pastoris is comparable with that of recombinant LinB expressed in Escherichia coli. The melting temperature determined by the circular dichroism (41.7+/-0.3 degrees C for LinB expressed in P. pastoris and 41.8 +/- 0.3 degrees C expressed in E. coli) and thermal stability measured by specific activity to 1-chlorobutane were also similar for two enzymes. Our results show that LinB can be extracellularly expressed in eukaryotic cell and glycosylation had no effect on activity, protein fold and thermal stability of LinB.     

黄瓜膨胀素的重组表达及活性分析

目的:提高纤维素的酶水解效率和开发高效的纤维素酶水解过程。方法:采用RT-PCR方法从黄瓜胚轴细胞中分离了膨胀素S1的cDNA,并使之与毕赤酵母表达质粒pPICZ(A连接,形成重组质粒pPICZ(A-exs1。通过电转化方法,用质粒pPICZ(A-exs1转化巴氏毕赤酵母GS115,得到重组菌株P.pastoris-exs1。在该重组菌株中,膨胀素的基因通过同源重组整合在毕赤酵母的染色体上,并处于毕赤酵母甲醇氧化酶启动子的下游。重组菌株P.pastoris-exs1在甲醇诱导下可合成并分泌膨胀素。结果:培养上清液没有纤维素酶活性,但具有破坏滤纸纤维素结晶结构的能力。培养上清液与里氏木霉纤维素酶等量混合后,可使纤维素酶的滤纸酶活力提高50%。结论:采用巴氏毕赤酵母GS115重组成功表达了黄瓜膨胀素,其表达产物可以促进纤维素酶对滤纸的水解。     

Purification and characterization of keratinase from recombinant Pichia and Bacillus strains

The keratinase gene from Bacillus licheniformis MKU3 was cloned and successfully expressed in Bacillus megaterium MS941 as well as in Pichia pastoris X33. Compared with parent strain, the recombinant B. megaterium produced 3-fold increased level of keratinase while the recombinant P. pastoris strain had produced 2.9-fold increased level of keratinase. The keratinases from recombinant P. pastoris (pPZK3) and B. megaterium MS941 (pWAK3) were purified to 67.7- and 85.1-folds, respectively, through affinity chromatography. The purified keratinases had the specific activity of 365.7 and 1277.7 U/mg, respectively. Recombinant keratinase from B. megaterium was a monomeric protein with an apparent molecular mass of 30 kDa which was appropriately glycosylated in P. pastoris to have a molecular mass of 39 kDa. The keratinases from both recombinant strains had similar properties such as temperature and pH optimum for activity, and sensitivity to various metal ions, additives and inhibitors. There was considerable enzyme stability due to its glycosylation in yeast system. At pH 11 the glycosylated keratinase retained 95% of activity and 75% of its activity at 80 degrees C. The purified keratinase hydrolyzed a broad range of substrates and displayed effective degradation of keratin substrates. The K(m) and V(max) of the keratinase for the substrate N-succinyl-Ala-Ala-Pro-Phe-pNA was found to be 0.201 mM and 61.09 U/s, respectively. Stability in the presence of detergents, surfactants, metal ions and solvents make this keratinase suitable for industrial processes.     

产外切葡聚糖酶真菌的筛选鉴定及毕赤酵母中的表达

【目的】外切葡聚糖酶是纤维素酶组分中一类对结晶纤维素有降解作用的酶类,如何提高外切葡聚糖酶活力是研究的关键问题。【方法】从筛选鉴定得到的一株产外切葡聚糖酶酶活较高的黑曲霉Asp-524菌株出发,通过PCR技术克隆得到外切葡聚糖酶基因序列,生物学信息分析后,构建了毕赤酵母诱导型表达载体,实现了该基因在毕赤酵母中的成功表达。【结果】抗性筛选得到的阳性转化子,用终浓度为1%甲醇诱导5 d后,酶活达到4.74 U/mL。酶学性质分析显示重组外切葡聚糖酶最适pH为5.0,pH稳定性分析显示在pH为4.0-6.0范围内相对稳定,酶活能保持在最高酶活力的80%以上,最适反应温度为50°C,经60°C保温1 h后,酶活仍能保持80%以上。【结论】结果说明该外切葡聚糖酶具有较好的热稳定性和pH稳定性,这一研究为纤维素酶的实际应用奠定了一定基础。