短小芽孢杆菌木聚糖酶基因在毕赤酵母中的分泌表达及酶学性质研究

将短小芽孢杆菌HB030的内切-1,4-木聚糖酶基因克隆到毕赤酵母表达载体pPIC9k上,得到重组质粒pHBM220,将pHBM220经酶切后分别转化三株毕赤酵母KM71、GS115、SMD1168,该木聚糖酶基因在三株毕赤酵母中均实现了分泌表达。将重组毕赤酵母KM71(pHBM220)、GS115(pHBM220)、SMD1168(pHBM220)分别诱导产酶,对重组酶进行相关的酶学性质分析表明,三者的最适反应pH值约为5.5,最适反应温度约为60℃。在其最适反应条件下测得三者粗酶液酶活分别为10.80IU/mL,11.63IU/mL,9.68IU/mL。重组毕赤酵母KM71(pHBM220)所产酶的热稳定性较好,而在pH稳定性方面三者没有太大的差异。     

短小芽孢杆菌木聚糖酶基因在毕赤酶母中的分泌表达及酶学性质研究

将短小芽孢杆菌HB030的内切-1,4-木聚糖酶基因克隆到毕赤酵母表达载体pPIC9K,得到重组质粒pH-BM220,将pHBM220经酶切后分别转化三株毕赤酵母KM71、GS115、SMD1168,该木聚糖酶基因在三株毕赤酵母中均实现了分泌表达,将重组毕赤酵母KM71（pHBM220）,GS115（pHBM220),GS115(pHBM220),SMD1168（pHBM220）分别诱导产酶,对重组酶进行相关的酶学性质分析表明,三的最适反应pH值约为5.5,最适反应温度约为60℃,在其最适反应条件下测得三粗酶液酶活分别为10.80IU/mL,11.63IU/mL,9.68IU/mL,重组毕赤酵母KM71（pHBM220）所产酶的热稳定性较好,而在pH稳定性方面三没有太大的差异。     

解脂耶氏酵母脂肪酶基因lip1的克隆、密码子优化及功能表达

摘要：【目的】克隆解脂耶氏酵母（Yarrawia lipolytica）脂肪酶基因lip1,并通过密码子优化,首次实现其在毕赤酵母(Pichia pastoris)中的诱导型和组成型表达。【方法】通过PCR扩增Y. lipolytica脂肪酶基因lip1,根据P. pastoris密码子偏爱性,运用重叠延伸PCR合成改造后基因MLip1,将其分别克隆至诱导型分泌载体pPIC9K和新构建的组成型分泌载体pGAP9K上,电转至P. pastoris GS115中,G418抗性筛选得到高拷贝转化重组子,摇瓶发酵     

植酸酶基因的多点突变及在毕赤酵母中的高效表达

根据毕赤酵母基因的密码子选择偏爱性,不改变其编码氨基酸序列,对来源于黑曲霉N25植酸酶phyA基因,进行了突变,构建了含有正确突变的酵母表达载体pPIC9k-phyAm-4,电击转化毕赤酵母,获得优化了密码子的重组酵母转化子。经PCR鉴定表明,植酸酶基因已整合到酵母基因组中; 表达产物的SDS-PAGE分析表明,酶蛋白分子大小为70.15KD。Southern blotting结果表明,phyA基因整合到酵母染色体DNA中;转化子酶活测定结果表明,经密码子优化的重组酵母PP-NPm-4-2酶活可达136900U/ml,比Arg没有优化的PP-NPm-8 (47600 Uoml-1)酶活高约2.8倍。     

