毕赤酵母组成型表达脂肪酶及其高通量筛选方法

【目的】获得组成型表达脂肪酶毕赤酵母,建立利用橄榄油罗丹明B平板高通量筛选组成型表达华根霉脂肪酶基因的有效方法。【方法】运用PCR技术从pGAPZαA表达载体上扩增得到GAP启动子片段,插入到表达载体pPIC9K-proRCL中,构建组成型表达载体pGAPK-proRCL。在保留含有同源双交换重组序列的诱导型启动子AOX1序列的基础上,电转化后华根霉Rhizopus chinensis CCTCC M201021脂肪酶基因proRCL表达盒在毕赤酵母基因组上发生双交换整合事件,从而组成型表达单拷贝的华根霉脂肪酶基因。【结果】重组菌发酵144 h后,脂肪酶最高酶活为130 U/mL。利用橄榄油罗丹明B平板高通量筛选组成型表达华根霉脂肪酶基因。【结论】该方法将初筛时间从12 d缩短为3 d,排除了多拷贝突变株的干扰,为后续脂肪酶的定向进化及筛选奠定了基础。     

多拷贝毕赤酵母重组菌表达GCL摇瓶优化和高密度发酵

目的:构建高效表达白地霉脂肪酶的毕赤酵母重组菌株,并对筛选得到的菌株进行摇瓶发酵条件优化和分批补料高密度发酵工艺研究。方法:将诱导型表达载体pPIC9K-gcl电转化至毕赤酵母GS115。通过橄榄油-罗丹明B平板和摇瓶发酵筛选高脂肪酶活力的重组菌株,运用基于TaqMan探针的实时荧光定量PCR 法确定其拷贝数,并对菌株进行摇瓶发酵条件优化。在此基础上,研究重组菌在3L 发酵罐中的高密度发酵工艺。结果:筛选得到一株具有3 个白地霉脂肪酶基因拷贝的菌株GS115/pPIC9K-gcl 78#,初始酶活力为220 U/ml。当摇瓶发酵条件为甲醇诱导96 h,每24 h甲醇添加量1 %,接种量2 %,培养基初始pH 7.0,500 ml摇瓶装液量50 ml,甲醇诱导温度25℃ 时酶活力达735 U/ml。3L 发酵罐高密度发酵176.5 h,酶活力达到3360 U/ml,总蛋白含量达到4.30 g/L,且发酵过程中细胞活性一直保持在96 % 以上。结论:基因拷贝数与重组菌株的产酶水平呈正相关,摇瓶优化可显著提高重组菌株的产酶能力,为白地霉脂肪酶的工业化生产奠定了技术基础。     

费希尔曲霉脂肪酶在毕赤酵母中的优化表达及高密度发酵

【背景】脂肪酶广泛应用于纺织、食品、药品、皮革等工业领域,其在微生物中的异源表达研究进一步促进了脂肪酶产品的生产和应用。【目的】实现来源于费希尔曲霉的脂肪酶在毕赤酵母中的高效异源表达,探究其合适的表达及发酵条件,提高产量,降低成本。【方法】对费希尔曲霉的脂肪酶编码基因进行密码子优化后,应用pPIC9k质粒整合到毕赤酵母GS115基因组上,构建高产脂肪酶Lip605的毕赤酵母工程菌;并通过响应面发酵条件优化、筛选最适伴侣蛋白和高密度发酵相结合的方法,综合提高脂肪酶表达量。【结果】确定高产脂肪酶毕赤酵母工程菌的最优摇瓶发酵产酶条件为:甲醇3.103%(体积比),生物素0.4 mg/L,酵母粉11.5 g/L,酵母基础氮源培养基(yeast nitrogen base,YNB) 13.4 g/L,初始pH 6.4,装液量50 mL/250 mL,转速220 r/min,温度24°C,培养时间40 h。优化后的胞外脂肪酶酶活达到72.34 U/mL,较优化前提高了5.8倍;进一步选择12个伴侣蛋白分别与脂肪酶Lip605进行共表达,其中共表达伴侣蛋白Rpl10(pPICZA-RPL10)效果最佳,可使Lip605表达量进一步提高46.8%;在此基础上,经过10 L发酵罐分批补料的高密度发酵,工程菌株发酵142 h,胞外脂肪酶酶活最高达到680 U/mL,蛋白浓度为15.89 g/L。【结论】应用复合策略有效提高了脂肪酶Lip605在毕赤酵母中的发酵产量,为其进一步工业化生产奠定了良好的基础。     

