米曲霉异源蛋白表达系统研究进展及展望

米曲霉作为一种重要的工业微生物,在异源蛋白表达方面已有广泛应用,受限于被表达蛋白的修饰及分泌过程,目前实际生产使用的基因供体主要局限于其他真菌,尤其是丝状真菌。当外源基因来源于植物、昆虫和哺乳动物时,米曲霉所生产的异源蛋白产量及生物活性往往不尽如人意。本文综述了米曲霉作为宿主表达异源蛋白的研究进展,包括其现有的遗传操作手段及异源表达方面的应用及探索,重点介绍了应用过程中面临的挑战和解决策略,另外,对米曲霉表达异源蛋白的应用前景及发展方向进行了展望。     

Disruption of ten protease genes in the filamentous fungus Aspergillus oryzae highly improves production of heterologous proteins

Proteolytic degradation by secreted proteases into the culture medium is one of the significant problems to be solved in heterologous protein production by filamentous fungi including Aspergillus oryzae. Double (tppA, and pepE) and quintuple (tppA, pepE, nptB, dppIV, and dppV) disruption of protease genes enhanced human lysozyme (HLY) and bovine chymosin (CHY) production by A. oryzae. In this study, we used a quintuple protease gene disruptant and performed successive rounds of disruption for five additional protease genes (alpA, pepA, AopepAa, AopepAd, and cpI), which were previously investigated by DNA microarray analyses for their expression. Gene disruption was performed by pyrG marker recycling with a highly efficient gene-targeting background (∆ligD) as previously reported. As a result, the maximum yields of recombinant CHY and HLY produced by a decuple protease gene disruptant were approximately 30% and 35%, respectively, higher than those produced by a quintuple protease gene disruptant. Thus, we successfully constructed a decuple protease gene disruptant possessing highly improved capability of heterologous protein production. This is the first report on decuple protease gene disruption that improved the levels of heterologous protein production by the filamentous fungus A. oryzae.     

Genetic transformation and biotechnological application of the yeast Arxula adeninivorans

The relatively unknown, non-pathogenic, dimorphic, haploid, ascomycetous yeast Arxula adeninivorans exhibits some unusual properties which are of biotechnological interest. The yeast is able to assimilate and ferment many compounds as sole source of carbon and/or nitrogen, it utilises n-alkanes and degrades starch efficiently. A. adeninivorans features such as thermo- and haloresistance as well as the yeast's uncommon growth and secretion behaviour should be especially emphasised. In media containing up to 20% NaCl, A. adeninivorans is able to grow at cultivation temperatures up to 48 °C. Additionally, the dimorphism of the yeast is unusual. Arxula grows at up temperatures of up to 42 °C as budding cells, which turn into mycelia at higher temperatures. This environmentally conditioned dimorphism is reversible and budding is reestablished when the cultivation temperature is decreased below 42 °C. Alteration of morphology correlates with changes in secretion behaviour. Mycelium cultures accumulate two-fold higher protein concentrations and contain two- to five-fold higher glucoamylase and invertase activities in the medium than budding cells. Based on these unusual properties, Arxula adeninivorans is used for heterologous gene expression and as a gene donor to construct more suitable yeasts for biotechnology. For example the Arxula glucoamylase gene was successfully expressed in Saccharomyces cerevisiae and Kluyveromyces lactis. Both transformed yeasts are able to assimilate and ferment starch as carbon source. A transformation system is used for heterologous gene expression which is based on integration of linearised DNA fragments in two to ten copies, e.g. into the 25S rDNA of A. adeninivorans by homologous recombination. The obtained transformants are mitotically stable. The expression of the lacZ gene from E. coli as well as the XylE gene from Pseudomonas putida indicates the suitability of A. adeninivorans as host for heterologous gene expression. Received: 25 February 2000 / Received revision: 8 June 2000 / Accepted: 9 June 2000     

Recombinant Protein Secretion in Pseudozyma flocculosa and Pseudozyma antarctica with a Novel Signal Peptide

Secretion of recombinant proteins aims to reproduce the correct posttranslational modifications of the expressed protein while simplifying its recovery. In this study, secretion signal sequences from an abundantly secreted 34-kDa protein (P34) from Pseudozyma flocculosa were cloned. The efficiency of these sequences in the secretion of recombinant green fluorescent protein (GFP) was investigated in two Pseudozyma species and compared with other secretion signal sequences, from S. cerevisiae and Pseudozyma spp. The results indicate that various secretion signal sequences were functional and that the P34 signal peptide was the most effective secretion signal sequence in both P. flocculosa and P. antarctica. The cells correctly processed the secretion signal sequences, including P34 signal peptide, and mature GFP was recovered from the culture medium. This is the first report of functional secretion signal sequences in P. flocculosa. These sequences can be used to test the secretion of other recombinant proteins and for studying the secretion pathway in P. flocculosa and P. antarctica.     