酸性木聚糖酶基因的克隆及其在毕赤酵母中的分泌表达

运用“鸟枪法”克隆构建了环境微生物的基因组文库,并从中筛选得到一个酸性木聚糖酶基因,命名为xyl3,其在GenBank中的登录号为gb：AY300805。BLAST分析表明,该基因的序列同源性很低,其中仅存在很短的木聚糖酶基因的同源片段,其编码的木聚糖酶属于Glycosyl hydrolases family 10,与来源于Geobacillus stearothermophilus的intra—cellular xylanase在氨基酸水平具77％同源性。该基因经T4 DNA polymerase处理后,克隆至经限制性内切酶CpoⅠ和NotⅠ双酶切后的毕赤酵母表达载体pHBM905,获得重组质粒pHBM706。此重组质粒转化毕赤酵母GS115,经含有交联木聚糖的选择性培养平板和PCR扩增鉴定筛选得到重组毕赤酵母GS115（pHBM706）。以0．5％甲醇于28℃诱导产酶,测得重组毕赤酵母GS115（pHBM706）在诱导的第36h产酶达最高值,所产粗酶液酶活为0．177IU／mL。该酶的最适反应pH为5．5,最适反应温度为50℃。     

植酸酶基因中稀有密码子的改造提高其在毕赤酵母中的表达量

对来源于黑曲霉N2 5(AspergillusnigerChinaStrain)的植酸酶基因phyA进行PCR介导的定点突变 ,不改变其所编码氨基酸 ,选用毕赤酵母偏爱的密码子对该基因保守序列中第 81位和第 85位的Arg密码子进行同义突变 .构建了含正确突变的克隆载体pUC18 phyAm 和酵母表达载体pPIC9k phyAm,电击转化毕赤酵母 ,经MM、MD平板筛选和产物的酶活性测定 ,筛选出突变与未突变高酶活酵母转化子各 2株 .这 4株转化子的Southern印迹结果表明 ,phyA基因以单交换方式单拷贝整合到酵母染色体DNA中 .表达产物的SDS PAGE分析表明 ,重组酵母中的植酸酶能有效分泌和表达 ,蛋白质分子大小为 70 15kD .转化子酶活测定结果表明 ,经密码子优化的突变重组酵母酶活力明显高于未进行优化的重组酵母转化子 .经密码子优化的突变重组酵母株PP NPm 8于麦芽汁培养基中诱导 36h后酶活力可达 4 76 0 0U/ml,其活力比未优化重组酵母株PP NP 2 (2 36 6 7U/ml)提高了约 1倍 ,且重组转化子遗传稳定性良好 .     

耐碱性甘露聚糖酶基因的克隆及其在毕赤酵母中的表达

通过功能平板从土壤中筛选得到含甘露聚糖酶基因的耐碱菌株。构建其基因组文库,从中筛选到甘露聚糖酶基因TM1并测序分析,用BLAST分析表明,TM1的氨基酸序列与其他在GenBank发表的甘露聚糖酶的氨基酸序列的同源性均低于60%,故确定其为一个新的甘露聚糖酶基因(GenBank登录号为AY623903)。将此基因去除信号肽后的编码序列克隆到表达载体pHBM905C上,得到重组质粒pHBM1201。经SalⅠ酶切后分别转化毕赤酵母(Pichiapastoris)KM71、GS115、SMD1168,得到分泌表达的重组毕赤酵母。挑选相对表达量最高的重组毕赤酵母SMD1168-3在摇瓶中诱导产酶,对该酶的粗酶进行酶学性质分析表明,其最适反应温度为55℃,最适PH值为7.5,以魔芋粉为底物所测得的最高酶活为41.8U,半衰期为1h,在80℃保温5min其酶活由最初酶活的77%下降到11%,温度下降到55℃后活性可恢复到最初酶活的60%以上。     

解脂耶氏酵母TSR1基因的定点诱变

对解脂耶氏酵母与蛋白质分泌有关的TSR1基因进行寡核苷酸介导的定点诱变,限制性内切酶切割的拼接,得到了该基因的一系列缺失突变体。这为进一步研究TSR1基因不同结构域的功能奠定了基础。     

