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.     

Production of recombinant Rhizopus oryzae lipase by the yeast Yarrowia lipolytica results in increased enzymatic thermostability

The gene encoding Rhizopus oryzae lipase (ROL) was expressed in the non-conventional yeast Yarrowia lipolytica under the control of the strong inducible XPR2 gene promoter. The effects of three different preprosequence variants were examined: a preprosequence of the Y. lipolytica alkaline extracellular protease (AEP) encoded by XPR2, the native preprosequence of ROL, and a hybrid variant of the presequence of AEP and the prosequence of ROL. Lipase production was highest (7.6 U/mL) with the hybrid prepropeptide. The recombinant protein was purified by ion-exchange chromatography. The ROL included 28 amino acids of the C-terminal region of the prosequence, indicating that proteolytic cleavage occurred below the KR site through the activity of the Kex2-like endoprotease. The optimum temperature for recombinant lipase activity was between 30 and 40 °C, and the optimum pH was 7.5. The enzyme was shown not to be glycosylated. Furthermore, recombinant ROL exhibited greater thermostability than previously reported, with the enzyme retaining 64% of its hydrolytic activity after 30 min of incubation at 55 °C.     

Characterization of an extracellular lipase encoded by LIP2 in Yarrowia lipolytica

We isolated the LIP2 gene from the lipolytic yeast Yarrowia lipolytica. It was found to encode a 334-amino-acid precursor protein. The secreted lipase is a 301-amino-acid glycosylated polypeptide which is a member of the triacylglycerol hydrolase family (EC 3.1.1.3). The Lip2p precursor protein is processed by the KEX2-like endoprotease encoded by XPR6. Deletion of the XPR6 gene resulted in the secretion of an active but less stable proenzyme. Thus, the pro region does not inhibit lipase secretion and activity. However, it does play an essential role in the production of a stable enzyme. Processing was found to be correct in LIP2(A) (multiple LIP2 copy integrant)-overexpressing strains, which secreted 100 times more activity than the wild type, demonstrating that XPR6 maturation was not limiting. No extracellular lipase activity was detected with the lip2 knockout (KO) strain, strongly suggesting that extracellular lipase activity results from expression of the LIP2 gene. Nevertheless, the lip2 KO strain is still able to grow on triglycerides, suggesting an alternative pathway for triglyceride utilization in Y. lipolytica.     

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.     

Structural gene for the alkaline extracellular protease of Saccharomycopsis lipolytica.

Mutants for Saccharomycopsis lipolytica temperature sensitive for alkaline extracellular protease production, but not for growth, were isolated. Thirty-three isolates were temperature sensitive for protease production, and one (xpr-32) produced a temperature-sensitive protease. Genetic analysis indicated that xpr-32 was located in gene XPR2, and allele xpr2-7 was found to also produce a temperature-sensitive protease. None of five independently isolated xpr2 mutations affects the production of extracellular ribonucleases and acid protease(s). Diploids with zero, one, or two active alleles of the XPR2 locus were constructed, and the XPR2 locus was shown to exhibit a gene dosage effect on alkaline extracellular protease synthesis (enzyme activity/cell protein). These results suggest that the XPR2 gene is the structural gene for the alkaline extracellular protease of S. lipolytica.     

Autocloning and amplification of LIP2 in Yarrowia lipolytica

We synthesized a Yarrowia lipolytica strain overproducing lipase for industrial applications by using long terminal repeat (zeta) of the Y. lipolytica retrotransposon Ylt1 and an allele of URA3 with a promoter deletion to construct JMP3. JMP3 is a derivative of plasmid pHSS6 carrying a NotI-NotI cassette which contains a defective URA3 allele, a polylinker sequence, and the zeta region for targeting to multiple sites in the genome of the recipient. We inserted the LIP2 gene (encoding extracellular lipase) under the control of the strong POX2 promoter into JMP3 to generate JMP6. The pHSS6 region was removed by NotI digestion prior to transformation. Two Y. lipolytica strains transformed with the JMP6 LIP2 cassette had a mean of 10 integrated copies devoid of the Escherichia coli region, corresponding to an autocloning event. The copy number in the transformants was stable even after 120 generations in nonselective and lipase-inducing conditions. The resulting strains could produce 0.5 g of active lipase per liter in the supernatant, 40 times more than the single-copy strain with the LIP2 promoter. This work provides a new expression system in Y. lipolytica that results in strains devoid of bacterial DNA and in strains producing a high level of lipase for industrial uses, waste treatment, and pancreatic insufficiency therapy.     

