纳豆激酶基因的表达及纯化

利用PCR方法从分泌纳豆激酶的枯草杆菌基因组DNA中扩增得到纳豆激酶基因(NK),利用基因重组技术构建了纳豆激酶基因的表达载体pETNK。在诱导下,实现了在大肠杆菌中高效表达,经SDS-PAGE电泳分析和薄层扫描结果显示,表达的目的蛋白占菌体蛋白的21．5％。将表达产物经过DEAE-Cellulos-DE52和Sephedax-G100两个柱分离纯化,得到纯的纳豆激酶蛋白干粉,经琼脂糖-纤维蛋白平板法测出纳豆激酶干粉的溶栓活性相当于200u尿激酶。从基因工程角度研究纳豆激酶基因的克隆、表达及纯化,为用基因工程菌生产纳豆激酶奠定了基础。     

重组纳豆激酶的研究进展

纳豆激酶是一种碱性丝氨酸蛋白酶,具有较强的直接溶解血纤维蛋白的特性,与当前的溶栓药物相比具有诸多优点,已成为新型溶栓药物开发的焦点。本文首先简要介绍了纳豆激酶基因及纳豆激酶分子的理化特性和生物学功能,对当前国内外采用基因工程技术（密码子优化、点突变、高效表达系统构建等）重组表达纳豆激酶的研究进展进行了综述,分析了其中存在的主要问题和不足以及商业化生产重组纳豆激酶的可能性,对纳豆激酶在医药、食品等行业中的应用前景进行了展望。     

纳豆激酶酶原基因和纳豆激酶基因的克隆及在大肠杆菌中表达

目的：构建可高效生产有活性的纳豆激酶的大肠杆菌工程菌。方法：将纳豆激酶酶原（pro-nattokinase,pro-NK)基因和纳豆激酶（natokinase,NK)基因,并分别克隆到表达融合蛋白的高效表达载体pJN上,构建出表达质粒pJNK1和pJNK2,并转化大肠杆菌BL21（DE3）。结果：IPTG诱导下,两个融合蛋白的表达量均达到30%,活性检测显示表达纳豆激酶酶原融合蛋白的菌株pJNK-1(BL)诱导后菌体破碎上清的溶栓活性比表达纳豆激酶融合蛋白的菌株pJNK-2(BL)高2-3倍,结论：纳豆激酶酶原融合蛋白部分自减切产生纳豆激酶成熟肽。     

纳豆激酶基因的克隆与表达

利用ＰＣＲ方法从分泌纳豆激酶的枯草杆菌基因组ＤＮＡ 中扩增得到了纳豆激酶基因,并测定其核苷酸序列．利用基因重组技术构建了纳豆激酶基因的表达载体,并在大肠杆菌中进行了表达．ＳＤＳ－聚丙烯酰胺凝胶电泳表明,表达蛋白占菌体蛋白的１５．２％ ,琼脂糖－纤维蛋白平板法测出表达产物具有溶解血栓活性．     

一株高产纳豆激酶菌株的鉴定与分析

鉴定高产纳豆激酶菌株Td,分析纳豆激酶的分子特征。利用菌体形态、生理生化特征、以及分子生物学方法对菌株Td进行鉴定;并采用MALDI-TOF质谱测定与分析、SDS-PAGE和纤溶活性测定等方法检测纳豆激酶特性,利用PCR方法扩增纳豆激酶的基因全长。结合菌体形态、生理生化特征和16S r DNA、gyr A基因序列、DNA-DNA杂交率等实验结果,鉴定菌株Td为枯草芽孢杆菌枯草亚种(Bacillus subtilis subsp.subtilis);菌株Td发酵产生的纳豆激酶产量可达300 mg/L以上,占发酵液总蛋白的40%以上;纤溶活性达230 U/m L以上;氨基酸序列与subtilisin E的序列相似性最高;基因全长序列为1 143 bp。枯草芽孢杆菌枯草亚种Td是一株高产、高活性纳豆激酶的产生菌,具有优良的工业化开发价值。     

