木霉GXC产β-葡聚糖酶条件和酶学性质

研究了木霉GXC产β-葡聚糖酶的条件.结果表明,最适产酶碳源为麸皮,氮源为硫酸铵;产酶的最适条件为初始pH为4.0～5.0,30℃培养44h.粗酶液经硫酸铵沉淀、Sephadex G-25、Sephadex G-100和DEAE-Sehadex A-50柱层析得到纯β-葡聚糖酶,SDS-PAGE凝胶电泳显示一条带,测得分子量为35kD.该酶最适反应pH5.0,最适反应温度为60℃,在40℃以下、pH4.0～5.0酶活力相对稳定.5.0mmol/L以下的Ca2+、Zn2+和Fe2+,以及10.0mmol/L以下的Co2+对酶活力有激活作用;而Cu2+和Fe3+具有抑制作用.     

黄鳝碱性磷酸酶的分离纯化及其部分性质研究

经Tris-HCl缓冲液(pH8.6)抽提,正丁醇处理,30%-75%硫酸铵分级沉淀分离,DEAE-Sepharose离子交换柱层析,Sephacryl S-200凝胶过滤纯化,从黄鳝内脏组织中分离纯化出电泳纯的碱性磷酸酶。该酶提纯倍数为564倍,比活力达到3015U/mg。酶学性质和动力学性质研究表明,该酶催化磷酸苯二钠的水解反应,最适pH值为10.2,pH小于7和大于12均不稳定;最适温度为40℃,温度高于50℃不稳定;米氏常数Km值为1.17mmo1/L。金属离子对该酶的催化活力有不同的影响,K+对该酶活力无影响,Mg2+对该酶有激活作用,Zn2+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。     

几丁质酶产生菌筛选鉴定及产酶性能研究

从土壤样品中筛选得到一株高产几丁质酶菌株C65-2,经形态学观察和18S rDNA序列测定,鉴定为Aspergillus fumigatus,对产酶培养基进行初步优化,测得最高酶活可达6.9U/ml,酶活力较优化之前提高了210%。酶学性质研究表明该几丁质酶分子量约为20kDa,酶在60℃下保温50min酶活降为0,最适酶反应温度是55℃,酶反应最适pH为7.0,Mg2+,Cu2+对酶反应有促进作用,Fe3+对酶反应有抑制作用。     

嗜热真菌Thermomyces lanuginosus A_(236)热稳定葡萄糖淀粉酶的纯化及其特性

嗜热真菌ThermomyceslanuginosusA_236在液体培养基中50℃下静止培养14天,粗提酶液经硫酸铵分级沉淀、DEAE-Toyopearl离子交换层析、Butyl－Toyopearl疏水层析、SephacrylS100凝胶过滤和FPLCMonoQ离子交换层析,得到了凝胶电泳均质的葡萄糖淀粉酶。酶促反应产物经TLC分析为葡萄糖,证明纯化的酶为葡萄糖淀粉酶（EC3．2．1．3）。SDS－PAGE测定其分子量为72,000,不具亚基,PI为4．0,富含Val和Leu。酶反应最适温度和pH分别为70℃和5．0。在pH5．0条件下,酶在60℃保温1h,仍具有原酶活性。酶活性在70℃和80℃的半衰期分别为20min和6min。Ca2+对酶有激活作用,Fe3+、Al3+、Hg2+等金属离子对酶活力有一定的抑制作用。纯酶碳水化合物含量为12．4％。纯酶可水解可溶性淀粉、直链淀粉、支链淀粉、糊精、糖原、麦芽三糖和麦芽糖,其中可溶性淀粉为最适底物。     

海洋来源琼胶酶的分离纯化及酶学性质研究

采用Vibiro sp.ZC-1发酵制备琼胶酶,粗酶液经过中空纤维柱浓缩、硫酸铵沉淀、DEAE-阴离子交换层析,得到一个电泳纯的琼胶酶组分Aga ZC-1,其分子质量约为45k Da,比活力为114.613U/mg。对Aga ZC-1进行酶学性质分析,结果表明,其最适反应p H为7.0,在p H为5.0~9.0时保温1h仍能保持80%以上的酶活力;最适反应温度为50℃,在45℃条件下保温1h酶活力保持在60%以上。在高浓度(5mmol/L)下,Fe~(3+)、Cu~(2+)、Sn~(2+)和Zn~(2+)能完全抑制琼胶酶的活性,在低浓度(1mmol/L)下,Cu~(2+)、Ba~(2+)、Na~+、Zn~(2+)、Ag~+、Sr~(3+)、K+对琼胶酶活性具有明显抑制作用。琼胶酶的动力学参数K_m和V_(max)分别为0.538mg/ml和6.33μmol/(L·min),对琼胶底物具有高度专一性,降解产物主要为新琼四糖和新琼六糖。     

