携多拷贝glaA的重组黑曲霉过量合成糖化酶的研究

以工业生产菌株黑曲霉CICIMF0410基因组DNA为模板,扩增出糖化酶glaA基因,测序并进行表达研究。GlaA基因的核苷酸序列长为2167bp,包含4个内含子。氨基酸序列比对表明此黑曲霉糖化酶与其他曲霉属来源的糖化酶有很高的同源性。将glaA基因克隆到pBC-Hygro载体中,构建重组质粒pBC-Hygro-glaA并转化A.nigerF0410。携多拷贝glaA的转化子用150μg/mL潮霉素抗性筛选并通过荧光实时定量PCR鉴定。结果表明,在染色体整合2~3倍糖化酶基因对糖化酶的过量合成是适宜的,有助于提高糖化酶活力。对转化子进行摇瓶发酵研究,发酵终止时转化子GB0506的糖化酶活力比出发菌株F0410提高了17.5%。因此,增加黑曲霉染色体糖化酶基因的拷贝数可以显著提高糖化酶活力。     

黑曲霉3.795glaA基因及其5'调控区的克隆和序列分析

黑曲霉Ｔ２１是由黑曲霉３．７９５经诱变育种获得的糖化酶高产菌株,为阐明其高产的分子机制,由黑曲霉３．７９５克隆了糖化酶结构基因及其５′旁侧序列,并与黑曲霉Ｔ２１的相应序列进行了比较．由黑曲霉３．７９５菌丝体分离染色体ＤＮＡ,Ｓｏｕｔｈｅｒｎ杂交分析表明,糖化酶结构基因位于～２．５ｋｂ的ＥｃｏＲⅠ－ＥｃｏＲⅤ染色体ＤＮＡ片段上,在此ＥｃｏＲⅠ位点上游约１．０ｋｂ处有一ＳａｌⅠ位点．为构建糖化酶结构基因及其５′旁侧序列的基因组文库,该染色体ＤＮＡ分别用ＥｃｏＲⅠ＋ＥｃｏＲⅤ和ＥｃｏＲ＋ＳａｌⅠ消化,琼脂糖凝胶电泳分离并回收长度在１．０ｋｂ左右和２．５ｋｂ左右的ＤＮＡ片段,分别与ｐＵＣ１９载体连接后转化入Ｅ．ｃｏｌｉＤＨ５．用原位杂交方法筛选到了携带糖化酶基因编码区及其１５０５ｂｐ５′旁侧序列的阳性克隆．对克隆片段的ＤＮＡ序列进行了测定并与黑曲霉Ｔ２１的相应序列进行了比较,结果表明,在糖化酶基因编码区及其１５０ｂｐ３′非编码区内,未发现碱基差异,但在－３４０～－１５０５的５′上游区内发生了９个位置的碱基变化,包括缺失、插入和替换．这些结果表明,黑曲霉Ｔ２１与３．７９５的糖化酶产量的差异与其结构基因无关,但可能与其     

A truncated glucoamylase gene fusion for heterologous protein secretion from Aspergillus niger

Abstract The secreted yield of hen egg-white lysozyme (HEWL) from the filamentous fungus Aspergillus niger was increased 10–20-fold by constructing a novel gene fusion. The cDNA sequence encoding mature HEWL was fused in frame to part of the native A. niger gene encoding glucoamylase ( gla A), separated by a proteolytic cleavage site for in vivo processing. Using this construct, peak secreted HEWL yields of 1 g/l were obtained in A. niger shake flask cultures compared to about 50 mg/l when using an expression cassette lacking any gla A coding sequence. The portion of gla A used in the gene fusion encoded the first 498 amino acids of glucoamylase (G498) and comprised its secretion signal, the catalytic domain and most of the O-glycosylated linker region which, in the entire glucoamylase molecule, spatially separates and links the catalytic and starch-binding domains.     

黑曲霉糖化酶基因表达调控的研究：I.高产及低产菌株糖化酶表达…

对黑曲霉高产菌株Ｔ２１和原始菌株３．７９５糖化酶的基因表达从菌体生长、酶形成动力学、ｇｌａＡ基因拷贝数、糖化酶ｍＲＮＡ含量及其稳定性等多个方面进行了分析和比较。Ｔ２１和３．７９５糖化酶的大量产生均自菌体生长的静止期开始。培养７２ｈ捂得的菌体浓度相同,但Ｔ２１产生的糖化酶量为３．７９５的１０￣１７倍,说明糖化酶产量的差异不是因生物量或酶起始合成期不同引起的,而是由于细胞内酶表达量不同引起的。Ｎｏｒｔ     