平菇漆酶基因在毕赤酵母中的分泌表达及酶学性质研究

采用RTPCR技术克隆到一个平菇(Pleurotusostreatus)漆酶基因的全长cDNA,命名为lccPo1,其序列提交GenBank,登录号为AY450404。将其ORF克隆到毕赤酵母表达载体pHBM906,转化3株毕赤酵母GS115、KM71和SMD1168,该漆酶基因在3种毕赤酵母菌株中均实现了分泌表达。3种摇瓶培养条件①25℃,1.0%(VV)甲醇;②20℃,1.0%(VV)甲醇;③20℃,0.5%(VV)甲醇,进行比较研究后发现适当提高甲醇浓度有利于漆酶在低温条件下表达,而降低培养温度到20℃则可以提高漆酶的产量2～6倍。3株重组毕赤酵母在其最适反应条件下测得三者粗酶液最高漆酶酶活分别为3.19UmL[GS115(pHBM565)]、2.56UmL[KM71(pHBM565)]和2.49UmL[SMD1168(pHBM565)]。对重组酶进行相关的酶学性质分析表明,三者的最适反应pH值约为4.2,最适反应温度约为60℃。重组毕赤酵母GS115(pHBM565)所产酶的热稳定性稍好,在pH稳定性方面三者没有太大差异。     

植酸酶phyA基因在解脂耶氏酵母po1h中的表达

本实验通过PCR方法从毕赤酵母GS115-phyA中扩增出不含有信号肽及内含子的黑曲霉NRRL3135植酸酶phyA基因,并将其克隆到表达载体pINA1297中,得到表达载体pINA1297-phyA,利用醋酸锂转化法将线性化载体转化到解脂耶氏酵母po1h中,通过YNBcasa和PPB平板筛选出阳性表达菌株,阳性菌株在YM培养基中28℃培养6d后酶活达到最大为636.23U/mL。表达上清经SDS-PAGE分析得到表达植酸酶分子量约为130kDa,但通过去糖基化处理后其分子量变为51kDa,与理论值相符。经过酶学性质分析表明重组植酸酶最适pH为5.5,最适温度为55℃,该酶在pH2.0~8.0处理1h后仍有较高酶活,并且90℃处理10min后还有86.08%的残留酶活,其抵抗胃蛋白酶和胰蛋白酶能力也较强。     

YALI0E32769g (DGA1) and YALI0E16797g (LRO1) encode major triacylglycerol synthases of the oleaginous yeast Yarrowia lipolytica

The oleaginous yeast Yarrowia lipolytica has an outstanding capacity to produce and store triacylglycerols resembling adipocytes of higher eukaryotes. Here, the identification of two genes YALI0E32769g (DGA1) and YALI0E16797g (LRO1) encoding major triacylglycerol synthases of Yarrowia lipolytica is reported. Heterologous expression of either DGA1 or LRO1 in a mutant of the budding yeast Saccharomyces cerevisiae defective in triacylglycerol synthesis restores the formation of this neutral lipid. Whereas Dga1p requires acyl-CoA as a substrate for acylation of diacylglycerol, Lro1p is an acyl-CoA independent triacylglycerol synthase using phospholipids as acyl-donor. Growth of Yarrowia lipolytica strains deleted of DGA1 and/or LRO1 on glucose containing medium significantly decreases triacylglycerol accumulation. Most interestingly, when oleic acid serves as the carbon source the ratio of triacylglycerol accumulation in mutants to wild-type is significantly increased in strains defective in DGA1 but not in lro1Δ. In vitro experiments revealed that under these conditions an additional acyl-CoA dependent triacylglycerol synthase contributes to triacylglycerol synthesis in the respective mutants. Taken together, evidence is provided that Yarrowia lipolytica contains at least four triacylglycerol synthases, namely Lro1p, Dga1p and two additional triacylglycerol synthases whereof one is acyl-CoA dependent and specifically induced upon growth on oleic acid.     

