深海放线菌生淀粉酶基因的克隆表达及酶学特性研究

从深海放线菌Streptomyces sp.SCSIO03032基因组中扩增到1条含淀粉结合域的水解糖苷13家族基因amy032,该基因编码氨基酸与已知蛋白一致性最高为67%。将amy032插入表达载体pET32a启动子下游,构建重组载体pET-amy。重组质粒导入大肠杆菌Rosseta(DE3)菌株中,SDS-PAGE分析结果显示目的基因成功实现异源表达。Ni-NTA对重组酶进行纯化,并对其酶学性质进行表征。结果表明:重组淀粉酶AMY032的最适作用温度为50℃,最适pH为8.0,以可溶性淀粉为底物时的比酶活为(276±57)U/mg,Km为0.02g/L,Vmax为70mg/(L·min)。Ca2+能提高该酶的催化活性,Ni2+、Cu2+、Zn2+和Mn2+对该酶有抑制作用。AMY032对生玉米淀粉和生大米淀粉具有水解活性,其比酶活分别为(49±12)U/mg和(39±11)U/mg;扫描电镜结果显示AMY032使生玉米淀粉的表面产生明显凹陷。     

一株产生淀粉分解酶犁头霉的分离鉴定及其酶学性质

从保宁麸醋醋曲中定向筛选得到一株产生淀粉分解酶的菌株CQB43,其酶活力为105.2 U/mL,RDA值达到27.9%。通过形态观察和分子生物学鉴定确定该菌株为伞枝犁头霉Absidia corymbifera。对该菌株分泌生淀粉酶酶学性质的研究结果表明,该酶在pH为4.0-5.6的范围相对稳定,最适pH是5.0;在60°C以下的范围内具有较好的热稳定性,最适作用温度为40°C。研究金属离子对其活力影响的结果表明,Co2+对该生淀粉糖化酶有激活作用,Fe3+和Ca2+对该酶有抑制作用。     

Bacillus sublitis JH-1木聚糖酶的纯化及酶学性质

对枯草芽孢杆菌Bacillus sublitis JH-1胞外木聚糖酶的纯化及酶学性质进行了研究。通过(NH4)2SO4分级沉淀法、透析除盐、DEAE-Sepharose FF弱阴离子交换层析等方法,从枯草芽孢杆菌Bacillus sublitis JH-1发酵液中分离纯化得到了电泳纯的木聚糖酶,其相对分子质量为3.45×104,比活力为75 899.68 U/mg。酶学性质研究结果表明:该酶的最适p H为6.0,在最适p H条件下保温2 h后仍能保持75%的活力,而p H越高,活力下降越快,表明为酸性木聚糖酶;最适温度为55℃,在50~60℃保温2 h后仍具有70%左右相对较高的活性,说明该酶具有较强的耐高温性;Fe2+、Mg2+、Ca2+、Zn2+、Ba2+和低浓度(5 mmol/L)的Fe3+对酶的活性有促进作用,而Mn2+和高浓度(10mmol/L)的Fe3+对酶的活性有抑制作用。     

类芽胞杆菌碱性果胶裂解酶的纯化与酶学性质表征

从类芽胞杆菌Paenibacillus sp.WZ008的发酵上清液中纯化得到一个高活力碱性果胶裂解酶,经SDS-PAGE电泳估算其亚基相对分子质量为4.5×104。通过对该酶进行酶学性质研究发现：该酶能催化裂解果胶酸、低酯果胶和高酯果胶;酶催化反应最适温度范围为55～60℃,最适pH为9.6,在最适条件下以低酯果胶为底物酶的比酶活达3 021.6 U/mg;Ca2＋能增强该酶的活力,而Mn2＋,Ba2＋和EDTA强烈抑制该酶活力;当没有Ca2＋存在时,高度酯化的果胶是该酶的最适底物,在4 mmol/L Ca2＋存在时,该酶以果胶酸为底物比酶活最高（25 467 U/mg）。该酶N端序列比对分析发现与类芽胞杆菌Paenibacillus amylolyticus strain 27c64果胶裂解酶高度同源。     

