来源于橄榄绿链霉菌A1的高比活木聚糖酶XYNB的高效表达及性质的比较分析

高效表达高比活木聚糖酶是进一步提高木聚糖酶发酵效价、降低其生产成本的有效途径。将橄榄绿链霉菌(Streptomyces olivaceoviridis) A1的高比活木聚糖酶成熟蛋白编码基因xynB克隆到毕赤酵母表达载体pPIC9中,转化毕赤酵母得到重组酵母,在重组酵母中木聚糖酶基因得到了高效分泌表达,且表达产物具有生物学活性。在3L发酵罐中蛋白表达量约14mg/mL, 酶活性(效价)为1200IU/mL。SDSPAGE分析表明,表达的木聚糖酶XYNBa为糖基化蛋白, 分子量为31kD, 经脱糖基化处理得到21kD 的XYNBb, 与橄榄绿链霉菌A1所产原酶XYNB大小一致。通过对XYNB、XYNBa及XYNBb酶学性质的比较发现：三者在比活性、Vmax及热稳定性方面有较大差异。该酶对不同木聚糖的酶解产物的糖份分析表明：酶解产物的主要成分为木二糖、木三糖和木四糖,占总糖含量的95%以上。     

Design, total synthesis, and functional overexpression of the Candida rugosa lip1 gene coding for a major industrial lipase.

The dimorphic yeast Candida rugosa has an unusual codon usage that hampers the functional expression of genes derived from this yeast in a conventional heterologous host. Commercial samples of C. rugosa lipase (CRL) are widely used in industry, but contain several different isoforms encoded by the lip gene family, among which the isoform encoded by the gene lip1 is the most prominent. In a first laborious attempt, the lip1 gene was systematically modified by site-directed mutagenesis to gain functional expression in Saccharomyces cerevisiae. As alternative approach, the gene (1647 bp) was completely synthesized with an optimized nucleotide sequence in terms of heterologous expression in yeast and simplified genetic manipulation. The synthetic gene was functionally expressed in both hosts S. cerevisiae and Pichia pastoris, and the effect of heterologous leader sequences on expression and secretion was investigated. In particular, using P. pastoris cells, the synthetic gene was functionally overexpressed, allowing for the first time to produce recombinant Lipl of high purity at a level of 150 U/mL culture medium. The physicochemical and catalytic properties of the recombinant lipase were compared with those of a commercial, nonrecombinant C. rugosa lipase preparation containing lipase isoforms.     

Distribution and evolution of the xylanase genes xynA and xynB and their homologues in strains of Butyrivibrio fibrisolvens.

The ruminal bacterium Butyrivibrio fibrisolvens is being engineered by the introduction of heterologous xylanase genes in an attempt to improve the utilization of plant material in ruminants. However, relatively little is known about the diversity and distribution of the native xylanase genes in strains of B. fibrisolvens. In order to identify the most appropriate hosts for such modifications, the xylanase genotypes of 28 strains from the three 16S ribosomal DNA (rDNA) subgroups of Butyrivibrio fibrisolvens have been investigated. Only 4 of the 20 strains from 16S rDNA group 2 contained homologues of the strain Bu49 xynA gene. However, these four xynA-containing strains, and two other group 2 strains, contained members of a second xylanase gene family clearly related to xynA (subfamily I). Homologues of xynB, a second previously described xylanase gene from B. fibrisolvens, were identified only in three of the seven group 1 strains and not in the group 2 and 3 strains. However, six of the group 1 strains contained one or more members of the two subfamilies of homologues of xynA. The distribution of genes and the nucleotide sequence relationships between the members of the two xynA subfamilies are consistent with the progenitor of all strains of B. fibrisolvens having contained a xynA subfamily I gene. Since many xylanolytic strains of B. fibrisolvens did not contain members of either of the xynA subfamilies or of the xynB family, at least one additional xylanase gene family remains to be identified in B. fibrisolvens.     