解脂耶罗维亚酵母工程菌合成超长链脂肪酸及温度的影响

[背景]解脂耶罗维亚酵母属于产油微生物,大量研究表明该酵母能够高产长链脂肪酸和油脂,但是应用该酵母合成超长链脂肪酸仍待研究。[目的]工程化解脂耶罗维亚酵母合成高值超长链脂肪酸,并研究温度对脂肪酸合成的影响。[方法]合成密码子优化的拟南芥(Arabidopsis thaliana)延长酶基因AtFAE1、非洲芥菜(Brassica tournefortii)延长酶基因BtFAE1和碎米芥属植物Cardamine graeca的延长酶基因CgKCS,分别构建质粒pYLEX1-AtFAE1、pYLEX1-BtFAE1、pYLEX1-CgKCS和pYLEX1-AtFAE1-BtFAE1-CgKCS。以解脂耶罗维亚酵母菌株Po1g为宿主,通过化学法分别转化上述4个质粒,获得工程菌Po1g-AtFAE1、Po1g-BtFAE1、Po1g-CgKCS和Po1g-AtFAE1-BtFAE1-CgKCS,比较评价超长链脂肪酸的合成。在此基础上,过表达内源二酯酰甘油酰基转移酶基因DGAT1(diacylglycerol acyltransferase)提高产油量,并研究温度对生物量、产油、脂肪酸组成的影响。[结果]在解脂耶罗维亚酵母中3个延长酶的延长能力明显不同,AtFAE1主要催化C20:1脂肪酸的合成,BtFAE1更有利于芥酸(C22:1)的合成,而CgKCS能够催化合成神经酸(C24:1),但是三者共表达并未提高神经酸产量。在表达CgKCS基因的菌株中过表达DGAT1基因,细胞油脂含量提高50%。温度实验表明,低温有利于解脂耶罗维亚酵母合成不饱和脂肪酸,反之,高温利于其合成饱和脂肪酸。[结论]脂肪酸延长酶基因CgKCS可直接催化C18:1脂肪酸合成C24:1的超长链脂肪酸,并且通过优化培养温度可提高不饱和脂肪酸的合成。本研究为构建超长链脂肪酸细胞工厂以及发酵优化提供理论和技术参考。     

解脂耶氏酵母新型表达载体构建及癌基因rho在其中的表达

为了简化解脂耶氏酵母表达载体构建过程、消除抗生素污染,将mel基因(编码酪氨酸酶)作为新型报告基因用于构建新型酵母表达载体,利用组装PCR人工合成基因mel,并用重叠PCR将其与同源组成型强启动子p TEF、分泌性信号肽XPR2pre及强终止区LIP2t融合,构建新型胞外及胞内表达载体,并利用其在解脂耶氏酵母野生菌株中表达人源癌基因rho.成功获得mel全基因并将其与启动子、信号肽和终止区融合,得到融合片段TXML,用其替换原有表达载体的筛选标记基因ura3d4,构建得到新型胞外及胞内表达载体pINA1297-M和pINA1297-a-M,转化后的酵母阳性转化子性状明显,随后利用此新型表达系统获得可溶性异源蛋白Rho.首次实现了将mel作为一种便捷、价廉、无污染的新型筛选标记基因运用于非常规酵母表达系统中,更为mel在其它真核表达系统中的运用奠定了技术基础;获得的可溶性Rho蛋白可为研究其性质、结构、功能及与Rho癌基因家族其它成员的相互作用提供条件.     

解脂耶氏酵母表达系统研究进展

解脂耶氏酵母（Yarrowia lipolytica）是非常规酵母中具代表性的一种,它底物广泛,尤其能利用有机酸（柠檬酸、异柠檬酸）,蛋白类（蛋白酶、脂肪酸、酯酶、磷酸酶、α-甘露糖苷酶、RNase）。烷烃类廉价物质作为底物分泌大量的代谢产物,自上世纪40年代被发现以来,越来越受到研究者的重视,并于上世纪90年代被开发成为一种新的酵母表达系统,用于42种异源蛋白的高效表达。综述了解脂耶氏酵母表达系统及其特点,有利于研究者从转录和翻译的水平研究异源蛋白在此菌中的表达分泌路径以及寻找到调控型启动子。     

The isolation and characterization of the pyruvate kinase-encoding gene from the yeast Yarrowia lipolytica.