Construction of high sensitive detection system for endocrine disruptors with yeast n-alkane-assimilating Yarrowia lipolytica

To construct a highly sensitive detection system for endocrine disruptors, we have compared the activity of promoters with the ALK1, ICL1, RPS7 and TEF1 for heterologous gene in Yarrowia lipolytica. The promoters were introduced into the upstream of lacZ or hERalpha reporter gene, respectively, and the activity was evaluated by beta-galactosidase assay by lacZ or western blot analysis by hERalpha. The expression analysis revealed that the ALK1 and ICL1 promoter were induced by n-decane and by EtOH, respectively. The constitutive promoter of RPS7 and TEF1 showed mostly high level of expression in the presence of glucose and glycerol, respectively. Particularly, the TEF1 promoter showed the highest beta-galactosidase activity and a significant signal by western blotting with the anti-estrogen receptor compared with the other promoters. Moreover, the detection system was constructed with promoters were linked to the upstream of expression vector for hERalpha gene transformed into the Y. lipolytica with a chromosome-integrated lacZ reporter gene under the control of estrogen response elements (EREs). It was indicated that a combination of pTEF1p-hERalpha and CXAU1-2XERE was the most effective system for the E2-dependent induction of the beta-galactosidase activity. This system showed the highest beta-galactosidase activity at 10-6 M E2 and the activity could be detected at even the concentration of 10-10 M E2. As the result, we constructed a strongly sensitive detection system with Y. lipolitica to evaluate recognized/suspected ED chemicals, such as natural/synthetic hormones, pesticides, and commercial chemicals. The results demonstrate the utility, sensitivity and reproducibility of the system for characterizing environmental estrogens.     

Heterologous protein expression and secretion in the non-conventional yeast Yarrowia lipolytica: a review

The production of heterologous proteins is a research field of high interest, with both academic and commercial applications. Yeasts offer a number of advantages as host systems, and, among them, Yarrowia lipolytica appears as one of the most attractive. This non-conventional dimorphic yeast exhibits a remarkable regularity of performance in the efficient secretion of various heterologous proteins. This review presents the main characteristics of Y. lipolytica, and the genetic and molecular tools available in this yeast. A particular emphasis is given to newly developed tools such as efficient promoters, a non-homologous integration method, and an amplification system using defective selection markers. A table recapitulates the 42 heterologous proteins produced until now in Y. lipolytica. A few relevant examples are exposed in more detail, in order to illustrate some peculiar points of the Y. lipolytica physiology, and to offer a comparison with other production systems. This amount of data demonstrates the global reliability and versatility of Y. lipolytica as a host for heterologous production.     

Secretion of human blood coagulation factor XIIIa by the yeast Yarrowia lipolytica.

The industrial yeast, Yarrowia lipolytica, secretes high yields of an alkaline extracellular protease (AEP), which is synthesized as a preproprotein encoded by the XPR2 gene. We investigated the possibility of using this system for the secretion of human coagulation factor XIII subunit a (FXIIIa). This protein is naturally secreted in the plasma by an unknown, signal peptide-independent mechanism and has so far been found to be nonsecretable in yeast. We have designed six hybrid genes encoding fusion proteins between increasing portions of the AEP preprodomain and the precursor or mature forms of FXIIIa. All constructs directed translocation of the FXIIIa precursor into the endoplasmic reticulum. Transport of the translocated and core-glycosylated hybrid precursor to the Golgi apparatus appeared to be strongly rate limiting, and most of the precursors appeared to be partially proteolysed. One of these constructs directed the extracellular secretion of a low amount of hyperglycosylated FXIIIa. These results indicate that fusion to the yeast AEP signal peptide and dipeptide stretch allows FXIIIa to be translocated, albeit inefficiently, through the endoplasmic reticulum and to follow a classical secretory transit.     

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 cell density culture of Yarrowia lipolytica using a one-step feeding process

Yarrowia lipolytica is a potentially useful host for heterologous protein production. To develop an efficient culture method for high cell density cultivation and heterologous gene expression of Y. lipolytica, the effects of medium components and their concentrations on the growth of Y. lipolytica have been investigated. Addition of yeast extract to the culture media was found to significantly reduce the long lag phase encountered when Y. lipolytica was cultivated in synthetic culture media containing high concentrations of glycerol. Therefore, by enriching with 0.3% yeast extract the synthetic culture medium containing 15% glycerol, we could cultivate Y. lipolytica up to 83 g/L dry cell weight in a batch culture. Furthermore, over 100 g/L and 88 units/mL of rice alpha-amylase activity were obtained in less than 50 h with a one-step feeding process in which a recombinant Y. lipolytica expressing rice alpha-amylase was cultivated in the 10% glycerol medium enriched with 0.3% yeast extract and fed only once with the concentrated feeding medium (60% glycerol). The easy cultivation of recombinant Y. lipolytica to a high cell density may strengthen its position as a host for heterologous protein production.     