黑曲霉糖化酶基因表达调控的研究 Ⅰ.高产及低产菌株糖化酶表达的总体分析和比较

对黑曲霉(Aspergillus niger)高产菌株T21和原始菌株3.795糖化酶的基因表达从菌体生长、酶形成动力学、glaA基因拷贝数、糖化酶mRNA含量及其稳定性等多个方面进行了分析和比较。T21和3.795糖化酶的大量产生均自菌体生长的静止期开始。培养72h后,两者的菌体浓度相同,但T2l产生的糖化酶量为3.795的10～17倍,说明糖化酶产量的差异不是因生物量或酶起始合成期不同引起的,而是由于细胞内酶表达量不同引起的。Northern杂交显示T21总RNA中糖化酶mRNA含量为3.795的4.3～4.4倍.两菌株glaA基因拷贝数及糖化酶mRNA的稳定性分析结果排除了这两个因素的影响,因此T21糖化酶mRNA含量的增加主要是glaA基因转录水平提高的结果。T21与3.795之间糖化酶水平差异(10～17倍)与糖化酶mRNA水平差异(4.3～4.4倍)的不一致性,提示T21和3.795之间除转录水平外可能还存在着翻译水平上的差异(2～4倍)。此外,T21和3.795均存在着对糖化酶基因表达的碳源调控机制,根据两者在淀粉、麦芽糖和葡萄糖培养条件下所产生的mRNA比均为4:3:2,可以认为,这种调控作用发生在转录水平上,并且具有相同的调控方式。     

嗜热糖化酶基因在重组黑曲霉工程菌中的表达及酶学性质初步研究

为了提高糖化酶的耐热性能,降低淀粉糖化发酵工艺的生产成本,构建了同源整合载体pEasy-glaAdir以及pEasyssg,将黑曲霉(Aspergillus niger)的糖化酶基因(glaA)灭活,并将硫磺矿硫化叶菌(Sulfolobus solfataricus)的嗜热糖化酶基因(ssg)插入到黑曲霉基因组中,筛选得到表达嗜热糖化酶的重组黑曲霉工程菌(A.nigerWW1)。重组菌的发酵结果显示,嗜热糖化酶在黑曲霉中得到了分泌表达,发酵液酶活达到3 030 U/mL。重组嗜热糖化酶的最适反应温度为90℃,最适pH为6.0,该酶具有较高的热稳定性,在80℃时的半衰期在60 min以上,具有良好的工业应用前景。     

Secretion of the proenzyme and active bovine pancreatic phospholipase A2 enzyme by Saccharomyces cerevisiae: design and use of a synthetic gene

We have developed a phospholipase A2(PLA2)-producing system using Saccharomyces cerevisiae. A 456-bp synthetic DNA fragment was constructed encoding bovine pancreatic phospholipase A2 (proPLA2; zymogen) along with the signal sequence of dog pancreatic PLA2. Yeast-preferred codons were chosen and unique restriction enzyme sites were incorporated. 22 oligodeoxynucleotides that varied in size from 33 to 48 nucleotides were chemically synthesized and assembled into the DNA fragment, which was then placed under the control of the yeast acid phosphatase repressible promoter. The resulting plasmid, transformed into S. cerevisiae, directed the synthesis of about 2.8 micrograms/ml of PLA2, most of which was secreted into the culture fluid. The secreted PLA2 comprised 18 to 26% of active enzyme, the remainder being proenzyme. Both had the expected N-terminal amino acid sequences, indicating that the yeast accurately released the signal peptide and the activation peptide (N-terminal heptapeptide of proPLA2). The specific activity of PLA2 thus produced is the same as that of the authentic bovine enzyme.     

黑曲霉糖化酶高产和低产菌株糖化酶基因调控区的克隆及其分析比较

以PCR合成的糖化酶高产菌株黑曲霉(Asp. Niger)T21糖化酶基因5’近端非编码区588bp(EcoRI-BamHI)的序列为探针,从T21染色体DNA中克隆到近2.0kb的糖化酶基因5’端非编码区序列,并以此序列为探针从糖化酶低产菌株黑曲霉3.795(T21的诱变出发株)的染色体DNA中克隆到1.5kb的糖化酶基因5’端非编码区序列。该二序列的分析测定结果表明,其结构特征与文献报道的黑曲霉糖化酶基因5’端非编码区的基本一致,被称为“核心启动子”(Core promoter)的TATAAAT框及GCAAT框,分别在翻译起始点的-109bp及-178bp处。此外,在曲霉amdS,amyB基因中已发现有调控功能的CCAAT序列存在于-449bp和-799bp处。高产和低产菌株糖化酶基因5’端非编码区序列的分析比较结果表明,有9个部位的碱基发生了变化。此实验结果为进一步研究黑曲霉糖化酶基因在转录水平上的调控规律打下了基础。     

