毛栓菌胞外漆酶的纯化及部分性质研究

毛栓菌胞外漆酶经盐析、透析、sephadexG75和G2 5四步纯化 ,粗酶液被纯化了 39 1倍 ,比活力 12 152 ,回收率 4 5 3%。漆酶最适pH值为 4 0 ,最适反应温度为 30℃。K Cu 2 、Zn2 离子可激活漆酶 ,而Ag 、Fe3 离子可抑制漆酶的活性。漆酶的Km值为 1 81× 10 3mol/L。     

解淀粉芽胞杆菌产酶多样性及应用研究进展

解淀粉芽胞杆菌(Bacillus amyloliquefaciens)能产生多种有研究价值的酶类,其酶具有明显的多样性,在众多领域,如轻工业、农业、种植业、养殖业、食品加工业、果蔬的采后保鲜、饲料业等行业具有重要价值。对解淀粉芽胞杆菌产生的不同类型的蛋白酶、降解多糖的重要酶类、脂类代谢相关的酶类以及其他几种重要的酶类进行了归类,并对其在各领域的应用及前景进行综述。     

芽胞表面展示技术研究进展

芽胞表面展示技术作为微生物表面展示技术的一种,因所表达的异源蛋白无需经过跨膜过程及芽胞的抗逆性等独特优势而备受研究者的关注。以下介绍了芽胞的生理结构和形成过程、芽胞表面展示系统构建原则及目前所构建的芽胞表面展示系统种类。芽胞表面展示技术不仅在疫苗生产中应用广泛,在生物催化和细胞工厂研究领域也具有广阔的应用前景。     

昆虫漆酶的研究进展

从昆虫漆酶的种类、分布、序列信息、研究方法以及体内功能等方面对昆虫漆酶的研究现状进行综述,并提出昆虫漆酶有望应用于木质素降解和害虫防治等领域。     

粗毛栓菌产漆酶对考马斯亮蓝的脱色降解

粗毛栓菌粗酶液经聚丙烯酰胺凝胶电泳,在CBBG－250染色后,漆酶带处有一透明圈,经纯化漆酶和CBBG－250溶液直接作用以及菌体的培养结果证实,漆酶对CBBG－250具有一定的脱色降解作用,在漆酶活力达118u/ml时,CBBG－250溶液在595nm波长的光吸收60min内下降了32．4％。该粗毛栓菌产漆酶对工业染料废水也具有一定的降解脱色作用。     

死亡谷芽胞杆菌研究进展

死亡谷芽胞杆菌(Bacillus vallismortis)是一种好氧、产胞的革兰氏阳性细菌,归类于枯草芽胞杆菌(Bacillus subtilis)群,对环境抗逆性强,且具有优良的生物活性,可以被广泛地应用到农业、医药及环境治理等领域。本文从死亡谷芽胞杆菌的亲缘性、抑菌活性、降解活性、生物吸附活性及产酶情况等方面做了总结,为死亡谷芽胞杆菌的进一步研究与应用提供理论依据。     

真菌漆酶基因研究进展

漆酶是一种含铜的多酚氧化酶,也是木质素生物合成的关键酶之一,目前已发现多种生物能产生漆酶,包括植物、真菌、昆虫、细菌等。其中,以真菌中的白腐菌研究最多。近年来,由于漆酶在生物漂白、农作物秸秆利用以及环境垃圾处理方面具有广阔的应用前景,漆酶研究越来越受到国际上的重视。同时,随着分子生物学相关技术的发展,漆酶研究已深入基因水平,已有多种漆酶基因获得克隆,一些漆酶基因也实现了异源表达。本文概述了真菌漆酶基因研究的最新进展。     

炭疽芽胞杆菌疫苗研究进展

炭疽芽胞杆菌引起的炭疽病死亡率非常高 ,当前的疫苗具有效力不稳定、对吸入性炭疽的保护率低、免疫程序繁琐、存在副作用等缺点。近年来人们在改造传统疫苗的同时又有一些新的发现 ,如保护性抗原 (PA)的抗体在体内可杀死芽胞 ;通过粘膜免疫能够诱导机体分泌IgA抗体 ;抗多聚谷氨酸 (γ D PGA)抗体可以同炭疽杆菌的繁殖体作用 ,从而杀死繁殖体 ;寻找到新的免疫原。DNA疫苗、活载体疫苗的出现为新一代安全、免疫程序简单、具更高保护率的疫苗奠定了基础     