Cloning and sequencing of the alkaline extracellular protease gene of Yarrowia lipolytica.

The XPR2 gene encoding an alkaline extracellular protease (AEP) from Yarrowia lipolytica was cloned, and its complete nucleotide sequence was determined. The amino acid sequence deduced from the nucleotide sequence reveals that the mature AEP consists of 297 amino acids with a relative molecular weight of 30,559. The gene codes for a putative 22-amino-acid prepeptide (signal sequence) followed by an additional 135-amino-acid propeptide containing a possible N-linked glycosylation site and two Lys-Arg peptidase-processing sites. The final Lys-Arg site occurs at the junction with the mature, extracellular form. The mature protease contains two potential glycosylation sites. AEP is a member of the subtilisin family of serine proteases, with 42.6% homology to the fungal proteinase K. The functional promoter is more than 700 base pairs long, allowing for the observed complex regulation of this gene. The 5' and 3' flanking regions of the XPR2 gene have structural features in common with other yeast genes.     

双启动子对重组溶源性枯草杆菌中外源蛋白表达的增强作用

探讨了双启动子对基于溶源性噬菌体构建的重组枯草杆菌中外源蛋白表达的影响。分别将不含或含有本身启动子的α-淀粉酶基因(来源于Bacillus amyloliquefaciens)和青霉素酰化酶基因(来源于Bacillus megaterium)克隆到溶源性枯草杆菌中,得到重组菌B.subtilisAMY1,B.subtilisAMY2,B.subtilisPA1以及B.subtilisPA2。由于同源重组,所克隆的片段整合到溶源性枯草杆菌中的噬菌体基因组上,并处于噬菌体强启动子的下游。在重组菌AMY1和PA1中,在热诱导的情况下外源基因的转录只受到噬菌体启动子的作用,而在重组菌AMY2和PA2中,在热诱导下外源基因的转录同时受到噬菌体启动子和基因本身所带启动子的作用。双启动子的应用使重组α-淀粉酶的表达量提高了133%,使重组青霉素酰化酶的表达量提高了113%。     

Construction of expression vectors for protein production in Gluconobacter oxydans

The characteristic ability of Gluconobacter oxydans to incompletely oxidize numerous sugars, sugar acids, polyols, and alcohols has been exploited in several biotechnological processes, for example vitamin C production. The genome sequence of G. oxydans 621H is known but molecular tools are needed for the characterization of putative proteins and for the improvement of industrial strains by heterologous and homologous gene expression. To this end, promoter regions for the genes encoding G. oxydans ribosomal proteins L35 and L13 were introduced into the broad-host-range plasmid pBBR1MCS-2 to construct two new expression vectors for gene expression in Gluconobacter spp. These vectors were named pBBR1p264 and pBBR1p452, respectively, and have many advantages over current vectors for Gluconobacter spp. The uidA gene encoding β-D-glucuronidase was inserted downstream of the promoter regions and these promoter-reporter fusions were used to assess relative promoter strength. The constructs displayed distinct promoter strengths and strong (pBBR1p264), moderate (pBBR1p452) and weak (pBBR1MCS-2 carrying the intrinsic lac promoter) promoters were identified.     

Heterologous protein expression in Pichia thermomethanolica BCC16875, a thermotolerant methylotrophic yeast and characterization of N-linked glycosylation in secreted protein

This study describes Pichia thermomethanolica BCC16875, a new methylotrophic yeast host for heterologous expression. Both methanol-inducible alcohol oxidase (AOX1) and constitutive glyceraldehyde-3-phosphate dehydrogenase (GAP) promoters from Pichia pastoris were shown to drive efficient gene expression in this host. Recombinant phytase and xylanase were expressed from both promoters as secreted proteins, with the former showing different patterns of N-glycosylation dependent on the promoter used and culture medium. In addition, growth temperature also had an effect on N-glycan modification of cell wall mannoproteins. The major glycoprotein oligosaccharide species produced from P.?thermomethanolica BCC16875 is Man(8-12) GlcNAc(2) , which is similar to that from other methylotrophs. Moreover, mannosylphosphate and α-1,6- and α-1,2-linked mannose modifications of heterologous secreted protein were also detected. The attainably high level of protein production in complement to distinctive thermotolerance rarely found in other industrial yeasts makes this microorganism an attractive host for large-scale fermentation.