The methylotrophic yeast Pichia pastoris as a host for the expression and production of thermostable xylanase from the bacterium Rhodothermus marinus

A thermostable glycoside hydrolase family-10 xylanase originating from Rhodothermus marinus was cloned and expressed in the methylotrophic yeast Pichia pastoris (SMD1168H). The DNA sequence from Rmxyn10A encoding the xylanase catalytic module was PCR-amplified and cloned in frame with the Saccharomyces cerevisiae alpha-factor secretion signal under the control of the alcohol oxidase (AOX1) promotor. Optimisation of enzyme production in batch fermentors, with methanol as a sole carbon source, enabled secretion yields up to 3gl(-1) xylanase with a maximum activity of 3130Ul(-1) to be achieved. N-terminal sequence analysis of the heterologous xylanase indicated that the secretion signal was correctly processed in P. pastoris and the molecular weight of 37kDa was in agreement with the theoretically calculated molecular mass. Introduction of a heat-pretreatment step was however necessary in order to fold the heterologous xylanase to an active state, and at the conditions used this step yielded a 200-fold increase in xylanase activity. Thermostability of the produced xylanase was monitored by differential-scanning calorimetry, and the transition temperature (T(m)) was 78 degrees C. R. marinus xylanase is the first reported thermostable gram-negative bacterial xylanase efficiently secreted by P. pastoris.     

Expression of xylanase enzymes from thermophilic microorganisms in fungal hosts

Bulk production of xylanases from thermophilic microorganisms is a prerequisite for their use in industrial processes. As effective secretors of gene products, fungal expression systems provide a promising, industrially relevant alternative to bacteria for heterologous enzyme production. We are currently developing the yeast Kluyveromyces lactis and the filamentous fungus Trichoderma reesei for the extracellular production of thermophilic enzymes for the pulp and paper industry. The K. lactis system has been tested with two thermophilic xylanases and secretes gram amounts of largely pure xylanase A from Dictyoglomus thermophilum in chemostat culture. The T. reesei expression system involves the use of the cellobiohydrolase I (CBHI) promoter and gene fusions for the secretion of heterologous thermostable xylanases of both bacterial and fungal origin. We have reconstructed the AT-rich xynB gene of Dictyoglomus thermophilum according to Trichoderma codon preferences and demonstrated a dramatic increase in expression. A heterologous fungal gene, Humicola grisea xyn2, could be expressed without codon modification. Initial amounts of the XYN2 protein were of a gram per liter range in shake-flask cultivations, and the gene product was correctly processed by the heterologous host. Comparison of the expression of three thermophilic heterologous microbial xylanases in T. reesei demonstrates the need for addressing each case individually.     

毕赤酵母液滴微流控高通量筛选方法的建立与应用

巴斯德毕赤酵母是当前应用最为方便和广泛的外源蛋白表达系统之一,为了进一步提高其表达外源蛋白的能力,文中建立了基于液滴微流控的毕赤酵母高通量筛选方法,并以木聚糖酶融合荧光蛋白为例,筛选获得木聚糖酶表达和分泌能力提高的突变株。通过PCR扩增得到木聚糖酶xyn5基因和绿色荧光蛋白gfp基因融合片段,并克隆到毕赤酵母表达载体pPIC9K中构建出木聚糖酶融合绿色荧光蛋白的质粒pPIC9K-xyn5-gfp,电转化至毕赤酵母GS115中得到表达木聚糖酶和绿色荧光蛋白的毕赤酵母SG菌株。该菌株经过常压室温等离子体诱变后进行单细胞液滴包埋,液滴培养24h后进行微流控筛选,获得高表达木聚糖酶的突变菌株,进而用于下一轮的诱变突变库构建和筛选。以此类推,经过5轮液滴微流控筛选,获得一株高产菌株SG-m5,其木聚糖酶活为149.17U/mg,较出发菌株提升300%,分泌外源蛋白的能力较出发菌株提高160%。文中建立的毕赤酵母单细胞液滴微流控高通量筛选方法能达到每小时10万菌株的筛选通量,筛选百万级别的菌株库仅需10h,消耗荧光试剂体积100μL,对比传统的微孔板筛选方法降低试剂成本近百万倍,为高效、低成本筛选获得表达和分泌外源蛋白能力提高的毕赤酵母提供了一条新途径。     

Cloning and expression of xylanase 10 from Cryptovalsa mangrovei (BCC7197) in Pichia pastoris.