A Serine Protease Gene from the Firefly, <Emphasis Type="Italic">Pyrocoelia rufa</Emphasis>: Gene Structure,Expression, and Enzyme Activity

The gene structure, expression and enzyme activity of a serine protease from the firefly, Pyrocoelia rufa (PrSP) were examined. The PrSP gene spans 1474 bp and consists of two introns and three exons coding for 257 amino acid residues. Southern blot analysis of genomic DNA suggested the presence of PrSP gene as a single copy. Western blot analysis and enzyme activity assay exhibited midgut-specific expression, suggesting that the midgut is the prime site where large quantities of PrSP are synthesized for degrading the absorbed protein from the diet. The cDNA encoding PrSP was expressed as a 31 kDa polypeptide in the baculovirus-infected insect Sf9 cells and the recombinant PrSP showed activity in the protease enzyme assay using gelatin as a substrate.     

地衣芽孢杆菌E7氨肽酶的异源表达及其在高效蛋白水解中的应用

【目的】将地衣芽孢杆菌(Bacilluslicheniformis)E7氨肽酶基因pepN克隆到大肠杆菌(Escherichia coli) BL21中,实现氨肽酶Ec PepN的异源表达,研究重组酶的酶学性质及其与碱性蛋白酶协同作用,高效水解大豆蛋白和酪蛋白,产生小分子活性肽和游离氨基酸。【方法】以地衣芽孢杆菌E7基因组DNA为模板,将氨肽酶基因pepN克隆到载体pET28a中,构建重组表达载体pET28-pepN,转化到大肠杆菌BL21感受态细胞中,经DNA测序验证,获得重组菌E. coli BL21/pET28-pepN。利用镍离子亲和层析柱对重组酶进行分离纯化,研究纯酶的pH和温度稳定性、半衰期和NaCl的耐受性等酶学性质。以商品化氨肽酶与碱性蛋白酶协同作用为对照,重组酶Ec PepN与碱性蛋白酶协同水解大豆蛋白和酪蛋白,测定水解产物中小分子活性肽和游离氨基酸的组成。【结果】Ec PepN在大肠杆菌BL21中可溶性表达,SDS-PAGE分析表明纯化的重组酶在52kDa左右显示单一条带。在7种测定底物中,Ec PepN的最适底物为Ala-pNA。在最适条件(pH 9.0和50°C...     

Heterologous expression and secretion of <Emphasis Type="Italic">Lactobacillus amylovorus</Emphasis> α-amylase in <Emphasis Type="Italic">Leuconostoc citreum</Emphasis>

To develop a gene expression system for Leuconostoc genus, construction of expression vector and expression of a heterologus protein in Leuconostoc was performed. α-Amylase gene from Lactobacillus amylovorus was cloned into a Leuconostoc cloning vector, pLeuCM, with its own signal peptide. pLeuCMamy was introduced into Leuconostoc citreum CB2567 and a successful expression of α-amy gene was confirmed by enzyme activity assays. About 90% of α-amylase activity was detected in the culture broth, revealing most of expressed α-amylase was secreted out cells. The signal sequence of α-amy gene is a good candidate for the secretion of heterologous protein by using Leuconostoc host-vector system.     