环糊精葡糖基转移酶的酶学性质及转化特性

目的：通过对一种强碱性环糊精葡糖基转移酶的纯化、酶学性质和转化特性研究,探索改进和提高环糊精生产效率的工艺。方法：从一株碱性土壤来源的新型产环糊精葡糖基转移酶的嗜碱性芽孢杆菌,运用乙醇沉淀、DEAE-Sepharose和HiTrap-Q离子交换柱层析等蛋白质分离纯化技术对该酶进行了纯化,测定了其酶学性质,并对其转化特性进行了研究。结果：经过微生物发酵和三步纯化,获得表观电泳纯的酶蛋白,纯化倍数为51.4,收率约9.2%。该酶的最适反应温度为50℃。酶的最适作用pH约为10,并且在pH6～pH12条件下均较稳定。用5%可溶淀粉作底物进行转化,转化率约40%。在转化过程中加入沉淀剂环己烷,产物中β-CD的比例从84%提高到95%。结论：该酶是迄今报道过的适宜pH最高的环糊精葡糖基转移酶,专一性转化生产β-CD的能力优良,具有工业化应用的潜力。     

不同载体固定化胰蛋白酶酶学特性的研究

目的:研究以壳聚糖、复合硅胶、阴离子交换树脂为载体固定化胰蛋白酶的酶学特性。方法:通过测定不同载体固定化胰蛋白酶的活力得其最适反应温度值、最适反应pH值和米氏常数(Km)值。结果:以壳聚糖、复合硅胶、阴离子交换树脂为载体制备固定化胰蛋白酶的最适反应温度分别为70℃、60℃、60℃;最适反应pH值分别为7.5、8.0、8.0;表观米氏常数K’m分别为22.72mg/ml、25.12mg/ml、29.04mg/ml。结论:与游离酶相比,固定化胰蛋白酶均表现出一定的热稳定性、酸碱稳定性,利于工业化生产。     

产酸克雷伯氏菌M5al普鲁兰酶的异源表达及酶学性质研究

普鲁兰酶(EC 3.2.1.41)是一类淀粉脱支酶,能够特异性水解淀粉中的α-1,6-糖苷键,从而提高淀粉的利用率,在以淀粉为原料的食品、纺织、生物燃料和洗涤剂等行业中具有重要的应用价值。本研究以产酸克雷伯氏菌Klebsiella oxytoca M5al基因组DNA为模板,将PCR扩增得到的普鲁兰酶基因pul A克隆至表达载体p ET28a(+),构建好的重组质粒转化大肠杆菌Escherichia coli BL21(DE3),在培养基中添加0.5 mmol/L异丙基硫代半乳糖苷(IPTG)的条件下对该酶基因进行诱导表达,经镍柱纯化获得重组普鲁兰酶用于酶学性质研究。SDS-PAGE及Western Blot检测显示普鲁兰酶基因pul A在上述大肠杆菌宿主中成功获得了表达。该重组酶最适反应p H5.5,最适温度60℃。金属离子对酶活性有一定影响。Mn2+对酶活促进作用显著;Fe3+、Mg2+、Fe2+对酶活只有微弱的促进作用,而Cu2+对酶活造成强烈抑制。来源于Klebsiella oxytoca M5al的普鲁兰酶最适催化条件符合工业生产中淀粉糖化工艺的要求,具有应用于淀粉工业的潜力。     

芽孢杆菌WS-3L淀粉酶的纯化和特性的研究

芽孢杆菌WS-3L产生的a-淀粉酶AmyL经过多步纯化, 酶的回收率为15.5%, 比活提高了345倍。该淀粉酶能够有效水解淀粉生成麦芽寡糖。酶的最适反应温度为45℃, 最适反应pH为6.5, 在pH 7.0~8.0, 40℃以下酶活较稳定; 离子Cu2+、NH4+、Ag+、Hg+ 和EDTA、SDS对酶活力有显著抑制作用, 而其他一些常见金属离子如Na+、K+则对酶活影响不大。AmyL对可溶性淀粉、直链淀粉、支链淀粉的Km值和Vmax分别为2.81 mg/mL、8.37 mg/mL、1.80 mg/mL和11.67 mmol/（min·mL）、10.00mmol/（min·mL）、13.33 mmol/（min·mL）, 表明支链淀粉是该酶的理想水解底物。玉米淀粉对AmyL有很高的吸附率, 预示这可以作为酶快速固定的一个简易方法应用到实际生产中。     

