白地霉Y162脂肪酶基因克隆及其在毕赤酵母中的高效表达

借助生物信息学,对已克隆的地霉属脂肪酶全长基因序列进行同源比对,根据保守序列设计引物,在基因组DNA和cDNA水平上,于国内首次克隆了Geotrichum candidum Y162脂肪酶基因.Gcandidum Y162脂肪酶基因全长1692bp,不含内含子,编码包括19个氨基酸信号肽在内的563个氨基酸.与NCBI GenBank中已报道的地霉属脂肪酶氨基酸序列有86%的一致性.将该基因克隆到pPIC9K表达载体上,转化毕赤酵母GS115,摇瓶发酵96h后毕赤酵母分泌表达55 U/mL重组脂肪酶,实现了脂肪酶的高效表达.酶学性质研究表明,该重组脂肪酶对C9位顺式双键的甘油酯具有明显的底物特异性;对甲醇、甘油等有机溶剂呈现耐受性;最适温度和最适pH分别为50℃和8.0,在pH6.0～10.0及60℃以下能保持60%以上的酶活力.底物特异性、有机溶剂、温度及pH耐受性赋予该重组酶良好工业应用潜力.     

毛木耳漆酶基因的克隆、序列分析及其鉴定

本文利用PCR和RACE技术首次从毛木耳AP4菌株中获得编码漆酶基因的cDNA及其基因组全长序列,基因组大小为2514 bp.通过比较该漆酶基因的cDNA和基因组DNA的全长序列,发现该基因包含14个外显子和13个内含子.cDNA序列的全长为1972 bp,其包含一个完整的ORE长度为1860 bp,编码619氨基酸,推测的分子量大小为68 kD,等电点pI为5.15.在氨基酸序列的氨基末端存在一个信号肽序列,同时该基因还包括含铜氧化酶的三个功能结构域KOG1263、SufI和pfam00394.氨基酸序列与GenBank中登录的真菌漆酶蛋白序列比对表明:该氨基酸序列与其它真菌漆酶蛋白序列有较高的同源性,氨基酸序列相同性最高达41%,相似性为58%,并且含有真菌漆酶的四个保守的Cu-bind结构域.将获得的漆酶基因lacl与毕赤酵母表达载体pPIC9K连接,构建重组质粒pYH3660,将其转化到毕赤酵母中,经甲醇诱导该基因在第10天产酶高达123 IU/L,并通过Native SDS-PAGE电泳获得预期大小的漆酶蛋白条带.结构分析和功能验证均表明:本研究获得的基因lacl为漆酶基因.     

Expression of Humicola insolens (NC3) endo-β-glucanase Ⅱgene in Pichia pastoris and anylysis of enzymic properties

[目的]在毕赤酵母中表达特异腐质霉Humicola insolens的中性内切葡聚糖酶Ⅱ,并对其性质加以研究.[方法]利用RT-PCR的方法,以特异腐质霉(Humicola insolens)NC3总RNA为模板,克隆到中性内切葡聚糖酶Ⅱ基因(egⅡ的cDNA.将其插入表达载体pPIC9K,重组质粒经线性化后电击转化毕赤酵母(Pichia pastoris)菌株GS115.[结果]SDS-PAGE和酶活的检测结果均表明:egⅡ基因在毕赤酵母中成功表达.重组酶的部分酶学性质研究表明,该酶的最适反应温度为70℃,且在65℃以下具有较好的热稳定性.最适反应pH为6.5,在pH 6.0-7.0之间有较好的稳定性.[结论]用重组毕赤酵母可高效表达外源中性内切葡聚糖酶,为其今后在工业应用奠定了基础.     

斜卧青霉114-2 cbh1基因的TAIL-PCR克隆及与抗阻遏突变株JU-A10的比较

[目的]研究斜卧青霉(Penicillium decumbens)114-2与其抗阻遏突变株JU-A10外切酶基因序列的差异.[方法]用热不对称交错PCR(TAIL-PCR)和RT-PCR扩增得到斜卧青霉114-2外切葡聚糖酶Ⅰ(cbh1)基因全长和cDNA全长.[结果]cbh1基因全长为1500 bp,含有两个内含子,编码453个氨基酸(GenBank,EF397602).克隆并分析了1.9 kb的cbh1基因上游序列,分别发现了葡萄糖代谢抑制因子CRE Ⅰ与纤维素酶转录调控蛋白ACE Ⅰ的两个的潜在结合位点.[结论]在相同的培养条件下,其抗阻遏突变株JU-A10的外切酶活明显高于野生株114-2.两菌株的cbh1基因序列完全一致,说明外切酶活明显提高不是由于cbh1基因发生突变引起的.     