Induction by Hypoxia of Heterologous-Protein Production with the KlPDC1 Promoter in Yeasts

The control of promoter activity by oxygen availability appears to be an intriguing system for heterologous protein production. In fact, during cell growth in a bioreactor, an oxygen shortage is easily obtained simply by interrupting the air supply. The purpose of our work was to explore the possible use of hypoxic induction of the KlPDC1 promoter to direct heterologous gene expression in yeast. In the present study, an expression system based on the KlPDC1 promoter was developed and characterized. Several heterologous proteins, differing in size, origin, localization, and posttranslational modification, were successfully expressed in Kluyveromyces lactis under the control of the wild type or a modified promoter sequence, with a production ratio between 4 and more than 100. Yields were further optimized by a more accurate control of hypoxic physiological conditions. Production of as high as 180 mg/liter of human interleukin-1β was obtained, representing the highest value obtained with yeasts in a lab-scale bioreactor to date. Moreover, the transferability of our system to related yeasts was assessed. The lacZ gene from Escherichia coli was cloned downstream of the KlPDC1 promoter in order to get β-galactosidase activity in response to induction of the promoter. A centromeric vector harboring this expression cassette was introduced in Saccharomyces cerevisiae and in Zygosaccharomyces bailii, and effects of hypoxic induction were measured and compared to those already observed in K. lactis cells. Interestingly, we found that the induction still worked in Z. bailii; thus, this promotor constitutes a possible inducible system for this new nonconventional host.     

Mitomycin C stimulates thermally induced recombinant gene expression in Escherichia coli MC strains

The effects of mitomycin C on C1857-controlled recombinant gene expression have been explored in E. coli cultures when the drug was added simultaneously to the thermal induction. A significantly improved yield of homologous, heterologous and chimeric fusion proteins was observed in E. coli MC1061 and GE864 (a MC4100 derivative) thermoinduced cells. This feature was not detected in other E. coli strains and does not involve a gene dosage mechanism but a strain-dependent stimulation of gene expression unrelated to the RecA protease activity.     

人胰岛素原在甲醇酵母(Pichia pastoris)中的高效表达

甲醇营养型酵母Ｐｉｃｈｉａ ｐａｓｔｏｒｉｓ在近十几年已被人们广泛用作外源基因表达的系统。表达的是可溶性蛋白,且胞外分泌。本研究系将外源基因（胰岛素原基因）连接到穿梭质粒ＰＨＩＬ－Ｓ１上,再通过同源重组到酵母染色体,筛选表达株。用１ 升发酵罐在甲醇诱导下可获得０．３ｇ／Ｌ胰岛素原的产率。     

Alkaline Protease Gene Cloning from the Marine Yeast Aureobasidium pullulans HN2-3 and the Protease Surface Display on Yarrowia lipolytica for Bioactive Peptide Production

The alkaline protease genes (cDNAALP2 gene and ALP2 gene) were amplified from complementary DNA (cDNA) and genomic DNA of the marine yeast Aureobasidium pullulans HN2-3, respectively. An open reading frame of 1,248 bp encoding a 415-amino acid protein with a calculated molecular weight of 42.9 kDa was characterized. The ALP2 gene contained two introns, which had 54 and 52 bp, respectively. When the cDNAALP2 gene was cloned into the multiple cloning sites of the surface display vector pINA1317-YlCWP110 and expressed in cells of Yarrowia lipolytica, the cells displaying protease could form a clear zone on the double plate containing milk protein and had protease activity. The cells displaying alkaline protease were also found to be able to produce bioactive peptides from different sources of proteins. The peptides produced from single-cell protein of marine yeast strain G7a had the highest angiotensin-converting enzyme inhibitory activity, while the peptides produced from spirulina protein had the highest antioxidant activity. This is the first report that the yeast cells displaying alkaline protease were used to produce bioactive peptides.     

Design of an expression vector and its application to heterologous protein expression in Bacillus subtilis

An expression vector, pUBEX, was constructed for extracellular production of heterologous proteins in Bacillus subtilis using a polyhistidine tag on the C-terminal sequence, providing an efficient and easy purification of the protein. A CII protein, a member of Bowman–Birk protease inhibitors, which was expressed as an inactive protein in Escherichia coli, was successfully expressed in Bacillus subtilis using the pUBEX vector and was purified to 6.4 mg l^–1 by the immobilized metal affinity chromatography.     

Identification and properties of yeasts associated with the aerobic deterioration of wheat and alfalfa silages

Populations of fungi in aerobically deteriorating wheat and alfalfa silages were identified as: Endomycopsis burtonii, E. selenospora, Hansenula canadensis, Candida tenuis and C. silvicola. The yeasts recovered were similar for both silages, but H. canadensis was recovered only in wheat silages. All of these yeasts could utilize lactic acid aerobically, but not anaerobically. Only Endomycopsis spp. could utilize propionic acid aerobically and none of the yeasts utilized this acid anaerobically. However, all yeasts grew in complete media supplemented with propionate. Therefore, while lactic and propionic acids may contribute to stability under anaerobic conditions, they are much less less effective after the silage is exposed to air.     