Purification and physicochemical properties of an extra-cellular cycloamylose (cyclodextrin) glucanotransferase from Bacillus macerans

An extracellular cycloamylose (cyclodextrin) glucanotransferase (EC 2.4.1.19) from Bacillus macerans was purified to homogeneity by adsorption on starch, ammonium sulfate fractionation, column chromatography on DEAE-cellulose, and gel filtration on Sephadex G-100. The enzyme had a molecular weight of 67,000 and consisted of one polypeptide chain. The isoelectric point was pH 5.4. Temperature and pH optima were 60° and 5.45.8, respectively. The purified enzyme was quite stable at 50° (pH 6.0), but lost ≈80% of its activity at 60° for 30 min (pH 6.0). Prolonged digestion by trypsin did not affect the catalytic properties of the enzyme. The K_m for starch was 5.7 mg/ml.     

Site-saturation mutagenesis of proline 176 in Cyclodextrin Glucosyltransferase from Bacillus sp. Y112 effects product specificity and enzymatic properties

Based on the analysis of amino acid sequence and simulated structure, saturation mutagenesis was performed to explore the role of the site p176 of cyclodextrin glucosytransferase (CGTase) from Bacillus sp. Y112. Compared to the wild-type, mutant P176G showed 10.4 % improvement in conversion from starch to cyclodextrins (CDs), whose β-CD yield increased by 6% and α-CD yield decreased by 8%. Mutants P176L and P176I were increased by 7.9 % and 9.4 % on CDs production, indicating replacement of hydrophobic amino acids significantly improved in cyclization activity. Kinetics studies indicated the substrate affinity of P176G and P176K were increase by 13 % and 14 %, and the catalytic efficiency of P176K was increase by 14 %. In addition, the optimal temperature of mutants transformed from 50℃ to 40℃ and the optimal pH shifted from 10.0 to 8.0. These results indicate that the site P176 plays a critical role in catalytic activity, product specificity and enzymatic properties of CGTase.     

Biochemical characterization of alpha-amylase from the yeast Cryptococcus flavus

During our screening of amylolytic microorganisms from Brazilian fruits, we isolated a yeast strain classified as Cryptococcus flavus. When grown on starch-containing medium this strain exhibited the highest amylase production after 24 h of cultivation. The extracellular amylase from C. flavus was purified from the culture broth by a single step using chromatography on a Sephacryl S-100 column. The enzyme was purified 16.14-fold with a yield of 50.21% of the total activity. The purified enzyme was a glycoprotein with an apparent molecular mass of 75 and 84.5 kDa as estimated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and gel filtration, respectively. The enzyme lost approximately 50% of the molecular mass after treatment with glycosidases. The major end products of starch, amylose, amylopectin, pullulan and glycogen were maltose and maltotriose. The K(m) value for the pure enzyme was 0.056 mg ml(-1) with soluble starch as the substrate. Enzyme activity was optimal at pH 5.5 and 50 degrees C. The enzyme retained 90% of the activity after incubation at 50 degrees C for 60 min and was inhibited by Cu(2+), Fe(2+) and Hg(2+).     

芳香黄杆菌弹性蛋白酶的纯化及性质研究

报道了弹性蛋白亲和层析分离纯化芳香黄杆菌产胞外弹性蛋白酶。经一步柱层析可获聚丙烯酰胺凝胶电泳均一的酶制品,收率可达５０％,并制备了酶的结晶。该酶在ＳＤＳ－ＰＡＧＥ上测得分子量为２１３８０,ＩＥＦ－ＰＡＧＥ测得等电点８．９,最适作用温度为５０℃,最适作用ｐＨ为７．４,在４０℃以下热稳定性良好,ｐＨ４．５－９．５范围内稳定,重金属离子Ｆｅ３＋、Ｚｎ２＋、Ｃｒ３＋、Ｃｏ２＋、Ｈｇ２＋、Ｎｉ２＋、Ａｇ＋、Ｃｕ２＋等严重抑制酶活性,黄杆菌弹性蛋白酶除了特异水解弹性蛋白外,对干酪素、血纤维蛋白、白蛋白、明胶、血红蛋白等多种蛋白质均能水解。     