华根霉液态培养生产脂肪酶不同形态菌体的转录组差异分析

【背景】作为发酵工业中一类重要的生产菌株,丝状真菌目的产物的形成与菌体形态有着紧密的联系。华根霉(Rhizopus chinensis)CCTCC M201021是从我国传统酿造浓香型白酒大曲中筛选到的一株丝状真菌,其生成的包括脂肪酶在内的酶蛋白具有较高的工业应用价值。【目的】华根霉(Rhizopus chinensis)CCTCC M201021在脂肪酶液态发酵中形成两种不同形态菌体,发酵表现差异明显。本研究考察华根霉不同菌体形态及其细胞代谢在转录组水平的内在差异。【方法】基于RNA-Seq高通量转录组测序,分别对液态培养获得的不同形态华根霉菌体高表达和显著差异表达的转录基因进行功能分析。【结果】两种形态菌体转录组存在明显的差异。利用RPKM值对表达量最高的前20个基因进行分析,聚集态菌体高表达基因主要为不同类别的核糖体蛋白,而分散态菌体中与细胞形态相关的几丁质酶及与信号传导相关的基因也是高表达基因。在两种形态菌体显著差异表达的20个基因中,除了涉及代谢的基因有明显不同外,分散态菌体中也有一些涉及"细胞过程与信号"的基因上调表达显著。两种形态菌体中独有表达基因总体表达量均较低,但聚集态菌体独有表达基因在基因种类和表达量上都要明显高于分散态菌体。同时,转录分析表明,华根霉脂肪酶在聚集菌体中较高的生产水平与脂肪酶基因的高水平转录有关。【结论】菌体形态的差异显著影响了华根霉的转录组,不仅不同形态菌体高表达基因和显著差异表达基因有明显不同,而且功能相同的蛋白在不同菌体形态下也多是由不同基因表达,它们可能承担着不同的作用。总体而言,华根霉聚集态菌体中存在更为复杂的生理过程,而分散菌体中受到信号的传导和调控似乎更多。菌体形态的改变可能是细胞分化的结果,伴随着菌体对细胞微环境改变的一种响应。研究结果为深入了解丝状真菌形态分化的内在机制及其影响提供了一些线索。     

里氏木霉Cel5A基因优化及其在毕赤酵母中的高效表达

内切纤维素酶Cel5A缺乏是限制纤维素酶制剂高效酶解天然纤维素的关键因素。本文尝试构建高效表达里氏木霉Cel5A的毕赤酵母重组菌株以弥补目前Cel5A的天然分泌不足,通过基因密码子偏好性优化里氏木霉Cel5A基因和构建表达载体p PIC9K-eg2,并将其电转入毕赤酵母GS115以构建重组子,利用浓度梯度平板和摇瓶发酵筛选获得一株高产毕赤酵母Pichia pastoris菌株GS115-EGⅡ。重组酶的酶学性质分析显示,该酶分子量50 k Da、最适p H(p H 4.5)略有降低及最适反应温度为60℃,专一性地作用于非结晶纤维素,与天然里氏木霉Cel5A并无明显区别。通过摇瓶发酵的初步优化,该菌摇瓶培养条件:培养温度28℃、起始p H 5.0、接种量2%、每24 h添加甲醇1.5%(V/V)、每24 h添加山梨醇4 g/L及吐温80添加4 g/L,发酵192 h重组酶酶活达到24.0 U/m L。进一步上罐(5 L)发酵180 h,该重组酶Cel5A酶活高达270.9 U/m L,蛋白含量达到4.16 g/L。重组毕赤酵母P.pastoris GS115-EGⅡ是一株适合于外源表达Cel5A的工程菌,该重组酶可替代天然分泌Cel5A适用于当前酶基生物炼制模式下木质纤维素基质高效水解中。     