枯草芽胞杆菌芽胞表面展示研究进展

枯草芽胞杆菌芽胞表面展示技术是把枯草芽胞杆菌作为芽胞表面展示的宿主来展示目的蛋白的一种技术。该技术不仅具备芽胞表面展示技术可展示分子量较大的目的蛋白、目的蛋白无需跨膜及芽胞的极强抗逆性等特点外,同时由于该技术的宿主菌--枯草芽胞杆菌的分子生物学信息研究得比较清楚、安全性高而被广泛应用。介绍了枯草芽胞杆菌表面展示近10年在生产疫苗和固定化酶方面的进展,并对如何提高表面展示目的蛋白的产量做了简要概述。     

Biochemical and molecular characterization of a novel laccase from selective lignin-degrading white-rot fungus Echinodontium taxodii 2538

A novel laccase was isolated and characterized from a new selective lignin-degrading white-rot fungus Echinodontium taxodii 2538, in which a high yield of laccase was obtained. No laccase isoenzyme was detected in the synthetic liquid media. The purified laccase (designated as EtL2538) had an apparent molecular mass of 56 kDa, pI value of 3.1, and N-terminal amino acid sequence of GIGPVTDLHIVNAAV. EtL2538 showed optimum pH at 3.0 and optimum temperature at 60 °C using ABTS as the substrate. EtL2538 revealed superior thermostability, and retained over 80% of its original activity after incubation for 2 h at 50 °C. The laccase gene, etl2538, was also cloned and sequenced. This gene encoded a mature laccase protein containing 499 amino acids (aa) preceded by a signal peptide of 21 aa, and the deduced protein sequence contained four copper-binding conserved domains of typical laccase protein. EtL2538 was further used in lignin oxidation and dye decolorization. Even without the existence of redox mediators, EtL2538 could cleave the methoxyl groups and β-O-4 ether linkages in lignin from bamboo, and significantly decolorize malachite green and RBBR. These novel properties of EtL2538 may render it as a potential biocatalyst for biotechnological and environmental applications.     

Copper incorporation into recombinant CotA laccase from Bacillus subtilis: characterization of fully copper loaded enzymes

The copper content of recombinant CotA laccase from Bacillus subtilis produced by Escherichia coli cells is shown to be strongly dependent on the presence of copper and oxygen in the culture media. In copper-supplemented media, a switch from aerobic to microaerobic conditions leads to the synthesis of a recombinant holoenzyme, while the maintenance of aerobic conditions results in the synthesis of a copper-depleted population of proteins. Strikingly, cells grown under microaerobic conditions accumulate up to 80-fold more copper than aerobically grown cells. In vitro copper incorporation into apoenzymes was monitored by optical and electron paramagnetic resonance (EPR) spectroscopy. This analysis reveals that copper incorporation into CotA laccase is a sequential process, with the type 1 copper center being the first to be reconstituted, followed by the type 2 and the type 3 copper centers. The copper reconstitution of holoCotA derivatives depleted in vitro with EDTA results in the complete recovery of the native conformation as monitored by spectroscopic, kinetic and thermal stability analysis. However, the reconstitution of copper to apo forms produced in cultures under aerobic and copper-deficient conditions resulted in incomplete recovery of biochemical properties of the holoenzyme. EPR and resonance Raman data indicate that, presumably, folding in the presence of copper is indispensable for the correct structure of the trinuclear copper-containing site.     

Influence of structure on dye degradation with laccase mediator systems

A new laccase was purified from Trametes hirsuta IMA2002. The laccase had a molecular mass of 62 kDa and an isoelectric point of pH 7. It had an optimum pH of 3.0 and an optimum temperature of 55°C. The laccase was quite stable at 30°C and pH 4.0 with a half-life of more than 100 hours. On ABTS, syringaldazide, and DMP the laccase showed K_M and K_cat values of 75, 12 and 37 μM and 64, 83 and 54 s^-1, respectively. The structurally diverse commercial dyes Indigo Carmine, Lanaset Blue 2R, Diamond Black PV 200 and Diamond Fast Brown were oxidized by the laccase. While the rate and extent of decolorization of the latter dye was significantly enhanced by the presence of different types of mediators, the structurally similar azo-dye Tartrazine was not oxidized. Lanaset Blue 2R, a commercial textile dye containing an anthrachinoid structural fragment acted similarly to anthrachinone sulfonic acid by strongly enhancing the rate of the decolorization reaction. Twenty two model azo-dyes based on the molecular framework of 2,7-dihydroxy-1-phenylazonaphtalene-3,6-disulfonic acid were synthesized and the kinetics of their laccase-catalyzed decolorization was studied. Hydroxy-substituted dyes were the most susceptible to enzyme/mediator action. All reactions were well described by Michaelis-Menten-like kinetics and the Hammett free energy linear relationship could be successfully applied to describe the influence of dye structure (substituents on the aromatic ring) on decolorization. Strongly electron withdrawing substituents such as a nitro-group in the meta-position (+0.7) resulted in positive σ-constants whereas electron donating groups such as para-methyl (-0.3) resulted in negative values for σ-constants.     