玉米大斑病菌钙调磷酸酶B亚基基因的克隆与生物信息学分析

[目的]克隆玉米大斑病菌CnB基因,并进行初步的生物信息学分析.[方法]采用cDNA末端快速扩增(Rapid Amplification of cDNA Ends,RACE)技术,扩增玉米大斑病菌CnB基因全长cDNA序列和DNA序列.运用相关生物信息学软件对该基因序列进行分析和预测其编码蛋白的结构功能.[结果]CnB基因含4个外显子和3个内含子,最大开放阅读框为525 bp(GenBank登录号EF 469732),编码174个氨基酸;预测蛋白含约59.77%的α螺旋,8.62%的β转角,6.32%的延伸串,25.29%的不规则卷曲;含有高度保守的4个"EF-hand"Ca2 结合区域,属于Ca2 结合蛋白家族成员,与小麦叶枯病菌(Phaeosphaeria nodorum)、灰葡萄孢(B.cinerea)、粗糙麦孢霉(Neurospora crassa)等病原真菌中CnB基因有90%以上的氨基酸同源性.[结论]首次在玉米大斑病菌中克隆得到CnB基因,为进一步研究该基因功能奠定基础.     

金针菇漆酶基因的克隆及其在毕赤酵母中的表达研究

综合运用cDNA末端快速扩增 (RapidAmplificationofcDNAEnds ,RACE )和基因组步行等技术克隆到一个金针菇 (Flammulinavelutipes)的漆酶结构基因和其对应的全长cDNA ,经测序和BLAST比对分析表明该基因属于多铜氧化酶基因家族 ,与已发表的漆酶基因 (AF176 2 30 )的同源性最高 ,在氨基酸水平为 72 %。该结构基因命名为gl ccFv,cDNA命名为lccFv ,其序列提交GenBank ,登录号分别为AY4 85 82 6和AY4 5 0 4 0 6。将lccFv的开放阅读框克隆到毕赤酵母表达载体pHBM90 6 ,转化毕赤酵母GS115且实现了分泌表达。将重组毕赤酵母GS115 (pHBM5 6 5 )诱导产酶 ,在培养温度 2 0℃、甲醇流加量为 1 0 % (V V)的情况下 ,其分泌表达的LCCFv的最高酶活为 0 10 70U mL ,最适反应温度为 4 5℃ ,最适反应pH值为 3 9,在最适反应条件下其热稳定性和pH值稳定性均较好     

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。     

α-葡萄糖苷酶基因序列分析及真核表达载体构建

目的：Aspergillus niger（CU-1）菌株α-葡萄糖苷酶基因（agdA）克隆并对其序列进行分析,构建该基因的真核表达载体。方法：设计合成的一对特异性引物,采用PCR以总DNA为模板,扩增得到DNA片段（D1）;采用RT-PCR方法扩增得到DNA片段（D2）。将DNA片段D1和D2转入大肠杆菌中并进行了序列测定,序列进行BLAST比对分析。将α-葡萄糖苷酶基因的cDNA片段与表达载体pGAPZαA连接,构建重组表达载体。结果：基因agdA大小为3 127bp,含有3个外显子和4个内含子。该基因的cDNA序列大小为2 958bp,包含完整的编码框,编码985个氨基酸。agdA基因序列与已发表的α-葡萄糖苷基因序列同源性达99%,其中有6个位置的碱基发生了变化。已成功构建重组表达载体pGAPZαA-agdA。结论：Aspergillus niger（CU-1）菌株α-葡萄糖苷酶基因序列分析及重组表达载体pGAPZαA-agdA的构建为在毕赤酵母中表达Aspergillus niger（CU-1）菌株的α-葡萄糖苷酶奠定基础。     