米根霉利用纯糖和不同预处理玉米秸秆酶解糖生产L-乳酸

通过单因素实验设计,优化米根霉摇瓶发酵产L-乳酸。在此基础上,以蒸气爆破和碱处理玉米秸秆酶解液为混合C源,与纯糖对比,研究不同预处理玉米秸秆混合C源对米根霉发酵产L-乳酸的影响。结果显示:在初始葡萄糖质量浓度100g/L、(NH4)2SO4质量浓度2g/L、接种量6%(体积分数)、转速170r/min、发酵12h后添加30g/LCaCO3的条件下,米根霉发酵产L-乳酸质量浓度为69.15g/L。米根霉发酵不同预处理玉米秸秆酶解混合C源,木糖的存在影响了米根霉的C代谢网络,降低L乳酸的产量。     

华根霉脂肪酶在黑曲霉中的重组表达研究

将华根霉脂肪酶基因RCL在黑曲霉中进行了重组表达。通过PCR技术分别获得黑曲霉Pgpd启动子和RCL-Ttrp C融合片段并克隆至质粒p CHAMBIA230,构建出RCL超表达载体p CHAMBIA2302∷Pgpd-RCL-Ttrp C。将该载体通过冻融法转化农杆菌EHA105,进而通过农杆菌介导转化法转化黑曲霉,随机挑选7株转化子,进行PCR和Southern杂交鉴定,均为阳性。对这7株转化子进行发酵和脂肪酶活力测定,结果显示,所有转化子均能表达RCL,其中T6转化子的脂肪酶活力最高,达到71 U/m L。SDS-PAGE分析表明,重组表达的RCL的分子量约为37 k D。     

产脂肪酶重组枯草芽胞杆菌的发酵优化

笔者所在实验室前期筛选到1株产脂肪酶粘质沙雷氏菌,克隆其脂肪酶基因,构建重组枯草芽胞杆菌Bacillus subtilis 168/pMA5-lipA,成功实现了来源于粘质沙雷氏菌的脂肪酶基因在枯草芽胞杆菌中的表达。基于以上工作基础上,对B.subtilis 168/pMA5-lipA进行了摇瓶水平上的产酶发酵优化。首先通过单因素和正交试验确定了有利于产脂肪酶的最佳培养基成分,并对发酵条件进行了优化。结果表明:优化后的培养基组分为蔗糖35 g/L,玉米浆27.5 g/L,(NH4)2SO41.25 g/L,CaCl24 g/L,pH 7.0。在最优发酵培养基的条件下,37℃、160 r/min摇床培养33 h,每毫升发酵液中重组菌脂肪酶酶活可达98.6 U,是优化前的3倍。     

华根霉前导肽和成熟肽脂肪酶基因的克隆表达及性质研究

以华根霉(Rhizopus chinensis CCTCCM201021)为出发菌株,提取总DNA,PCR扩增出前导肽脂肪酶基因(proRCL)及成熟肽脂肪酶基因(mRCL),克隆到原核载体pET-28a,转化E-coli BL21(DE3),诱导表达并纯化出活性目的蛋白.经SDS-PAGE分析,重组蛋白ProRCL和MRCL的分子量分别约43 kD和33 kD.两重组脂肪酶主要酶学性质基本相似,最适反应温度均为35℃,40℃下较为稳定;最适反应pH相近,分别为8.0和8.5;以pNP脂肪酸酯为底物,均对短链脂肪酸酯底物特异性较高.MPCL上述性质与野生型RCL基本一致.研究结果表明,通过条件控制可以利用E.coli表达系统表达具有活性的华根霉前导肽脂肪酶ProRCL和成熟肽脂肪酶MRCL.与米根霉脂肪酶(ROL)不同,前导序列对华根霉脂肪酶的主要酶学特性没有显著影响.     