纳豆激酶基因的克隆及其在毕赤酵母中的表达

纳豆激酶纳是从日本传统食品纳豆中发现的一类具有溶栓效果的蛋白酶,由于其具有安全,高效,作用时间长,易吸收,廉价等优点,现在正成为一个开发治疗血栓类疾病药物的研究热点。从本实验室保存的一株高溶栓的纳豆杆菌N07出发,提取总基因组DNA,利用PCR手段扩增获得了纳豆激酶长为825bp的成熟肽基因片段。构建重组表达质粒pPICZaA-NK,经EcoR I、Xba I双酶切、PCR、测序验证得出重组表达质粒上的外源基因即为825bp的目的片段;将重组质粒pPICZaA-NK用内切酶Sac I线性化后电击导入毕赤酵母X33,通过含Zeocin的YPDS平板筛选获得重组酵母。重组酵母在BMMY培养基中发酵培养,用1%甲醇诱导目的蛋白表达。用纤维蛋白平板法检测发现发酵上清具有纤溶活性,经硫酸铵盐析、透析、Sephadex-G50过柱等步骤分离得到纳豆激酶蛋白,进行SDS-PAGE鉴定表明,表达的纳豆激酶蛋白分子量为27KD。以尿激酶为标准,实验所得纳豆激酶发酵上清液溶栓活性约为195U/mL。成功的将纳豆激酶成熟肽基因在毕赤酵母X33中表达,为纳豆激酶基因工程进一步研究奠定基础。     

纳豆激酶的原核表达、纯化及其特性分析（英文）

纳豆激酶(Nattokinase)作为一种新型溶解血栓的纤维蛋白溶解酶,有着广阔的市场前景和巨大的产业化潜力。本研究从枯草芽胞杆菌(Bacillus subtilis natto)发酵液中提取、纯化纳豆激酶,依次通过硫酸铵盐析、凝胶过滤层析和疏水层析方法纯化纳豆激酶,纯化倍数为5.2,纯化率为46.3%。纯化后的纳豆激酶经SDS-PAGE电泳显示相对分子量约为28 kD a,纤维蛋白平板法显示活性为4 580 IU/mg。但纳豆激酶在枯草芽胞杆菌发酵液中的含量较低,因此在原核表达载体大肠埃希菌(Escherichia coli)BL21(DE3)中克隆并高效表达了纳豆激酶基因,其纳豆激酶产量显著提高,但酶活相对降低。     

纳豆激酶基因在E.coli HB101中的初步表达研究

利用PCR技术以纳豆杆菌染色体DNA为模板扩增纳豆激酶基因,将该基因克隆到温度诱导型表达形体pVB220上,转化E．coliHB101,获得转豆激酶基因重组菌。在确定了其最佳培养时间与诱导时间后,SDS－PAGE分析结果表明基因表达产物为分泌型,蛋白表达量占菌体蛋白的12％左右,液体发酵后纳豆激酶产量可达120U／ml菌液,对重组菌中重组质粒的稳定性进行研究,结果表明该质粒在宿主菌中具有良好的分离稳定性,而结构稳定性较差。     

纳豆激酶基因在E.coli HB101中的初步表达研究*

利用PCR技术以纳豆杆菌染色体DNA为模板扩增纳豆激酶基因 ,将该基因克隆到温度诱导型表达载体pBV2 2 0上 ,转化_{E .coli}HB1 0 1 ,获得转纳豆激酶基因重组菌。在确定了其最佳培养时间与诱导时间后 ,SDS PAGE分析结果表明基因表达产物为分泌型 ,蛋白表达量占菌体蛋白的12%左右 ,液体发酵后纳豆激酶产量可达 120U/mL菌液。对重组菌中重组质粒的稳定性进行研究 ,结果表明该质粒在宿主菌中具有良好的分离稳定性 ,而结构稳定性较差。     

药食两用纳豆激酶的研究进展

本文从血栓栓塞疾病的形成机制为依据,综述了纳豆激酶的药理作用。介绍了国内外产纤溶酶菌株的筛选方法,纳豆激酶的分离、纯化常用技术,纳豆激酶的生理生化特性、活性测定方法。并说明了影响纳豆激酶稳定的4个因素,和增加纳豆激酶产量的有效方法。通过药食两用纳豆激酶的研究进展,希望对纳豆激酶的研究提供理论基础。     