解脂耶氏酵母脂肪酶LIP4和LIP5在毕赤酵母中的异源表达及酶学性质

【目的】克隆解脂耶氏酵母(Yarrowia lipolytica)脂肪酶LIP4和LIP5的cDNA序列,研究其基因结构,并实现其在毕赤酵母中的功能表达,以探讨其酶学性质。【方法】利用反转录PCR首次扩增LIP4和LIP5的编码基因,用SignalP 3.0分析其基因序列,然后分别构建胞内表达载体pPIC3.5K-Lip4、pPIC3.5K-Lip5和胞外表达载体pPIC9K-Lip4、pPIC9K-Lip5,将其转入毕赤酵母GS115中表达,以NTA树脂纯化酶蛋白,研究其酶学性质。【结果】cDNA序列测序结果显示两者均不含内含子,酶蛋白的氨基酸序列中含有典型脂肪酶的活性三联体结构和五肽保守区;酶学性质研究表明,两者的最适底物均为癸酸(C8)对硝基苯酚酯,最适pH为7.0,最适温度为40℃,但LIP4对pH和温度更敏感;两者均能被Ca2+激活,且LIP5还能为Mg2+激活,但均被Hg2+、乙二胺四乙酸(EDTA)和苯甲基磺酰氟(PMSF)强烈抑制。【结论】首次克隆了解脂耶氏酵母脂肪酶LIP4和LIP5编码基因,实现了其在毕赤酵母中的活性表达,并初步研究了其酶学性质,为上述脂肪酶的应用及进一步深入研究解脂耶氏酵母脂肪酶家族奠定了基础。     

内切葡聚糖酶基因在大肠杆菌与毕赤酵母中的表达

根据绿色木霉(Trichoderma viride)WL 0422菌株内切葡聚糖酶基因egⅡ的cDNA序列,设计特异引物,以重组质粒pTG19-T-egⅡ为模板,扩增得到全长1 194bp的egⅡ成熟肽cDNA片段.将该片段分别克隆到大肠杆菌(Escherichia coil)表达载体pET-28a( )和毕赤酵母(Pichia pastoris)表达载体pPIC9K中,并在大肠杆菌Rosset(DE3)和毕赤酵母GS115中进行了表达.重组大肠杆菌表达蛋白占菌体总蛋白的15%,表达产物无内切葡聚糖酶活性.重组毕赤酵母经甲醇诱导实现了分泌表达,在摇床水平上酶活性达到2 788U/ml.酶学性质分析表明,该酶作用的最适pH为4.5,pH 3.5～6.0范围内酶活性保留在80%以上;最适温度为50℃,55℃以下酶的稳定性在90%以上.     

Molecular cloning, overexpression, and purification of a major xylanase from Aspergillus oryzae

The gene encoding xylanase G2 (xynG2) was isolated from a genomic library of Aspergillus oryzae KBN616, used for making shoyu koji. The structural part of xynG2 was found to be 767 bp. The nucleotide sequence of cDNA amplified by RT-PCR showed that the open reading frame of xynG2 was interrupted by a single intron which was 71 bp in size and encoded 232 amino acids. Direct N-terminal amino acid sequencing showed that the precursor of XynG2 had a signal peptide of 44 amino acids. The predicted amino acid sequence of XynG2 has strong similarity to other family 11 xylanases from fungi. The xynG2 gene was successfully overexpressed in A. oryzae and the overpexpressed XynG2 was purified. The molecular weight of XynG2 estimated on sodium dodecyl sulfate-polyacrylamide gel electrophoresis was 21,000. This was almost the same as the molecular weight of 20,047 calculated from the deduced amino acid sequence. The purified XynG2 showed an optimum activity at pH 6.0 and 58 degrees C. It had a Km of 5.1 mg/ml and a Vmax of 123 micromol/min/mg when birch wood xylan was used as a substrate.     

Molecular Cloning,Overexpression, and Purification of a Major Xylanase from Aspergillus oryzae

The gene encoding xylanase G2 (xynG2) was isolated from a genomic library of Aspergillus oryzae KBN616, used for making shoyu koji. The structural part of xynG2 was found to be 767 bp. The nucleotide sequence of cDNA amplified by RT-PCR showed that the open reading frame of xynG2 was interrupted by a single intron which was 71 bp in size and encoded 232 amino acids. Direct N-terminal amino acid sequencing showed that the precursor of XynG2 had a signal peptide of 44 amino acids. The predicted amino acid sequence of XynG2 has strong similarity to other family 11 xylanases from fungi. The xynG2 gene was successfully overexpressed in A. oryzae and the overpexpressed XynG2 was purified. The molecular weight of XynG2 estimated on sodium dodecyl sulfate-polyacrylamide gel electrophoresis was 21,000. This was almost the same as the molecular weight of 20,047 calculated from the deduced amino acid sequence. The purified XynG2 showed an optimum activity at pH 6.0 and 58°C. It had a Km of 5.1 mg/ml and a Vmax of 123 μmol/min/mg when birch wood xylan was used as a substrate.     