Xylanases are one of the industrially valuable enzymes. Using RT-PCR and 5'- and 3'-RACE procedures, we have cloned a full-length xylanase encoding gene from a filamentous fungus, Cryptovalsa mangrovei (BCC7197) from Phuket, Thailand. The results showed that BCC7197 xylanase cDNA has an open reading frame of 978 bp encoding 325 amino acid residues. Further sequence analysis revealed that this xylanase gene is belonged to the glycosyl hydrolase family 10 and has approximately 50-60% amino acid sequence similarity to other fungal xylanases. Furthermore, expression of BCC7197 xylanase in the Pichia pastoris was also performed. The results demonstrated that the active BCC7197 xylanase protein was successfully produced and secreted from P. pastoris.     

黑曲霉木聚糖酶在工业酒精酵母中的分泌表达

用重叠延伸PCR方法从黑曲霉 (Aspergillusniger)UV 11的基因组DNA中克隆出木聚糖酶的cDNA基因 ,构建了由酵母乙醇脱氢酶 (ADH1)启动子和终止子引导表达、木聚糖酶自身信号肽引导分泌、rDNA序列介导的酵母整合型分泌表达质粒pAX2。用pAX2与酵母YEp型G4 18抗性质粒共转化野生型工业酒精酵母S .cerevisiae 2 346 ,获得了整合型分泌表达木聚糖酶的酵母重组菌株XY2。发酵分析表明该工程菌能够明显提高酒精生产率     

棉花黄萎病真菌Verticillium dahliae木聚糖酶基因的克隆、表达和酶学性质分析

[目的]从棉花黄萎病真菌Verticillium dahliae中克隆木聚糖酶基因,并在毕赤酵母中进行异源表达,研究酶学性质.[方法]通过多序列比对设计简并引物,扩增出真菌V. dahliae木聚糖酶基因片段,再采用基因组步行PCR技术获得全长木聚糖酶基因序列.经BLAST比对并结合GT-AG原则分析,该基因含有一个大小为63 bp的内含子,利用DpnI介导的缺失方法对含内含子的全长木聚糖酶基因进行剪接,获得该基因的全长cDNA.将克隆到的cDNA在毕赤酵母GS115进行了表达,重组酶经纯化后进行酶学性质分析.[结果]BLAST比对显示,该cDNA推测的氨基酸序列和已知木聚糖酶的最高一致性为72%.测得该酶最适反应温度为45℃,最适反应pH值为6,在pH5-9维持50%以上的活性,对山毛榉材木聚糖具有最好的水解效果.Mg2 和Ca2 对酶有激活作用,分别提高了33.7%和16.6%,EDTA,β-巯基乙醇和NaN3对酶的活性基本没有影响,Tween-80和DMSO使酶活性提高了28.4%和12.8%.[结论]本文从引起棉花黄萎病的真菌V. dahliae中克隆到的木聚糖酶基因是在GenBank上登录的第一个来自棉花黄萎病真菌的木聚糖酶基因序列.本文所用的克隆方法可以高效的从植物病原真菌和白腐真菌克隆只含一个内含子的11家族的新木聚糖酶基因,避免了摸索原始菌株酶表达诱导条件,检测酶的活性等繁琐的操作.酶学性质分析显示该酶在低聚木糖的制备,面包改良上有潜在的应用价值.     