Cyclodextrin glucanotransferase (CGTase) catalyzed synthesis of dodecyl glucooligosides by transglycosylation using α-cyclodextrin or starch

Dodecyl glucooligosides, a class of interesting non ionic surfactant molecules were synthesized by cyclodextrin glucanotransferase from Bacillus macerans using either α-cyclodextrin (α-CD) or soluble starch as glycosyl donor and dodecyl β-d-glucoside (C₁₂G₁) or dodecyl β-d-maltoside (C₁₂G₂) as acceptor substrates. The primary coupling products obtained in the respective reactions were identified as dodecyl glucoheptaoside and dodecyl maltooctaoside by mass spectrometry. Higher yields of coupling products were obtained using α-CD as donor, while more dispoportionation occurred with starch. Nearly 78% conversion of the acceptor substrate C₁₂G₁ into dodecyl glucooligosides could be achieved at 132 μg/ml of CGTase in 20 min, while 93% of C₁₂G₂ could be transformed into products at 17.6 μg/ml of enzyme in 120 min using soluble starch as donor substrate. For applications requiring pure compounds like C₁₂G₇, synthesis using α-CD is advantageous. However, for applications in which a mixture of elongated alkyl glycosides is needed, reactions employing starch are clearly competitive.     

Purification and characterization of cellulolytic enzymes produced by Aspergillus nidulans

Three exo-glucanases, two endo-glucanases and two β-glucosidases were separated and purified from the culture medium of Aspergillus nidulans. The optimal assay conditions for all forms of cellulase components ranged from pH 5.0 to 6.0 and 50°C and 65°C for exo-glucanases and endo-glucanases but 35°C and 65°C for β-glucosidases. A close relation of enzyme stability to their optimal pH range was observed. All the cellulase components were stable for 10 min at 40–50°C. Exo-II and Exo-III ( K _m, 38.46 and 37.71 mg/ml) had greater affinity for the substrate than Exo-I ( K _m, 50.00 mg/ml). The K _m values of Endo-I and Endo-II (5.0 and 4.0 mg/ml) and their maximum reaction velocities ( V _max, 12.0 and 10.0 IU/mg protein) were comparable. β-Glucosidases exhibited K _m values of 0.24 and 0.12 mmol and V _max values of 8.00 and 0.67 IU/mg protein. The molecular weights recorded for various enzyme forms were: Exo-I, 29000; Exo-II, 72500; Exo-III, 138000; Endo-I, 25000; Endo-II, 32500; β-Gluco-I, 14000 and β-Gluco-II, 26000. Exo- and endo-glucanases were found to require some metal ions as co-factors for their catalytic activities whereas β-glucosidases did not. Hg²⁺ inhibited the activity of all the cellulase components. The saccharification studies demonstrated a high degree of synergism among all the three cellulase components for hydrolysis of dewaxed cotton.     

Purification and characterization of cyclodextrin β-glucanotransferase from novel alkalophilic bacilli

The discovery of novel bacterial cyclodextrin glucanotransferase (CGTase) enzyme could provide advantages in terms of its production and relative activity. In this study, eight bacterial strains isolated from soils of a biodiversity-rich vegetation in Egypt based on their hydrolyzing activity of starch, were screened for CGTase activity, where the most active strain was identified as Bacillus lehensis. Optimization process revealed that the using of rice starch (25 %) and a mixture of peptone/yeast extract (1 %) at pH 10.5 and 37 °C for 24 h improved the bacterial growth and enzyme activity. The bacterial CGTase was successively purified by acetone precipitation, gel filtration chromatography in a Sephadex G-100 column and ion exchange chromatography in a DEAE-cellulose column. The specific activity of the CGTase was increased approximately 274-fold, from 0.21 U/mg protein in crude broth to 57.7 U/mg protein after applying the DEAE-cellulose column chromatography. SDS-PAGE showed that the purified CGTase was homogeneous with a molecular weight of 74.1 kDa. Characterization of the enzyme exhibited optimum pH and temperature of 7 and 60 °C, respectively. CGTase relative activity was strongly inhibited by Mg²⁺, Zn²⁺, Al³⁺ and K⁺, while it was slightly enhanced by 5 and 9 % with Cu²⁺ and Fe²⁺ metal ions, respectively.     