Cloning of a xylanase gene <Emphasis Type="Italic">xyn2A</Emphasis> from rumen fungus <Emphasis Type="Italic">Neocallimastix</Emphasis> sp. GMLF2 in <Emphasis Type="Italic">Escherichia coli</Emphasis> and its partial characterization

Anaerobic fungi belonging to the family Neocallimastigaceae are native inhabitants in the rumen of the most herbivores, such as cattle, sheep and goats. A member of this unique group, Neocallimastix sp. GMLF2 was isolated from cattle feces and screened for its xylanase encoding gene using polymerase chain reaction. The gene coding for a xylanase (xyn2A) was cloned in Escherichia coli and expression was monitored. To determine the enzyme activity, assays were conducted for both fungal xylanase and cloned xylanase (Xyl2A) for supernatant and cell-associated activities. Optimum pH and temperature of the enzyme were found to be 6.5 and 50°C, respectively. The enzyme was stable at 40°C and 50°C for 20 min but lost most of its activity when temperature reached 60°C for 5-min incubation time. Rumen fungal xylanase was mainly released to the supernatant of culture, while cloned xylanase activity was found as cell-associated. Multiple alignment of the amino acid sequences of Xyl2A with published xylanases from various organisms suggested that Xyl2A belongs to glycoside hydrolase family 11.     

链霉菌zxy19木聚糖酶酶学性质及酶基因克隆

采用平板筛选法,从红树林放线菌中筛选到一株有较强木聚糖酶活的菌株zxy19,其16SrDNA序列与Streptomyces sampsonii的同源性仅为96%.该菌株木聚糖酶活为852.41 IU/mL,酶反应最适pH值为7,最适反应温度为60℃.用针对木聚糖酶基因保守结构域的一对简并引物扩增到该酶基因部分序列,进而通过反向PCR扩增到了完整的酶基因,对该基因序列分析结果表明此木聚糖酶基因属于糖基水解酶家族11的成员,酶蛋白氨基酸序列与已报道序列同源性最高为79%(Streptomyces lividans xylanase B).构建了该酶重组表达质粒pET-28a-xyl 696,经过IPTG诱导实现了该酶蛋白在大肠杆菌BL21(DE3)中的异源表达,且通过镍柱纯化后的表达产物具有生物学活性.     

Cloning, sequencing, and expression of a xylanase gene from the anaerobic ruminal bacterium Butyrivibrio fibrisolvens.

A gene coding for xylanase activity, xynA, from the anaerobic ruminal bacterium Butyrivibrio fibrisolvens 49 was cloned into Escherichia coli JM83 by using plasmid pUC19. The gene was located on a 2.3-kilobase (kb) DNA insert composed of two adjacent EcoRI fragments of 1.65 and 0.65 kb. Expression of xylanase activity required parts of both EcoRI segments. In E. coli, the cloned xylanase enzyme was not secreted and remained cell associated. The enzyme exhibited no arabinosidase, cellulase, alpha-glucosidase, or xylosidase activity. The isoelectric point of the cloned protein was approximately 9.8, and optimal xylanase activity was obtained at pH 5.4. The nucleotide sequence of the 1,535-base-pair EcoRV-EcoRI segment from the B. fibrisolvens chromosome that included the xynA gene was determined. An open reading frame was found that encoded a 411-amino-acid-residue polypeptide of 46,664 daltons. A putative ribosome-binding site, promoter, and leader sequence were identified. Comparison of the XynA protein sequence with that of the XynA protein from alkalophilic Bacillus sp. strain C-125 revealed considerable homology, with 37% identical residues or conservative changes. The presence of the cloned xylanase gene in other strains of Butyrivibrio was examined by Southern hybridization. The cloned xylanase gene hybridized strongly to chromosomal sequences in only two of five closely related strains.     

Cloning and DNA sequencing of xyaA, a gene encoding an endo-beta-1,4-xylanase from an alkalophilic Bacillus strain (N137).

The gene xyaA encoding an alkaline endo-beta 1,4-xylanase from an alkalophilic Bacillus sp. strain (N137) isolated in our laboratory was cloned and expressed in Escherichia coli. The nucleotide sequence of a 1,656-bp DNA fragment containing xyaA was determined, revealing one open reading frame of 993 bp that encodes a xylanase (XyaA) of 39 kDa. This xylanase lacks a typical putative signal peptide, yet the protein is found in the Bacillus culture supernatant. In Escherichia coli, the active protein is located mainly in the periplasmic space. The xylanase activity of the cloned XyaA is an endo-acting enzyme that shows optimal activity at pH 8 and 40 degrees C. This activity is stable at a pH between 6 and 11. Incubations of XyaA at 40 degrees C for 1 h destroyed 45% of the activity.     