极端耐热木聚糖酶基因在枯草芽孢杆菌中的整合表达

目的:为了在枯草芽孢杆菌中整合表达极端耐热木聚糖酶。方法:将嗜热网球菌(Dictyoglomus thermophilum)Rt46B.1的极端耐热木聚糖酶基因xynB通过穿梭载体pDL整合到B.subtilis168染色体上,使其实现表达。结果:极端耐热木聚糖基因在枯草芽孢杆菌中成功整合并表达。结论:基因工程菌B.subtilis168-xynB能外泌表达极端耐热木聚糖酶,且表达水平为0.732IU/mL,比在大肠杆菌中的高。酶学性质表明,此酶分子量约为24kD,其最适反应温度为85℃,最适反应pH值为6.5,且在弱碱性条件下稳定。     

米曲霉木聚糖酶基因的克隆及其在毕赤酵母中的表达

目的:构建米曲霉木聚糖酶基因的真核表达载体,并转化巴斯德毕赤酵母,进行分泌表达。方法:以米曲霉总RNA为模板,根据已知的米曲霉木聚糖酶基因序列设计引物,采用RT-PCR技术克隆木聚糖酶基因cDNA序列,将其与pPIC9K质粒连接构建表达载体后转化毕赤酵母,经MM/MD快慢斑筛选,得到Muts型重组子,进行甲醇诱导表达。结果:克隆得到的cDNA序列全长666 bp,连续编码221个氨基酸;阳性克隆子在诱导培养数天后,将菌液点于RBB-木聚糖平板上,产生了明显的透明圈,表明重组木聚糖酶在毕赤酵母中获得表达。结论:木聚糖酶基因的真核表达载体构建成功,并能够在毕赤酵母中表达。     

Role of an in planta-expressed xylanase of Xanthomonas oryzae pv. oryzae in promoting virulence on rice

Xanthomonas oryzae pv. oryzae is the causal agent of bacterial leaf blight, a serious disease of rice. We demonstrated earlier that the type II secretion system (T2S) is important for virulence of X. oryzae pv. oryzae and that several proteins, including a xylanase, are secreted through this system. In this study, the xynB gene encoding for the secreted xylanase was cloned as a 6.9-kb EcoRI fragment (pRR7) that also included a paralog called xynA. As in X. oryzae pv. oryzae, xynA and xynB are adjacent to each other in X. axonopodis pv. citri, whereas only the xynA homolog is present in X. campestris pv. campestris. Mutations in xynB but not xynA affect secreted xylanase activity. Western blot analysis using anti-XynB antibodies on exudates from infected rice leaves indicated that this xylanase is expressed during in planta growth. Another T2S-secreted protein was identified to be a lipase/esterase (LipA) based on the sequence tags obtained by tandem mass spectrometry analysis and biochemical assays. Mutations in either xynB or lipA partially affected virulence. However, a lipA-xynB double mutant was significantly reduced for virulence, and the pRR7 clone containing an intact xynB gene could complement the virulence-deficient phenotype of the lipA-xynB mutant. Our results suggest that there is functional redundancy among the T2S secreted proteins of X. oryzae pv. oryzae in promoting virulence on rice.     

Expression,purification, and characterization of equine lactoferrin in Pichia pastoris

Lactoferrin is an 80kDa iron-binding glycoprotein. It is secreted by exocrine glands. Many functions such as iron sequestering, anti-bacterial activity, regulation of gene expression, and immunomodulation are attributed to it. In the present study, we report the production of recombinant equine lactoferrin (ELF) in the methylotropic yeast Pichia pastoris using pPIC9K vector. The recombinant protein was purified by one-step affinity chromatography using heparin-Sepharose column. The purified protein has a molecular weight of 80kDa and reacted with antibody raised against the native equine lactoferrin. Its N-terminal sequence was identical to that of the native ELF. The iron-binding behavior and circular dichroism studies of the purified protein indicate that it has folded properly. The recombinant protein appears to be hyperglycosylated by the host strain, GS115. This is the first heterologous expression of equine lactoferrin and also the first report of intact lactoferrin expression using P. pastoris system. An yield of 40mg/l obtained in shake-flask cultures with this system, which is higher than the reported values for other systems.     