木质纤维素原料中漆酶天然介体的研究进展

漆酶作为一种多功能金属氧化酶,被认为是未来工业生物催化中"可持续环境友好过程生物技术的工具"。但是由于典型漆酶催化体系中合成介体存在价格昂贵且有毒等问题而一直未能实现工业化。从木质素小分子前体物质或者中间体及降解产物中寻找稳定、高效、低毒和价廉的天然介体成为当前的研究热点和重点。本文从漆酶介体的类型与催化机理、木质纤维素原料炼制中间产物(如汽爆秸秆水洗液、造纸黑液、木质纤维素生物降解产物等)中天然介体的种类与分离等方面,论述从木质纤维素原料降解产物中分离漆酶天然介体并进行应用的可行性,为挖掘高反应活性的漆酶天然催化介体,构建漆酶多介体连续催化体系,实现木质纤维素原料降解产物的定向高值利用奠定基础。     

Influence of structure on dye degradation with laccase mediator systems

A new laccase was purified from Trametes hirsuta IMA2002. The laccase had a molecular mass of 62 kDa and an isoelectric point of pH 7. It had an optimum pH of 3.0 and an optimum temperature of 55°C. The laccase was quite stable at 30°C and pH 4.0 with a half-life of more than 100 hours. On ABTS, syringaldazide, and DMP the laccase showed K_M and K_cat values of 75, 12 and 37 μM and 64, 83 and 54 s^?1, respectively. The structurally diverse commercial dyes Indigo Carmine, Lanaset Blue 2R, Diamond Black PV 200 and Diamond Fast Brown were oxidized by the laccase. While the rate and extent of decolorization of the latter dye was significantly enhanced by the presence of different types of mediators, the structurally similar azo-dye Tartrazine was not oxidized. Lanaset Blue 2R, a commercial textile dye containing an anthrachinoid structural fragment acted similarly to anthrachinone sulfonic acid by strongly enhancing the rate of the decolorization reaction. Twenty two model azo-dyes based on the molecular framework of 2,7-dihydroxy-1-phenylazonaphtalene-3,6-disulfonic acid were synthesized and the kinetics of their laccase-catalyzed decolorization was studied. Hydroxy-substituted dyes were the most susceptible to enzyme/mediator action. All reactions were well described by Michaelis–Menten-like kinetics and the Hammett free energy linear relationship could be successfully applied to describe the influence of dye structure (substituents on the aromatic ring) on decolorization. Strongly electron withdrawing substituents such as a nitro-group in the meta-position (+0.7) resulted in positive σ-constants whereas electron donating groups such as para-methyl (?0.3) resulted in negative values for σ-constants.     

重组海洋细菌漆酶Lac15脱色人工合成纺织染料的潜力

以重组海洋细菌漆酶Lac15(rLac15)为生物催化剂,对蒽醌类和偶氮类染料进行脱色,考察了rLac15对人工合成纺织染料的脱色潜能。通过研究催化的介体、酶量、pH、染料浓度以及温度对脱色效率的影响,进一步优化了rLac15对部分蒽醌类和偶氮类人工合成纺织染料的脱色条件。以丁香酸甲酯为介体,在pH 8.5、45℃条件下反应1 h,20 U/L rLac15对100μmol/L偶氮染料类Acid Red 6B(AR-6B),Reactive Blue 194(M-2GE),Reactive Brilliant Orange(K-7R)和Reactive Blue 171(KE-R)具有较好的脱色效果,脱色率分别达到95%、93%、76%和61%。随着染料浓度的增加,脱色率呈下降趋势,但当染料浓度达到200μmol/L时,M-2GE和AR-6B仍可保持80%以上脱色率。在常温下,rLac15对AR-6B、M-2GE、K-7R和KE-R显示较高脱色率,25℃反应24 h,分别达到96%、86%、66%和66%。rLac15是具有常温以及偏碱性环境脱色能力的细菌漆酶,具有潜在工业应用价值。     

Purification of a thermostable laccase from Leucaena leucocephala using a copper alginate entrapment approach and the application of the laccase in dye decolorization