The dimorphic yeast, Yarrowia lipolytica, has been developed as a useful expression/secretion system for heterologous proteins such as chymosin and tissue plasminogen activator. To further develop this expression system, we have cloned the gene (PYK) encoding the highly expressed glycolytic enzyme, pyruvate kinase (PYK). Genomic clones were selected by their specific hybridization to synthetic oligodeoxyribonucleotide probes based on regions of the enzyme that were conserved through evolution. The clones identified by hybridization contained overlapping DNA inserts. We have confirmed the identity of the cloned gene based on two criteria: (1) the nucleotide sequence of the proposed PYK gene predicts a protein that is highly homologous to the corresponding Saccharomyces cerevisiae enzyme, and (2) PYK-specific activity was increased twofold when wild-type Y. lipolytica strains were transformed with the isolated DNA. Interestingly, we found that the open reading frame of the Y. lipolytica PYK gene was interrupted by an intron. This represents the first report of an intron in a Y. lipolytica gene.     

High-level production of extracellular lipase by Yarrowia lipolytica mutants from methyl oleate

The yeast Yarrowia lipolytica degrades efficiently low-cost hydrophobic substrates for the production of various added-value products such as lipases. To obtain yeast strains producing high levels of extracellular lipase, Y. lipolytica DSM3286 was subjected to mutation using ethyl methanesulfonate (EMS) and ultraviolet (UV) light. Twenty mutants were selected out of 1600 mutants of Y. lipolytica treated with EMS and UV based on lipase production ability on selective medium. A new industrial medium containing methyl oleate was optimized for lipase production. In the 20 L bioreactor containing new industrial medium, one UV mutant (U6) produced 356 U/mL of lipase after 24h, which is about 10.5-fold higher than that produced by the wild type strain. The properties of the mutant lipase were the same as those of the wild type: molecular weight 38 kDa, optimum temperature 37°C and optimum pH 7. Furthermore, the nucleotide sequences of extracellular lipase gene (LIP2) in wild type and mutant strains were determined. Only two silent substitutions at 362 and 385 positions were observed in the ORF region of LIP2. Two single substitutions and two duplications of the T nucleotide were also detected in the promoter region. LIP2 sequence comparison of the Y. lipolytica DSM3286 and U6 strains shows good targets to effective DNA recombinant for extracellular lipase of Y. lipolytica.     

植酸酶和甘露聚糖酶双功能毕赤酵母工程菌的构建和产酶分析

根据已发表的植酸酶基因和甘露聚糖酶基因序列设计并合成引物,应用PCR技术,分别以土曲霉总DNA和质粒pHBM1201为模板,扩增出均不含假定信号肽序列的植酸酶基因phyA和甘露聚糖酶基因man,将它们各自克隆到毕赤酵母表达载体pHBM907C上,分别得到重组质粒pHBM907C-phyA和pHBM907C-man。将质粒pHBM907C-phyA上由乙醇氧化酶(AOX1)启动子和终止子引导表达、酿酒酵母α信号肽序列引导分泌的phyA表达盒式结构插入到质粒pHBM907C-man中,构成双基因表达分泌质粒pHBM907C-phyA-man。pHBM907C-phyA-man经SalⅠ酶切线性后转化毕赤酵母(Pichiapastoris)GS115,获得了同时分泌表达植酸酶和甘露聚糖酶的双功能酵母工程菌。研究了该酵母工程菌所分泌表达的重组植酸酶和甘露聚糖酶的相关酶学性质,并进行了双功能酵母工程菌的稳定性测试。     

The 110kDa glutathione transferase of Yarrowia lipolytica is encoded by a homologue of the TEF3 gene from Saccharomyces cerevisiae: cloning, expression, and homology modeling of the recombinant protein