Construction of an expression system of insect lysozyme lacking thermal stability: the effect of selection of signal sequence on level of expression in the Pichia pastoris expression system.

Expression systems of human and silkworm lysozymes were constructed using the methylotrophic yeast Pichia pastoris as a host. The leader sequence and its prepro peptide of alpha-factor (a peptide pheromone derived from yeast) and the native signal sequences of these lysozymes, were used as secretion signals. When the alpha-factor leader is used as the signal sequence, human lysozyme is secreted at a much higher level than is silkworm lysozyme. On the other hand, silkworm lysozyme, when its native signal is used, is secreted more efficiently than human lysozyme. Therefore, we expected that human lysozyme cDNA with a silkworm native signal would be secreted more efficiently than human lysozyme with its native signal. However, its level of expression was not increased. This result indicates that the native signal of silkworm lysozyme does not promote the secretion of the lysozyme, but rather alpha-factor leader inhibits the secretion. Silkworm lysozyme with the alpha-factor leader is so unstable that it could be easily attacked by some proteases and our findings suggest that the level of expression of heterologous protein with signal peptides and its stability are greatly affected by the selection of the appropriate secretion signal sequence.     

Cloning, expression, and characterization of a xylanase 10 from Aspergillus terreus (BCC129) in Pichia pastoris

A full-length xylanase gene, encoding 326 amino acids belonging to the fungal glycosyl hydrolase family 10, from Aspergillus terreus BCC129 was cloned and sequenced. Sequence analysis suggested that the first 25 amino acids of this enzyme is the signal peptide. Therefore, only the mature xylanase gene of 906 bp was cloned into a yeast expression vector, pPICZalphaA, for heterologous expression in Pichia pastoris. A band of approximately, 33 kDa was observed on the SDS-PAGE gel after one day of methanol induction. The expressed enzyme was purified by gel filtration chromatography. The purified recombinant xylanase demonstrated optimal activity at 60 degrees C, pH 5.0 and a Km of 4.8 +/- 0.07 mg/ml and a Vmax of 757 +/- 14.54 micromol/min mg, using birchwood xylan as a substrate. Additionally, the purified enzyme demonstrated broad pH stability from 4 to 10 when incubated at 40 degrees C for 4 h. It also showed a moderate thermal stability since it retained 90% of its activity when incubated at 50 degrees C, 30 min, making this enzyme a potential use in the animal feed and paper and pulp industries.     

利用毕赤酵母系统直接分泌表达具有活性的谷氨酰胺转胺酶

使用异源表达系统直接分泌表达具有活性的微生物谷氨酰胺转氨酶(Microbial transglutaminase,MTG)是目前最具前景的MTG生产方法之一,但由于产量较低无法实现工业化生产.毕赤酵母是近年来发展出的高效蛋白表达系统.通过采用pro序列与成熟MTG基因共表达的策略,成功地实现了用重组毕赤酵母分泌表达具有活性的茂原链霉菌Streptomyces mobaraense MTG.进一步通过对pro序列和MTG基因拷贝数以及重组酵母培养条件的优化,最终使得MTG在1L发酵罐中高密度发酵的酶活达到7.3 U/mL,为MTG的工业化生产奠定了基础.     

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.     

<Emphasis Type="Italic">Escherichia coli</Emphasis> signal peptidase recognizes and cleaves the signal sequence of xylanase from a newly isolated <Emphasis Type="Italic">Bacillus subtilis</Emphasis> strain R5

A gene encoding the xylanase from Bacillus subtilis strain R5 containing the native signal sequence was cloned and expressed in Escherichia coli. The heterologous expression of the gene resulted in the production of the recombinant protein in the cytoplasm as well as its secretion into the culture medium. The xylanase activity in the culture medium increased with time after induction up to 90% of the total activity in 14 h. Molecular mass and N-terminal amino acid sequence determinations of the purified recombinant xylanase revealed that the native signal peptide was cleaved off by E. coli signal peptidases between Ala28 and Ala29.