刺芹侧耳芳基醇氧化酶的分离纯化及其酶学性质

分离纯化刺芹侧耳Pleurotus eryngii芳基醇氧化酶,并探究其酶学性质。通过硫酸铵盐沉、DEAE-Sepharose Fast Flow弱阴离子交换层析、Sephacryl S-200 High Resolution凝胶过滤层析和Source 15Q强阴离子交换层析,得到纯化的单一酶。经肽指纹图谱鉴定,确定其为芳基醇氧化酶,酶活回收率25.5%,纯化倍数38.2。结合SDS-PAGE和IEF-PAGE分析,确定其分子量和等电点分别为70kDa和4.2。以藜芦醇为底物,该酶最适反应pH为6.0,最适反应温度为70℃,金属离子Zn²⁺、Fe²⁺和Cu²⁺对芳基醇氧化酶的活性抑制作用明显,K_m和V_max分别为0.921mmol/L和80U/mg。     

硫酸乙酰肝素3-O硫酸基转移酶5的表达、纯化及酶学性质研究

经过PCR克隆得到硫酸乙酰肝素3-O硫酸基转移酶5(3-OST-5)的基因,将其与大肠杆菌表达载体pET-15b连接后,在大肠杆菌BL21(DE3)中诱导表达,使用镍亲和层析柱纯化得到具有活性的3-OST-5。经测定纯化后的3-OST-5比活达到0.58 U/mg,是纯化前的5.27倍,回收率达80.4%。在此基础上,研究了该酶的酶学性质,酶反应的最适温度为35℃,稳定范围为20-40℃;最适pH为7.0,在pH7.0-9.0范围内稳定。在反应液中加入终浓度为1 mmol/L的K+、Ca2+、Ba2+对酶促反应有一定的促进作用。     

酸性α-淀粉酶的分离纯化与酶学性质研究

纯化了枯草芽胞杆菌xm-1菌株酸性α-淀粉酶,并对其酶学性质进行了研究。通过硫酸铵沉淀和Sephadex G-75凝胶层析将酸性α-淀粉酶粗酶液纯化了32.5倍,活力回收率为10.0%。酶性质测定结果表明,该酸性α-淀粉酶分子量约为60kD,最适反应温度为45℃、最适作用pH5.0,该酶在pH3.4-6.0下稳定,高温耐受性差。Cu2+、Zn2+、EDTA对酶有不同程度的抑制作用,Ca2+和Mn2+对酶具有较强的激活作用。     

冬虫夏草固态培养菌丝中纤溶酶的纯化和酶学性质

【背景】血栓性疾病发病率逐年递增,发病人群呈现低龄化趋势,严重地影响着人们的身心健康。因此研发高效、安全、特异性强的溶栓药物具有重要的意义,是血栓性疾病预防与治疗研究领域的热点。【目的】对冬虫夏草菌丝固态培养过程中产生的纤溶酶进行分离纯化,并对纯化的纤溶酶进行酶学性质分析。【方法】通过硫酸铵盐析、阳离子交换色谱和Superdex 75凝胶过滤色谱分离纯化虫草纤溶酶。采用Bradford法测定样品中总蛋白质浓度,纤维蛋白平板法测定纤溶酶活性,Native-PAGE检测纯度,SDS-PAGE测定相对分子量。【结果】在固态培养中冬虫夏草菌丝可以产生至少两种纤溶酶,分别命名为OSP-1和OSP-2。纯化后OSP-1比活力达到4186.25U/mg,纯化倍数为41.69倍。OSP-1由两个亚基构成,相对分子量分别为27.60k D和23.83k D,是一种丝氨蛋白酶。酶学性质分析表明,该酶最适作用温度为40°C,最适pH为4.0。Cu2+可促进OSP-1酶活,而Zn2+会抑制酶活。除了具有较高的纤溶酶活性,OSP-1还可发挥激活纤维蛋白酶原的作用。在水解纤维蛋白原的过程中,该酶可依次降解γ、Aα、Bβ链。【结论】研究发现的OSP-1具有开发成新型溶栓药物的潜力。     