The TEF4 gene of the non-saccharomyces yeast Yarrowia lipolytica encodes an EF1Bgamma protein with structural similarity to the glutathione transferases (GSTs). This 1203bp gene was cloned, over-expressed in Escherichia coli, and the recombinant protein characterized. DNA sequencing of the cloned gene agreed with the recently completed Y. lipolytica genome and showed 100% identity to a previously reported 30-residue N-terminal sequence for a 110kDa Y. lipolytica GST, except that it encoded two additional N-terminal residues (N-Met-Ser-). The recombinant protein (subunit M(r) 52kDa) was found not to possess GST activity with 1-chloro-2,4-dinitrobenzene. Partial tryptic digestion released two fragments of M(r) 22 and 18kDa, which we interpret as N- and C-terminal domains. Homology modeling confirmed that the N-terminal domain of Y. lipolytica TEF4 encodes a GST-like protein.     

Enhanced expression of endoinulinase from Aspergillus niger by codon optimization in Pichia pastoris and its application in inulooligosaccharide production

In the present study, the endoinulinase gene (EnInu) from Aspergillus niger CICIM F0620 was optimized according to the codon usage of Pichia pastoris and both the native and the optimized gene were expressed in P. pastoris. Use of the optimized gene resulted in the secretion of recombinant endoinulinase activity that reached 1,349 U ml^?1, 4.18 times that observed using the native gene. This is the highest endoinulinase activity reported to date. The recombinant enzyme was optimally active at pH 6.0 and 60 °C. Moreover, inulooligosaccharides production from inulin was studied using the recombinant enzyme produced from the optimized gene. After 8 h under optimal conditions, which included 400 g l^?1 inulin, an enzyme concentration of 40 U g^?1 substrate, 50 °C and pH 6.0, the inulooligosaccharide yield was 91 %. The high substrate concentration and short reaction time described here should reduce production costs distinctly, compared with the conditions used in previous studies. Thus, this study may provide the basis for the industrial use of this recombinant endoinulinase for the production of inulooligosaccharides.     

Variation of the by-product spectrum during α-ketoglutaric acid production from raw glycerol by overexpression of fumarase and pyruvate carboxylase genes in Yarrowia lipolytica

The yeast Yarrowia lipolytica secretes high amounts of various organic acids, like citric, isocitric, pyruvic (PA), and α-ketoglutaric (KGA) acids, triggered by growth limitation and excess of carbon source. This is leading to an increased interest in this non-conventional yeast for biotechnological applications. To improve the KGA production by Y. lipolytica for an industrial application, it is necessary to reduce the amounts of by-products, e.g., fumarate (FU) and PA, because production of by-products is a main disadvantage of the KGA production by this yeast. We have examined whether the concentration of secreted organic acids (main product KGA and PA as major by-product and FU, malate (MA), and succinate (SU) as minor by-products) can be influenced by a gene-dose-dependent overexpression of fumarase (FUM) or pyruvate carboxylase (PYC) genes under KGA production conditions. Recombinant Y. lipolytica strains were constructed, which harbor multiple copies of the respective FUM1, PYC1 or FUM1, and PYC1 genes. Overexpression of the genes FUM1 and PYC1 resulted in strongly increased specific enzyme activities during cultivation of these strains on raw glycerol as carbon source in bioreactors. The recombinant Y. lipolytica strains showed different product selectivity of the secreted organic acids KGA, PA, FU, MA, and SU. Concentrations of the by-products FU, MA, SU, and PA decreased significantly at overproduction of FUM and increased at overproduction of PYC and also of FUM and PYC simultaneously. In contrast, the production of KGA with the multicopy strains H355A(FUM1) and H355A(FUM1-PYC1) was comparable with the wild-type strain H355 or slightly lower in case of H355(PYC1). KGA productivity was not changed significantly compared with strain H355 whereas product selectivity of the main product KGA was increased in H355A(FUM1).