Optimization of media composition for Nattokinase production by Bacillus subtilis using response surface methodology

Response surface methodology and central composite rotary design (CCRD) was employed to optimize a fermentation medium for the production of Nattokinase by Bacillus subtilis at pH 7.5. The four variables involved in this study were Glucose, Peptone, CaCl(2), and MgSO(4). The statistical analysis of the results showed that, in the range studied; only peptone had a significant effect on Nattokinase production. The optimized medium containing (%) Glucose: 1, Peptone: 5.5, MgSO(4): 0.2 and CaCl(2): 0.5 resulted in 2-fold increased level of Nattokinase (3194.25U/ml) production compared to initial level (1599.09U/ml) after 10h of fermentation. Nattokinase production was checked with fibrinolytic activity.     

纳豆激酶溶解血栓机制

根据已有文献报道,综述了关于纳豆激酶溶栓机制的研究进展,将纳豆激酶的溶栓机制归纳为以下四点:直接溶栓作用;刺激血管内皮细胞产生内源tPA;激活体内尿激酶原转变为尿激酶;通过降解和失活纤溶酶原激活剂的抑制剂(PAI1)调控纤溶作用 。     

纳豆激酶基因的克隆及其在枯草杆菌中的表达

为研究纳豆激酶（nattokinase,NK)的生物化学性质,以纳豆芽胞杆菌基因组DNA为模板,PCR扩增包含启动子及3‘端非翻译区的纳豆激酶全长基因序列。经鉴定后构建大肠杆菌－枯草杆菌穿梭表达质粒pBLNK,转化蛋白缺陷型枯草杆菌,筛选表达菌株。表达株培养15h后收集培养上清液,SDS－PAGE分析证实表达产物后,用超滤浓缩、分子筛、离子交换等步骤分离纯化重组NK,每升发酵液得纯度达95％的重组NK约100mg,比活性达12000u/mg。     

Purification of nattokinase by reverse micelles extraction from fermentation broth: effect of temperature and phase volume ratio

Nattokinase is a novel fibrinolytic enzyme that is considered to be a promising agent for thrombosis therapy. In this study, reverse micelles extraction was applied to purify and concentrate nattokinase from fermentation broth. The effects of temperature and phase volume ratio used for the forward and backward extraction on the extraction process were examined. The optimal temperature for forward and backward extraction were 25°C and 35°C respectively. Nattokinase became more thermosensitive during reverse micelles extraction. And it could be enriched in the stripping phase eight times during backward extraction. It was found that nattokinase could be purified by AOT reverse micelles with up to 80% activity recovery and with a purification factor of 3.9.     

High and Economical Nattokinase Production with Acetoin as a Useful Byproduct from Soybean Milk and Glucose

Probiotics and Antimicrobial Proteins - Nattokinase (NK) is a potent fibrinolytic enzyme with wide pharmaceutical and nutraceutical applications. Safe and high NK-yielding strains are urgently...     

The fibrinolytic activity of a novel protease derived from a tempeh producing fungus, Fusarium sp. BLB

Tempeh is a traditional Indonesian soybean-fermented food produced by filamentous fungi, Rhizopus sp. and Fusarium sp. We isolated and sequenced the genomic gene and a cDNA clone encoding a novel protease (FP) from Fusarium sp. BLB. The genomic gene was 856 bp in length and contained two introns. An isolated cDNA clone encoded a protein of 250 amino acids. The predicted amino acid sequence of FP showed highest homology, of 76%, with that of trypsin from Fusarium oxysporum. The hydrolysis activity of FP toward synthetic peptide was higher than that of any other protease tested, including Nattokinases. Furthermore, the thrombolytic activity of FP was about 2.1-fold higher than that of Nattokinase when the concentration of plasminogen was 24 units/ml. These results suggest that FP is superior to Nattokinases in dissolving fibrin when absorbed into the blood.     

Comparative genomic analyses of Bacillus subtilis strains to study the biochemical and molecular attributes of nattokinases

Biotechnology Letters - The present research work explores the Nattokinase (NK) producing capacity of five Bacillus subtilis strains (MTCC 2616, MTCC 2756, MTCC 2451, MTCC 1427, and MTCC 7164)...