点青霉葡萄糖氧化酶基因的克隆及其酶学性质研究

旨在克隆点青霉菌(Penicillium notatum)中的葡萄糖氧化酶基因(GOD),在毕赤酵母(Phchia pastoris)中异源表达,纯化并研究其酶学性质。利用PCR技术从点青霉No.8312菌株的基因组DNA中克隆得到GOD基因,将该基因克隆到穿梭载体p MD-AOX上并在毕赤酵母X33中表达,对纯化后的葡萄糖氧化酶的酶学性质进行分析。结果显示,X33-GOD可高表达具有活性的GOD,在30℃、pH6.5的条件下,其培养液上清GOD酶活可达496 U/mL,比活123.0 U/mg;重组表达的葡萄糖氧化酶最适温度为40-45℃,最适pH为6.0,酶的稳定性研究表明,该酶在pH3.5-7.0区间和温度低于50℃下稳定。1 mmol/L Zn~(2+)对其有激活作用;Ag~+对该酶活性有较大抑制作用。构建出GOD的高产毕赤酵母工程菌株,与点青霉GOD相比,具有更高的发酵酶活和比活。     

大球盖菇漆酶的分离纯化及酶学性质研究

从大球盖菇Sr-01菌株液体发酵液中分离漆酶,研究温度、p H和金属离子对酶活的影响。采用硫酸铵分级沉淀、Q-Sepharose阴离子交换层析和Superdex 200凝胶过滤层析对大球盖菇漆酶进行分离纯化。以ABTS[2,2-连氮基-双-(3-乙基苯并二氢噻唑啉-6-磺酸)]为底物,分光光度法测定酶活。结果表明,纯化后的漆酶比活力为152.79 U/mg,回收率为35.8%。SDSPAGE显示该漆酶为单体蛋白,相对分子质量约40 k D。该漆酶的最适反应温度和p H分别为35℃和4.0,Mg~(2+)、Cu~(2+)对酶活有激活作用,Fe~(2+)、Cd~(2+)、Hg~(2+)则有显著抑制作用。在最优反应条件下,纯化后的漆酶比活力可达222.93 U/mg。     

Thermostable,salt-tolerant amylase fromBacillus sp. 64

A thermostable, salt-tolerant amylase was produced byBacillus sp. 64, with maximum amylase production (8.0 U/ml culture filtrate) after 24-h growth. Partially purified amylase was stable at 60°C for 30 min and 80% of the original activity was retained when incubated in 5m NaCl over 24 h. Starch or dextrin was the best carbon source and peptone the best nitrogen source for the production of the enzyme. Amylase was secreted over a wide pH range (5 to 11) with the maximum activity between pH 7 and 8. Ca²⁺ and Mg²⁺ stimulated growth and enzyme production.NCL Communication No. 5209.     

Purification and characterization of an extracellular alpha-amylase from Bacillus subtilis AX20

A Bacillus subtilis AX20 from soil with ability to produce extracellular alpha-amylases was isolated. The characterization of microorganism was performed by biochemical tests as well as 16S rDNA sequencing. Maximum amylase activity (38 U/ml) was obtained at stationery phase when the culture was grown at 37 degrees C. The enzyme was purified to homogeneity with an overall recovery of 24.2% and specific activity of 4133 U/mg. The native protein showed a molecular mass of 149 kDa composed of a homodimer of 78 kDa polypeptide by SDS-PAGE. The optimum pH and temperature of the amylase were 6 and 55 degrees C, respectively. The enzyme was inhibited by Hg(2+), Ag(2+), and Cu(2+) and it did not show an obligate requirement of metal ions. The enzyme was not inhibited by EDTA or EGTA, suggesting that this enzyme is not a metalloenzyme. The end products of corn starch and soluble starch were glucose (70-75%) and maltose (20-25%). Rapid reduction of blue value and the end products suggest an endo mode of action for the amylase. The purified amylase shows interesting properties useful for industrial applications.     