A new xylanase from thermoalkaline <Emphasis Type="Italic">Anoxybacillus</Emphasis> sp. E2 with high activity and stability over a broad pH range

A xylanase gene, xynE2, was cloned from thermoalkaline Anoxybacillus sp. E2 and was expressed in Escherichia coli BL21 (DE3). The gene consisted of 987 bp and encoded a 328-residue xylanase with a calculated molecular weight of 38.8 kDa. On the basis of amino acid sequence similarities, this enzyme was assigned as a member of glycoside hydrolase family 10. Purified recombinant XynE2 showed maximal activity at pH 7.8 and 65°C, and was thermostable at 60°C. The enzyme was highly active and stable over a broad pH range, showing more than 90% of maximal activity at pH 6.6–pH 8.6 and retaining more than 80% of activity at pH 4.6–pH 12.0, 37°C for 1 h, respectively. These favorable properties make XynE2 a good candidate in the pulp and paper industries. This is the first report on gene cloning, expression and characterization of a xylanase from the genus Anoxybacillus.     

Molecular cloning and heterologous expression of an alkaline xylanase from Bacillus pumilus HBP8 in Pichia pastoris

The xynHB gene, encoding alkaline xylanase was cloned from Bacillus pumilus by a shot-gun method. The gene was cloned into vector pHBM905A, and expressed in Pichia pastoris GS115. Xylanase-secreting transformants were selected on plates containing RBB-xylan. Enzymatic activity in the culture supernatants was up to 644?U?mL^?1 and the optimal secretion time was 4 days at 25°C. SDS-PAGE showed two bands, of 32.2?kDa and 29.6?kDa, both larger than the predicted mass of 22.4?kDa based on its amino acid sequence. Zymogram analysis demonstrated that the enzyme in both bands could hydrolyze xylan. Deglycosylation by endoglycosidase H revealed that both were derived from the same protein but contain different extents of glycosylation (30 and 25%). The optimal pH and temperature of the enzyme was pH6–9 and 50°C, respectively.     

Cloning of a xylanase gene from Aspergillus usamii and its expression in Escherichia coli

The complete gene xyn// that encodes endo-1,4-beta-xylanase secreted by Aspergillus usamii E001 was cloned and sequenced. The coding region of the gene is separated by only one intron. It encodes 184 amino acid residues of a protein with a calculated molecular weight of 19.8kDa plus a signal peptide of 27 amino acids. The amino acid sequence of the xyn// gene has higher similarity with those of family 11 of glycosyl hydrolases reported from other microorganisms. The mature peptide encoding cDNA was subcloned into pET-28a(+) expression vector. The recombinant plasmid was expressed in Escherichia coli BL21-CodonPlus (DE3)-RIL, and xylanase activity was measured. The expressed fusion protein was analyzed by SDS-PAGE and a new specific band with molecular weight of about 20kDa was found when induced by IPTG. Enzyme activity assay verified the recombinant protein as a xylanase. A maximum activity of 49.6Umg(-1) was obtained from cellular extract of E. coli BL21-CodonPlus (DE3)-RIL harboring pET-28a-xyn//. The xylanase had optimal activity at pH 4.6 and 50 degrees C. This is the first report on the cloning of a xylanase gene from A. usamii.     

Molecular cloning and heterologous expression of an alkaline xylanase from Bacillus pumilus HBP8 in Pichia pastoris

The xynHB gene, encoding alkaline xylanase was cloned from Bacillus pumilus by a shot-gun method. The gene was cloned into vector pHBM905A, and expressed in Pichia pastoris GS115. Xylanase-secreting transformants were selected on plates containing RBB-xylan. Enzymatic activity in the culture supernatants was up to 644 U mL^-1 and the optimal secretion time was 4 days at 25°C. SDS-PAGE showed two bands, of 32.2 kDa and 29.6 kDa, both larger than the predicted mass of 22.4 kDa based on its amino acid sequence. Zymogram analysis demonstrated that the enzyme in both bands could hydrolyze xylan. Deglycosylation by endoglycosidase H revealed that both were derived from the same protein but contain different extents of glycosylation (30 and 25%). The optimal pH and temperature of the enzyme was pH6-9 and 50°C, respectively.