玉米赤霉烯酮降解酶多拷贝毕赤酵母菌株的构建及高效表达

通过密码子优化、体外多拷贝构建实现玉米赤霉烯酮(Zearalenone,ZEN)降解酶基因(zlhy-6)在毕赤酵母GS115菌株中的高效表达。按酵母密码子偏好性优化zlhy-6基因的密码子,与α因子信号肽编码序列一起合成,插入到pAO815质粒中,通过酶切酶连构建含1–6个表达盒的表达质粒,将其转入毕赤酵母GS115菌中,获得ZEN降解酶重组菌株。重组蛋白分子量为28.9 kDa,与预期一致。重组菌用甲醇诱导3 d,蛋白浓度达最高,之后下降;在pH 5.0、4.5条件下诱导培养,表达量最高;每天添加0.8%的甲醇、接种量10%表达水平最高;4拷贝的转化子表达水平最高,三角瓶发酵3 d,酶活性达到10 U/mL。在1 g玉米渣中添加0.1–0.5 mL发酵上清液,水解24 h,玉米渣中ZEN的降解率为44.08%–75.51%。研究结果为ZEN降解酶工业生产及在食品饲料中的应用奠定了基础。     

Efficient secretion of lipase r27RCL in Pichia pastoris by enhancing the disulfide bond formation pathway in the endoplasmic reticulum

The lipase r27RCL from Rhizopus chinensis CCTCC M201021 was heterologously expressed in Pichia pastoris GS115 by simultaneous co-expression with two secretion factors ERO1p and PDI involved in the endoplasmic reticulum (ER). Compared to the expression of the lipase alone (12,500 U/ml), co-expression with these two proteins resulted in the production of larger total quantities of enzymes. The largest increase was seen when the combined ERO1p/PDI system was co-expressed, resulting in approximately 30 % higher enzyme yields (16,200 U/ml) than in the absence of co-expressed secretion factors. The extracellular protein concentration of the recombinant strain Co XY RCL-5 reached 9.39 g/l in the 7-l fermentor. Simultaneously, the fermentation time was also shortened by about 8 h compared to that of the control. The substrate-specific consumption rate (Qs) and the product-specific production rate (Qp) were both investigated in this research. In conclusion, the space–time yield was improved by co-expression with ERO1p and PDI. This is a potential strategy for high level expression of other heterologous proteins in P. pastoris.     

High yield <Emphasis Type="Italic">Rhizopus chinenisis</Emphasis> prolipase production in <Emphasis Type="Italic">Pichia pastoris</Emphasis>: Impact of methanol concentration

Rhizopus lipases have been successfully expressed in Pichia pastors and different fermentation strategies have been investigated. However, there is no sufficient study on the effects of methanol concentration on the production of Rhizopus lipases in P. pastors. In this study, the lipase from Rhizopus chinensis CCTCC M20102 was expressed under different fed-batch fermentation conditions at methanol concentrations ranging from 0.5 to 3.5 g/L. The lipase activity, stability, and productivities were analyzed. The optimum methanol concentration was 1 g/L, with the highest lipase activity of 2,130 U/mL, without degradation. Additional information was obtained from the analysis of methanol consumption and production rates. The results also suggested that the cell concentration at the end of the glycerol fed-batch phase was very important for cell viability and protease activity.     