Characterization of a novel thermophilic, cellulose-degrading bacterium Paenibacillus sp. strain B39

Aims:  The aims of this study were to identify and characterize the novel thermophilic, cellulose-degrading bacterium Paenibacillus sp. strain B39.
Methods and Results:  Strain B39 was closely related to Paenibacillus cookii in 16S rRNA gene sequence. Nonetheless, this isolate can be identified as a novel Paenibacillus sp. with respect to its physiological characteristics, biochemical reactions, and profiles of fatty acid compositions. A cellulase with both CMCase and avicelase activities was secreted from strain B39 and purified by ion-exchange chromatography. By sodium dodecyl sulfate–polyacrylamide gel electrophoresis analysis, the molecular weight of B39 cellulase was determined as 148 kDa, which was much higher than other cellulases currently reported from Paenibacillus species. The enzyme showed a maximum CMCase activity at 60°C and pH 6·5. Addition of 1 mmol l⁻¹ of Ca²⁺ markedly enhanced both CMCase and avicelase activities of the enzyme.
Conclusions:  We have identified and characterized a novel thermophilic Paenibacillus sp. strain B39 which produced a high-molecular weight cellulase with both CMCase and avicelase activities.
Significance and Impact of the Study:  Based on the ability to hydrolyse CMC and avicel, the cellulase produced by Paenibacillus sp. strain B39 would have potential applications in cellulose biodegradation.     

离子注入结合紫外线及~(60)Co-γ射线诱变选育碱性果胶酸裂解酶高产菌株的研究

以碱性果胶酸裂解酶产生菌芽孢杆菌WZ008为出发菌株,经形态鉴定和16S鉴定为类芽孢杆菌,命名为Paenibacillus sp.WZ008,通过N~+注入诱变、紫外线诱变、~(60)Co-γ射线诱变等多次反复诱变,选育得到一株产碱性果胶酸裂解酶性能稳定且酶活明显提高的突变株,其酶活为97.8U/mL,比出发菌株产碱性果胶酸裂解酶能力提高了1.04倍。     

嗜热菌来源的生淀粉酶分离纯化及其酶学性质

从嗜热菌库中分离到两株能水解生淀粉的菌株173和174,通过扩增和测定两株菌的16S rDNA序列并进行比对结果表明,所分离两株菌属于Geobacillus属的细菌.液体摇瓶发酵菌株173、174,其产生的生淀粉酶(简称RSDE173、RSDE174)活力分别达14.5 U/mL和12.9 U/mL.通过生淀粉吸附-熟淀粉洗脱系统和TOYOPEARL HW-55F系统进行分离纯化,得到纯化的RSDE173和RSDE174,纯化倍数分别为50和29,活力回收率分别为34%和41%.有关RSDE173和RSDE174酶学性质研究显示.对熟淀粉水解的最适作用温度均为70℃,而对生淀粉水解则分别在50℃～60℃和40℃～60℃下表现出高水解活力;对不同底物的最适作用pH值均为5.0～5.5;它们对大多数试验离子的敏感性较低,但个别离子如Co2 、Cu'2 对RSDE173或u'2 对RSDE174的酶活力有一定的抑制作用.纯化的这两种生淀粉酶对不同来源生淀粉的底物专一性并不相同.RSDE173底物专一性顺序为红薯淀粉>小麦淀粉>玉米淀粉>木薯淀粉>糯米淀粉;而RSDE174的糯米淀粉>小麦淀粉>红薯淀粉>玉米淀粉>木薯淀粉.RSDE173对生红薯淀粉有很好的降解,其水解糊化淀粉与生红薯淀粉的比值为1.48;而RSDE174优先降解生糯米淀粉,其相应比值为1.69.     

Biochemical characterization and antifungal activity of an endo-1,3-beta-glucanase of Paenibacillus sp. isolated from garden soil

A 44-kDa 1,3-beta-glucanase was purified from the culture medium of a Paenibacillus strain with a 28-fold increase in specific activity with 31% recovery. The purified enzyme preferentially catalyzes the hydrolysis of glucans with 1,3-beta-linkage and has an endolytic mode of action. The enzyme also showed binding activity to various insoluble polysaccharides including unhydrolyzable substrates such as xylan and cellulose. The antifungal activity of this Paenibacillus enzyme and a previously purified 1,3-beta-glucanase from Streptomyces sioyaensis were examined in this study. Both enzymes had the ability to damage the cell-wall structures of the growing mycelia of phytopathogenic fungi Pythium aphanidermatum and Rhizoctonic solani AG-4. Nonetheless, the Paenibacillus enzyme had a much stronger effect on inhibiting the growth of fungi tested.     