Laccase from a tree legume, Leucaena leucocephala, was purified to homogeneity using a quick two-step procedure: alginate bead entrapment and celite adsorption chromatography. Laccase was purified 110.6-fold with an overall recovery of 51.0% and a specific activity of 58.5 units/mg. The purified laccase was found to be a heterodimer (∼220 kDa), containing two subunits of 100 and 120 kDa. The affinity of laccase was found to be highest for catechol and lowest for hydroquinone, however, highest K_cat and K_cat/K_m were obtained for hydroquinone. Purified laccase exhibited pH and temperature optima of 7.0 and 80 °C, respectively. Mn²⁺, Cd²⁺, Fe²⁺, Cu²⁺ and Na⁺ activated laccase while Ca²⁺ treatment increased laccase activity up to 3 mM, beyond which it inhibited laccase. Co²⁺, Hg²⁺, DTT, SDS and EDTA showed an inhibition of laccase activity. The Leucaena laccase was found to be fairly tolerant to organic solvents; upon exposure for 1 h individually to 50% (v/v) each of ethanol, DMF, DMSO and benzene, more than 50% of the activity was retained, while in the presence of 50% (v/v) each of methanol, isopropanol and chloroform, a 40% residual activity was observed. The purified laccase efficiently decolorized synthetic dyes such as indigocarmine and congo red in the absence of any redox mediator.     

刺芹侧耳产漆酶条件优化及对偶氮染料甲基橙的脱色

漆酶是一种含铜的单电子多酚氧化酶,能够催化氧化各种酚类及多种染料,在处理染料废水方面具有巨大的潜力。刺芹侧耳Pleurotus eryngii具有较强的产漆酶能力,但漆酶产量在较大程度上受环境条件限制。本文研究了氮源含量、pH、温度、金属离子等环境条件对刺芹侧耳产漆酶能力的影响,优化了其产漆酶条件,并用其粗酶液对典型偶氮类染料甲基橙进行脱色,结果表明,在氮源0.5%（W/W）、pH 5.5、温度28℃、添加5.0mmol/L Mg ²⁺的培养条件下,刺芹侧耳产漆酶能力最强,培养6d时,漆酶酶活可达78.0U/L。用优化培养的刺芹侧耳粗酶液对偶氮染料甲基橙进行脱色,28h后脱色率可达90%,脱色反应为准一级动力学反应,甲基橙并未完全矿化,而是生成小分子中间产物。     

宏基因组来源耐Mn2+、热稳定细菌漆酶的分子克隆及酶学特性

【背景】漆酶和锰过氧化物酶(Manganese peroxidase,Mnp)是木质素降解的主要酶,二者有协同效应。Mnp活性依赖于Mn~(2+),而Mn~(2+)是大多数漆酶的抑制剂。【目的】获得耐Mn~(2+)的细菌漆酶用于木质素降解。【方法】构建许昌市某污水河污泥宏基因组文库,通过活性筛选获得细菌漆酶基因lac1542。使用大肠杆菌异源表达Lac1542,研究纯化后的重组蛋白酶学性质并进一步检测了含Lac1542复合酶系降解木质素能力。【结果】测序结果显示lac1542编码一个含513个氨基酸的蛋白。以ABTS为底物Lac1542最适反应pH为4.0,在pH 3.0-6.5范围内酶活性稳定。最适反应温度是75°C,在70°C以下酶活性稳定;100 mmol/L的Mn~(2+)仍能提高酶的活性。动力学参数研究发现,该酶的最适底物顺序为:ABTS丁香醛联氮儿茶酚2,6-DMP愈创木酚。Lac1542/Mnp复合酶系对木质素降解率为47.8%,比单独使用Mnp木质素降解率(22.4%)提高25.4%。Lac1542/Mnp/灰盖鬼伞过氧化物酶(Coprinus cinereus Peroxidase,CIP)复合酶系木质素降解高达71.5%,比Mnp/CIP酶系木质素降解率(48.9%)提高22.6%,加入Lac1542后的复合酶系能明显提高木质素的降解率。【结论】Lac1542的可溶性表达、耐受高浓度Mn~(2+)、热稳定性使得Lac1542可以替代一些经典的真菌漆酶应用于制浆、造纸、纤维素乙醇生产、染料脱色等工业。     

漆酶高产工程菌构建及漆酶对RBBR的脱色作用

研究提取产漆酶白腐菌 (Fomelignosus)的总RNA ,利用RT PCR克隆到漆酶的cDNA ,并将其克隆到表达载体pGAPZA ,重组质粒经线性化、电激转化PichiapastorisGS115、通过底物显色反应筛选漆酶生产工程菌株 ,在最适培养条件下该菌株产酶活力高达 9 0 3U·mL-1。纯化得到漆酶对RBBR(RemazolbrilliantblueR)有很好的脱色作用 ,该酶的最适脱色pH为 5 0 ,最适脱色温度为 30℃。当溶液中漆酶活力为 1 0U·mL-1,在最适脱色条件下作用12h ,10 0mg·L-1RBBR溶液脱色率可达 90 %以上。