Functional expression of FIP-fve,a fungal immunomodulatory protein from the edible mushroom Flammulina velutipes in Pichia pastoris GS115

FIP-fve is a bioactive protein isolated from the mushroom Flammulina velutipes, which belongs to the fungal immunomodulatory protein (FIP) family and demonstrates several kinds of biological activities including anti-allergy, anti-tumor and immunomodulation. In the current study, the FIP-fve gene was cloned and expressed in the yeast Pichia pastoris GS115, and its correctness was confirmed by SDS-PAGE and Western blot. Optimal expression of rFIP-fve was observed when the P. pastoris cells were cultured in 1% methanol for 96 h, which resulted in a yield of 258.2 mg l⁻¹. The rFIP-fve protein was subsequently purified via ammonium sulfate precipitation and Sephadex G-100 gel chromatography. In vitro bioactivity examination showed that rFIP-fve could agglutinate human red blood cells and stimulate the cell viability of murine splenocytes. The immunomodulatory capacity and anti-tumor activity of rFIP-fve were demonstrated by enhanced interleukin-2 secretion and interferon-γ release from the murine lymphocytes, similar to the biological FIP-fve. In conclusion, the FIP-fve gene was functionally and effectively expressed in P. pastoris, and rFIP-fve displayed biological activities similar to those of native FIP-fve. These results indicated the potential use of rFIP-fve from P. pastoris as an effective and feasible source for therapeutic studies and medical applications.     

Impact of NH4+ nitrogen source on the production of Rhizopus oryzae lipase in Pichia pastoris

BackgroundPichia pastoris is a highly successful system for heterologous expression. During the induction stage, the ammonium ion released into the fermentation broth has a deep impact on cell growth and protein expression. The impact of NH₄⁺ concentration on the expression of the Rhizopus oryzae lipase proAROL in P. pastoris was investigated.ResultsThe lipase activity under the optimum NH₄⁺ concentration of 440 mmol/L reached 12,019 U/mL. Increased concentrations of NH₄⁺ in the broth prevented the protease production, resulting in higher specific lipase activity in the supernatant. Furthermore, analysis of carbon metabolism and energy regeneration pattern revealed that under the definite NH₄⁺ concentrations more carbon source (methanol) was consumed with surged AOX activity and then the higher energy and amino acid precursors demand for recombinant protein synthesis is compensated for by the TCA cycle.ConclusionsIn this study, the R. oryzae lipase activity reaches the highest level ever reported under optimized NH₄⁺ concentration and the analysis of the carbon metabolism provides useful information for future optimization of protein production by P. pastoris in a molecular level.     

Novel Strategy of Using Methyl Esters as Slow Release Methanol Source during Lipase Expression by mut+ Pichia pastoris X33

One of the major issues with heterologous production of proteins in Pichia pastoris X33 under AOX1 promoter is repeated methanol induction. To obviate repeated methanol induction, methyl esters were used as a slow release source of methanol in lipase expressing mut⁺ recombinant. Experimental design was based on the strategy that in presence of lipase, methyl esters can be hydrolysed to release their products as methanol and fatty acid. Hence, upon break down of methyl esters by lipase, first methanol will be used as a carbon source and inducer. Then P. pastoris can switch over to fatty acid as a carbon source for multiplication and biomass maintenance till further induction by methyl esters. We validated this strategy using recombinant P. pastoris expressing Lip A, Lip C from Trichosporon asahii and Lip11 from Yarrowia lipolytica. We found that the optimum lipase yield under repeated methanol induction after 120 h was 32866 U/L, 28271 U/L and 21978 U/L for Lip C, Lip A and Lip 11 respectively. In addition, we found that a single dose of methyl ester supported higher production than repeated methanol induction. Among various methyl esters tested, methyl oleate (0.5%) caused 1.2 fold higher yield for LipA and LipC and 1.4 fold for Lip11 after 120 h of induction. Sequential utilization of methanol and oleic acid by P. pastoris was observed and was supported by differential peroxisome proliferation studies by transmission electron microscopy. Our study identifies a novel strategy of using methyl esters as slow release methanol source during lipase expression.     