Production of amylase by newly isolated moderate halophile,Halobacillus sp. strain MA-2

Production of extracellular amylase was demonstrated under stress conditions of high temperature and high salinity in aerobically cultivated culture of a newly isolated moderately halophilic bacterium of spore-forming Halobacillus sp. strain MA-2 in medium containing starch, peptone, beef extract, and NaCl. The maximum amylase production was secreted in the presence of 15% (w/v) Na(2)SO(4) (3.2 U ml(-1)). The isolate was capable of producing amylase in the presence of NaCl, NaCH(3)COOH, or KCl, with the results NaCl>NaCH(3)COOH>KCl. Maximum amylase activity was exhibited in the medium containing 5% (w/v) NaCl (2.4 U ml(-1)). Various carbon sources induced enzyme production. The potential of different carbohydrates in the amylase production was in the order: dextrin>starch>maltose>lactose>glucose>sucrose. In the presence of sodium arsenate (100 mM), maximum production of the enzyme was observed at 3.0 U ml(-1). Copper sulfate (0.1 mM) decreased the amylase production considerately, while lead nitrate had no significant enhancement on amylase production (p<0.05). The pH, temperature, and aeration optima for enzyme production were 7.8, 30 degrees C, and 200 rpm, respectively, while the optimum pH and temperature for enzyme activity was 7.5-8.5 and 50 degrees C, respectively.     

Pseudomonas sp. RT-1低温脂肪酶的纯化及酶学特性

Pseudomonas sp. RT-1是从低温环境下分离的低温脂肪酶产生菌,对该菌产生的胞外脂肪酶(PL-1)进行纯化,并对其酶学特性进行初步研究。Pseudomonas sp. RT-1的发酵上清液经60%(NH4)2SO4沉淀、12~14000截留相对分子质量(MWCO)透析袋透析、Sephadex G75分子筛和超滤浓缩后,得到了电泳纯的P-L1。SDS-PAGE电泳估算其表观相对分子质量为4.43×104。对其酶学特性研究表明:PL-1是低温碱性脂肪酶且对有机溶剂的耐受性较好。10~40℃内有较好的催化活性,最适作用温度为18℃;0~50℃该酶的稳定性较好,当温度超过50℃时则容易失活;最适作用pH为10.2,且pH在9~11时较稳定;该酶对有机溶剂的耐受性较好,10mmol/L的Ca2+、K+、Na+和Fe3+对PL1的酶活力有促进作用,其中Ca2+促进作用最大,提高了146.07%,而10mmol/L的Cu2+、Co2+、Mn2+、Mg2+、Zn2+、Ba2+和Al3+对酶活力具有不同程度的抑制作用,其中Al3+抑制作用最强,抑制了98.55%;PL-1对C链长度小于或等于12的短链脂肪酸形成的甘油三酯具有较强的水解能力;1mmol/L的去氧胆酸盐(desoxycholate)和0.01%的Triton X100对酶活力具有提高作用,分别提高了30.74%和11.83%;0.01%的SDS和Tween-80、1mmol/L的EDTA和尿素对酶活都有抑制作用,其中EDTA的抑制作用最大,抑制了80%。     

Purification and characterization of a keratinolytic metalloprotease from Chryseobacterium sp. kr6

The Chryseobacterium sp. kr6 strain has been described as a highly keratinolytic bacterium showing effective feather-degrading and de-hairing activities. A keratinase Q1 enzyme was purified from Chryseobacterium sp. kr6 culture by Phenyl Sepharose and Superose 12HR chromatography. This enzyme showed a specific activity of 967U/mg for keratin azure. Electrophoresis under denaturing conditions showed a monomeric protein with approximately 64kDa. The enzyme showed pH and temperature optima of 8.5 and 50 degrees C, respectively. The inhibitory effect of EDTA, EGTA and 1,10-phenanthroline characterized Q1 enzyme as a Zn-metalloprotease. Its activity was increased by three-fold in the presence of Ca(2+). ESI-MS/MS analysis of peptides generated from a tryptic digestion revealed sequence homology which may characterize the Q1 keratinase as a member of the M14 metalloprotease family, with a consensus glycosylation region similar to proteins from Chryseobacerium meningosepticum.