豆壳过氧化物酶的分离纯化及其性质研究

从豆壳抽提液经硫酸铵分级沉淀,ＤＥＡＥ－ＳｅｐｈａｄｅｘＡ－５０离子交换层析,ＣｏｎＡ－Ｓｅｐｈａｒｏｓｅ４Ｂ亲合层析和Ｂｉｏ－ＧｅｌＰ－６０凝胶过滤,纯化了豆壳过氧化物酶（ｓｏｙｂｅａｎｈｕｌｐｅｒ－ｏｘｉｄａｓｅ,ＳｈＰ）．纯化酶的比活力为７０７７Ｕ／ｍｇ,在ＳＤＳ－ＰＡＧＥ上显示出一条蛋白质带．ＳｈＰ分子量为３８０００,等电点为３．９;ＳｈＰ为一含血红素的糖蛋白,含糖量为１８．７％,光谱学分析揭示,在４０６ｎｍ处有一典型的Ｓｏｒｅｔ带,在５１０ｎｍ和６４０ｎｍ处有特征吸收峰．酶反应的最适ｐＨ在４．０附近,最适温度为４５℃;在ｐＨ２．５～１２．０之间较稳定,７５℃,保温６０ｍｉｎ,酶活力残余６８％,ＳｈＰ是一种良好的耐酸碱、耐热过氧化物酶．动力学分析求得ＳｈＰ的表观Ｋｍ（愈创木酚）为１．６２ｍｍｏｌ／Ｌ,表现Ｋｍ（Ｈ２Ｏ２）为０．３４ｍｍｏｌ／Ｌ．在所测定的化学试剂中,Ｎ－３、ＣＮ－、Ｆｅ３＋、Ｆｅ２＋和Ｓｎ２＋对酶有较强烈的抑制作用,而重金属离子Ａｇ＋、Ｈｇ２＋、Ｐｂ２＋、Ｃｕ２＋、Ｃｒ３＋以及ＳＤＳ和ＥＤＴＡ对酶活力无显著影响     

A novel process of cyclodextrin production by the use of specific adsorbents: Part II. A new reactor system for selective production of α-cyclodextrin with specific adsorbent

We have developed a novel process of α-cyclodextrin (α-CD) production by using a new adsorbent that is characterized by its exceedingly powerful selectivity for α-CD compared with other CDs. α-CD production was carried out in a closed reactor system that was composed of a main reactor, wherein liquefied starch was converted to CDs by cyclodextrin glucosyltransferase (CGTase: EC 2.4.1.19), and a column packed with the adsorbent. While the reaction mixture was circulated in the system, α-CD was selectively adsorbed in the column and its concentration in the mixture of the main reactor was kept at a low level. This low concentration of α-CD stimulated the conversion of starch to CDs and as a result, enhanced its yield based on added starch. When 8.3 % (w/v) of liquefied starch was used in the reactor system, the yield of α-CD was 22.2% and α-CD occupied 58.7 % of the reaction mixture of total CDs synthesized. Meanwhile, in a batch system without the adsorbent, the yield of α-CD and its fraction were 10.8% and 45.0%, respectively. After the conversion reaction, and following the preliminary washing with water through the column. α-CD was easily eluted with hot water, resulting in a high purity of about 95%.     

对硫磷真菌降解酶的分离纯化和性质

黑曲霉AspergillusnigerY－8在液体培养基中30℃培养5d,其菌体用超声波破碎后,经硫酸铵沉淀、DEAE-纤维素层析、Sephadex－100凝胶过滤,得到凝胶电泳均一的对硫磷降解酶,其比活为6.94,提纯倍数为13.6倍,收率为17．4％。酶作用的最适温度是50℃,最适pH为7.5,在40℃以下和pH6.0～9.0之间稳定,此酶为单亚基蛋白,凝胶过滤法测得分子量为42000,含糖14.6％,SDS、Hg2+、Ag+、Fe3+对酶有强烈的抑制作用,金属螫合剂EDTA对酶活无影响。此酶对甲基对硫磷、敌敌畏、亚胺硫磷也有较好的降解作用,当以对硫磷为底物时,Km为0.43mmol／L,Vmax为1.24μmol·mg-1·min-1。