Glucoamylase overexpression and secretion in Aspergillus niger: analysis of glycosylation

We have studied the effects of overexpression and secretion of a homologous model glycoprotein, glucoamylase (GAM-1), on glycosylation in a single gene copy wild-type parent and multiple gene copy transformants of Aspergillus niger. In batch culture the B36 strain, which possess 80 additional copies of the GAM glaA gene, secreted about 5-8-fold more protein and GAM-1 than the parent strain (N402). A comparison of the glycosylation of GAM-1 secreted by the parent strain with that secreted by the multiple copy and hyper-secreting B36 strain showed that both the N-linked and O-linked glycan composition was very similar. Short oligomannose N-linked glycans were found (Man(7-8)GlcNAc(2)). O-Linked glycans were comprised of short (1-3 residues) oligosaccharide chains of mannose and galactose. Evidence is presented that this galactose is present in the novel galactofuranose conformation. This glycan composition of GAM-1 differed from that of a commercially available (A. niger) GAM source. Microsomes prepared from the mycelium showed a 2-3-fold co-ordinated increase in the activity of the dolichol phosphate:glycosyltransferases. Similar results were obtained from strains B1 (20 copies of glaA) and N402 when grown at a low dilution rate in a chemostat, although both the levels of GAM secretion and the activities of the dolichol phosphate:glycosyltransferases were lower than found in batch culture. These data suggest that A. niger is capable of secreting large amounts of a single glycoprotein combined with higher activity levels of the dolichol phosphate:glycosyltransferases without an increase in the heterogeneity of the glycan structures. Thus, from a biotechnological viewpoint, protein glycosylation may not be a bottleneck to enhanced glycoprotein production using A. niger.     

Expression of porcine pancreatic phospholipase A2. Generation of active enzyme by sequence-specific cleavage of a hybrid protein from Escherichia coli.

The cDNA coding for the porcine pancreatic prophospholipase A2 (proPLA) has been cloned and expressed in E. coli. Expression of proPLA could only be obtained in the form of intracellular aggregates after fusing the 15 kDa proPLA to a large (greater than or equal to 45 kDa) bacterial peptide. The fusion protein was readily purified from cell lysates, and specifically cleaved. Cleavage of the fusion protein was achieved with either hydroxylamine (at Asn/Gly sequences in the denatured protein), or trypsin (between the pro- and the mature PLA in the renatured fusion protein). The former method releases a proPLA-like enzyme, while the latter directly yields PLA. Renaturation of the fusion protein was made possible by the use of a recently reported new S-sulphonation method. The released (pro)PLA was purified (yields of 2-3 mg/ltr of culture medium), and showed identical properties compared to native (pro)PLA.     

Expression of catalytic subunit of bovine enterokinase in the filamentous fungus Aspergillus niger

The cDNA encoding for catalytic subunit of bovine enterokinase (EK(L)), to which the sequence for Kex2 protease cleavage site was inserted, was expressed in the protease deficient filamentous fungus Aspergillus niger AB1.13. Fungal transformants were obtained in which expression of the glucoamylase fusion gene resulted in secretion of the protein into growth medium. Fusion polypeptide was processed to mature EK(L) by endogenous Kex-2 like protease cleavage during secretory pathway. The highest quantity of EK(L), up to 5 mg l(-1), was obtained in soya milk medium. The secreted EK(L) was easily purified from other proteins found in A. niger culture supernatant, using ion exchange and affinity chromatography. The yield of the purified and highly active EK(L) was 1.9 mg l(-1) of culture.     

Nucleotide sequence and expression of the glucoamylase-encoding gene (glaA) from Aspergillus oryzae.

The glucoamylase-encoding gene (glaA) from Aspergillus oryzae was cloned using its cDNA as a probe, which had been isolated previously. From comparison of nucleotide (nt) sequences of genomic clones with its cDNA, the glaA gene was found to contain four short putative introns, 45-56 nt in length. The A. oryzae glaA gene shared 62% homology at the nt level with the A. niger glaA gene with the four introns located at the same position. The 5'-flanking region contained a TATA box at nt-72 from the start codon, and two putative CAAT sequences at nt-87 and -331. Genomic Southern analysis and physical mapping showed that the glaA gene is located on the smallest chromosome (3.4 Mb) of six separated bands of chromosomes. Clones containing the glaA gene, when re-introduced intro A. oryzae, resulted in a three- to eightfold increase in glucoamylase activity.