Cloning,characterization and heterelogous expression of the INU1 gene from Cryptococcus aureus HYA

The INU1 gene (Accession number: JX073660) encoding exo-inulinase from Cryptococcus aureus HYA was cloned and characterized. The gene had an open reading frame (ORF) of 1653 bp long encoding an inulinase. The coding region of the gene was not interrupted by any intron. It encoded 551 amino acid residues of a protein with a putative signal peptide of 23 amino acids and the calculated molecular mass of 59.5 kDa. The protein sequence deduced from the inulinase structural gene contained the inulinase consensus sequences (WMNDPNGL), (RDP), ECP, FS and Q. It also had two conserved putative N-glycosylation sites. The inulinase from C. aureus HYA was found to be closely related to that from Kluyveromyces marxianus and Pichia guilliermondii. The inulinase gene without the signal sequence was subcloned into pPICZaA expression vector and expressed in Pichia pastoris X-33. The expressed fusion protein was analyzed by SDS-PAGE and western blotting and a specific band with molecular mass of about 60 kDa was found. Enzyme activity assay verified the recombinant protein as an inulinase. A maximum inulinase activity of 16.3 ± 0.24 U/ml was obtained from the culture supernatant of P. pastoris X-33 harboring the inulinase gene. The optimal temperature and pH for action of the enzyme were 50 °C and 5.0, respectively. A large amount of monosaccharides were detected after the hydrolysis of inulin with the purified recombinant inulinase.     

Intracellular expression of Vitreoscilla hemoglobin improves production of Yarrowia lipolytica lipase LIP2 in a recombinant Pichia pastoris

The Yarrowia lipolytica lipase LIP2 (YlLIP2) gene lip2 and Vitreoscilla hemoglobin gene vgb were co-expressed in Pichia pastoris, both under the control of AOX1 promoter, in order to alleviate respiration limitation under conditions of high cell-density fermentation and enhance YlLIP2 production. The results showed that recombinant P. pastoris strains harboring the lip2 and vgb genes (VHb⁺) displayed higher biomass and YlLIP2 activity than control strains (VHb⁻). Compared with VHb⁻ cells, the expression levels of YlLIP2 in VHb-expressing cells when oxygen was not a limiting factor were improved 31.5% in shake-flask culture and 22% in a 10-L fermentor. Under non-limiting dissolved oxygen (DO) conditions, the maximum YlLIP2 activity of VHb⁺ in a 10-L fermentor reached 33,000 U/mL. Oxygen limitation had a more negative effect on YlLIP2 productivity in VHb⁻ cells than in VHb⁺ cells. The highest YlLIP2 activity of VHb⁺ cells was approximately 1.84-fold higher than that of VHb⁻ cells at lower DO levels. Moreover, the recombinant strain VHb⁺ exhibited a higher specific oxygen uptake rate and achieved higher cell viability under oxygen limiting and non-limiting conditions compared with VHb⁻ cells. Therefore, the above results suggest that intracellular expression of VHb in recombinant P. pastoris has the potential to improve cell growth and industrial enzyme production.     

High-level secretory expression and characterization of the recombinant Kluyveromyces marxianus inulinase

Inulinase is an important enzyme used in the high fructose syrup and other related industries. A more cost-effective approach is required for producing highly active inulinase. In this study, the gene encoding inulinase of the yeast Kluyveromyces marxianus CBS 6556 was expressed in methylotrophic host Pichia pastoris and secretory production of recombinant inulinase (rKmINU) in the yeast under methanol induction was achieved. The purified rKmINU showed a specific activity of 2714 U/mg, which is over 12-fold higher than those of other inulinases described previously. It displayed excellent stability from 30 to 50 °C and pH 3.0-5.0, and the half-life of rKmINU was over 96 h under these conditions. Moreover, rKmINU saccharified Jerusalem artichoke tuber juice effectively.