Gene optimization mechanisms: A multi-gene study reveals a high success rate of full-length human proteins expressed in Escherichia coli

The genetic code is universal, but recombinant protein expression in heterologous systems is often hampered by divergent codon usage. Here, we demonstrate that reprogramming by standardized multi‐parameter gene optimization software and de novo gene synthesis is a suitable general strategy to improve heterologous protein expression. This study compares expression levels of 94 full‐length human wt and sequence‐optimized genes coding for pharmaceutically important proteins such as kinases and membrane proteins in E. coli. Fluorescence‐based quantification revealed increased protein yields for 70% of in vivo expressed optimized genes compared to the wt DNA sequences and also resulted in increased amounts of protein that can be purified. The improvement in transgene expression correlated with higher mRNA levels in our analyzed examples. In all cases tested, expression levels using wt genes in tRNA‐supplemented bacterial strains were outperformed by optimized genes expressed in non‐supplemented host cells.     

The isolation and characterization of Pseudozyma sp. JCC 207, a novel producer of squalene

In examining the production of valuable compounds by marine microorganisms, we isolated a novel yeast strain that produces a large amount of squalene and several polyunsaturated fatty acids. Molecular and phylogenetic analyses of the ribosomal DNA suggest that the isolate belongs to the genus Pseudozyma, which comprises ustilaginomycetous anamorphic yeasts. The nucleotide sequence of an internally transcribed spacer region from isolate Pseudozyma sp. JCC207 showed 98% similarity with those of Pseudozyma rugulosa and Pseudozyma aphidis, which are close relatives of the isolate. In considering use of Pseudozyma sp. JCC207 for squalene production, the efficiency of squalene production was investigated under different conditions. Glucose was the best carbon source for the production of squalene. In the presence of yeast extract, squalene production was activated and an optimum ratio of glucose to yeast extract was 4.5. For the optimal squalene production, the concentration of glucose was 40 g l⁻¹ and the best nitrogen source was sodium nitrogen. Pseudozyma sp. JCC207 was shown to produce up to 5.20 g/L of biomass and 340.52 mg/L of squalene. In an optimal condition, the content and yield of squalene produced by Pseudozyma sp. JCC207 were much greater than those obtained from microorganisms previously reported as squalene producers. We identified, classified, and characterized Pseudozyma sp. JCC207 as a novel squalene producer. The squalene production rate of Pseudozyma sp. JCC207 makes it an ideal candidate for the commercialization of microbial squalene.     

High-level expression, purification and characterization of recombinant Aspergillus oryzae alkaline protease in Pichia pastoris

The alkaline protease gene from Aspergillus oryzae was cloned, and then it was successfully expressed in the heterologous Pichia pastoris GS115 with native signal peptide or α-factor secretion signal peptide. The yield of the recombinant alkaline protease with native signal peptide was about 1.5-fold higher than that with α-factor secretion signal peptide, and the maximum yield of the recombinant alkaline protease was 513 mg/L, which was higher than other researches. The recombinant alkaline protease was purified by ammonium sulfate precipitation, ion exchange chromatography and gel filtration chromatography. The purified recombinant alkaline protease showed on SDS–PAGE as a single band with an apparent molecular weight of 34 kDa. The recombinant alkaline protease was identical to native alkaline protease from A. oryzae with regard to molecular weight, optimum temperature for activity, optimum pH for activity, stability to pH, and similar sensitivity to various metal ions and protease inhibitors. The native enzyme retained 61.18% of its original activity after being incubated at 50 °C for 10 min, however, the recombinant enzyme retained 56.22% of its original activity with same disposal. The work demonstrates that alkaline protease gene from A. oryzae can be expressed largely in P. pastoris without affecting its enzyme properties and the recombinant alkaline protease could be widely used in various industrial applications.     

过表达PDI对毕赤酵母分泌淀粉样蛋白的影响——以胱抑素为例

[目的] 本研究旨在结合酵母菌蛋白质二硫键异构酶（protein disulfide isomerase,PDI）与其底物蛋白鸡胱抑素C （chicken cystatin C,cC）在酵母中的共表达,理解PDI影响外源蛋白合成与表达的调控规律。运用转录组深度测序技术（RNA-Seq）筛选差异基因,调取并鉴定影响cC表达的关键基因,为解析外源蛋白高效表达机制,改造工程菌株提供理论支撑。[方法] 以巴斯德毕赤酵母GS115、GS115-cC为出发菌株,采用电转的方法将携带PDI编码基因的载体pPIC3.5K转入到GS115/GS115-cC菌株,使其在菌株中过表达,研究过表达PDI对cC表达的影响。采用RNA-Seq深度测序方法,研究重组毕赤酵母基因表达差异情况。并结合KEGG注释结果对数据进行分析,挑选差异显著表达基因进行验证,初步明确其在蛋白表达调控方面的功能。[结果] 本研究通过构建过表达PDI重组毕赤酵母菌株,使得外源蛋白cC的表达量显著增加。利用RNA-seq技术分析过表达PDI菌株与正常菌株的差异,最终筛选了373个差异表达基因,其中有122个差异基因注释到KEGG生物通路,包括12个基因注释到蛋白质转运和分解代谢途径,21个基因注释到蛋白质折叠分选和降解途径,以及24个基因参与蛋白质的翻译途径等。[结论] 在毕赤酵母中过表达PDI能显著增加外源蛋白cC的表达量。通过对过表达与正常表达PDI的毕赤酵母基因的表达谱分析,初步确定了其中一些转录情况变化显著的基因,明确了它们参与的细胞途径和信号通路,为改造具有高效率表达淀粉样蛋白的酵母菌株奠定基础。     

Prevention of Yeast Spoilage in Feed and Food by the Yeast Mycocin HMK

The yeast Williopsis mrakii produces a mycocin or yeast killer toxin designated HMK; this toxin exhibits high thermal stability, high pH stability, and a broad spectrum of activity against other yeasts. We describe construction of a synthetic gene for mycocin HMK and heterologous expression of this toxin in Aspergillus niger. Mycocin HMK was fused to a glucoamylase protein carrier, which resulted in secretion of biologically active mycocin into the culture media. A partial purification protocol was developed, and a comparison with native W. mrakii mycocin showed that the heterologously expressed mycocin had similar physiological properties and an almost identical spectrum of biological activity against a number of yeasts isolated from silage and yoghurt. Two food and feed production systems prone to yeast spoilage were used as models to assess the ability of mycocin HMK to act as a biocontrol agent. The onset of aerobic spoilage in mature maize silage was delayed by application of A. niger mycocin HMK on opening because the toxin inhibited growth of the indigenous spoilage yeasts. This helped maintain both higher lactic acid levels and a lower pH. In yoghurt spiked with dairy spoilage yeasts, A. niger mycocin HMK was active at all of the storage temperatures tested at which yeast growth occurred, and there was no resurgence of resistant yeasts. The higher the yeast growth rate, the more effective the killing action of the mycocin. Thus, mycocin HMK has potential applications in controlling both silage spoilage and yoghurt spoilage caused by yeasts.     

Exocellular enzyme activity of dermatophytes and other fungi isolated from ruminants in Southern Iraq

Sixteen fungal species were isolated from 182 specimens collected from four ruminants (buffalo, camel, cattle and sheep) in Southern Iraq. Fungi represented by five species of dermatophytes and eleven species of other fungi were screened for the activity of four enzymes; keratinase, proteinase, lipase and amylase. Keratinase was found to be produced by all of the dermatophytes and non-dermatophytes, except for Paecillomyces variottii and Scytalidium lignicola. However, high keratinase activity was expressed by the dermatophytic species particularly by Trichophyton mentagrophytes var. erinacei and Microsporum gypseum. Three dermatophytes viz. M. gypseum, T. verrucosum and T. mentagrophytes var. nodulare were capable of producing protease, lipase and amylase. Although, T. mentagrophytes var. erinacei showed high protease activity, it did not produce lipase and amylase. On the contrary most of the non-dermatophytic species revealed protease and lipase activities higher than the dermatophytes. The Curvularia spp. isolates showed the highest protease and amylase activity, while Aspergillus parasiticus revealed the highest activity of lipase and amylase. No correlation was observed between enzyme activity and the growth rate of the examined fungi. This revised version was published online in June 2006 with corrections to the Cover Date.