一色齿毛菌漆酶的酶学特性及染料脱色研究

染料由于具有复杂的化学结构通常难以降解。本文从白腐菌一色齿毛菌LS0547中纯化出胞外漆酶并用于染料脱色实验。SDS-PAGE结果显示纯化的漆酶分子量大小为63.7kDa。漆酶氧化底物ABTS的最适pH为2.2,最适温度为50℃。叠氮钠可强烈抑制漆酶活性,半胱氨酸和二硫苏糖醇可部分抑制漆酶活性。漆酶氧化ABTS,丁香醛连氮和2,6-二甲氧基苯酚的米氏常数分别为0.217,0.306和0.199mmol/L。粗酶和纯化的漆酶用于不同化学结构的染料的脱色研究,结果表明一色齿毛菌纯化漆酶可快速对RB亮蓝进行脱色,偶氮胭脂红和结晶紫的脱色效果低于RB亮蓝,测试的三种染料均可在没有介体存在的条件下被漆酶脱色,显示出一色齿毛菌漆酶在染料废水处理中的应用前景。     

短小芽孢杆菌LC01漆酶基因在毕赤酵母中的胞外表达及重组漆酶酶学性质研究

为了获得表达量高、稳定性好及染料脱色效率高的细菌漆酶,通过PCR扩增出短小芽孢杆菌LC01的漆酶基因并构建重组表达载体pPICZαA-lac,转化毕赤酵母菌株SMD1168H后利用甲醇诱导培养重组菌获得重组漆酶,纯化并分析了重组漆酶的性质。重组菌株产漆酶活性在第7天达到最高,为1 390 U/L。纯化的重组漆酶分子量为65 kD,以丁香醛连氮为底物的最适反应温度和pH分别为70℃和6.8。在pH 9.0放置10 d活性没有下降,在70℃保温10 h后仍保留36%的酶活。Al~(3+)、Fe~(3+)和Mn~(2+)完全抑制漆酶活性。在介体乙酰丁香酮参与下该漆酶能够有效脱色RB亮蓝、活性黑5和靛红,在pH 9.0时6 h的脱色率达到了90%以上,表明该重组漆酶能有效应用于染料废水的脱色处理。     

丝孢菌Monodictys asperospera (Cooke & Massee) Ellis漆酶的分离纯化及其酶学性质

本研究首次发现Monodictyx asperospera(Cooke&Massee)Ellis具有较好的产漆酶能力.粗酶液经硫酸铵盐析、DEAE-纤维素层析及丙烯葡聚糖凝胶S-300层析纯化,纯化倍数为8.1,回收率为5.7%.漆酶分子量约为77kD,最适反应温度为55℃,最适反应pH6.0,以丁香醛连氮为底物时Km为0.163mm0l/L,Vmax为0.194 mmol(L·min),含糖量为18.14%,Cu2+对漆酶有明显抑制作用.     

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。     

灵芝漆酶催化直接耐晒翠蓝GL脱色条件的优化

采用灵芝菌株发酵所得的漆酶, 对酞菁类染料直接耐晒翠蓝GL进行了催化脱色实验, 确定了脱色反应的最适条件。结果表明: 单独使用灵芝漆酶粗酶液对直接耐晒翠蓝GL具有很好的脱色效果。其最适脱色pH为3.0, 最适脱色温度为40°C, 最适漆酶用量是40 U/mL, 最适染料浓度为60 mg/L。以上述最适脱色条件对直接耐晒翠蓝GL进行脱色实验, 反应70 min, 脱色率可达94.3%。研究结果显示, 所试灵芝漆酶在印染废水治理方面具有良好的应用前景。     

耐过氧化氢的锰过氧化物酶对三苯甲烷类染料的脱色

[目的]从一株白腐菌Trametes sp.SQ01中获得一种新型的锰过氧化物酶,探讨该酶的底物特异性和对过氧化氢的耐性,以及其对三苯甲烷类染料的脱色能力.[方法]通过丙酮沉淀和DEAE-cellulose 52柱层析法纯化锰过氧化物酶.利用UV-2010紫外可见分光光度法研究锰过氧化物酶对过氧化氢的耐性,同时,用紫外可见分光光度计对三苯甲烷类染料脱色效果进行分析.[结果]通过两步纯化,获得了均一性的锰过氧化物酶.该酶的最适pH和温度分别是4.5和70℃,在pH 3.0-8.0时,酶活相对稳定.该酶在二价锰离子存在下能够氧化2,6-二甲氧基苯酚、愈创木酚、2,2＇-连氮-双-(3-乙基苯并噻唑啉磺酸)和过氧化氢等化合物,同时也能作用二价锰离子.在与这些底物反应中,最适底物为过氧化氢(Km为3.7 tmmol/L).该酶具有抗过氧化氢漂白能力,锰过氧化物酶与高浓度的过氧化氢(2.5 mmol/L)作用60 min后仍能保持70％的活性.在所测试的染料中,锰过氧化物酶对结晶紫的脱色率最高达到65.8％.二价锰离子和过氧化氢对锰过氧化物酶脱色能力的影响进行研究,与孔雀绿相比,锰离子和过氧化氢对活性艳蓝脱色的影响很小.[结论]Trametes sp.SQ01锰过氧化物酶对过氧化氢的耐受性,以及对三苯甲烷类染料的高效脱色能力表明该酶在染料脱色降解方面有着广阔的应用前景.     

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。     

疣孢漆斑菌Myrothecium verrucaria GH-01漆酶的纯化和酶学性质研究

疣孢漆斑菌具有生长周期短,分泌漆酶酶活高等特点。利用已分离得到的疣孢漆斑菌GH-01(Myrothecium verrucaria GH-01)发酵产生粗酶液。进而通过分级沉淀、透析和层析的方法对漆酶粗酶液进行纯化。SDS-PAGE和Native-PAGE结果表明纯化可获得具有漆酶活性的单体蛋白。酶学性质研究表明,该漆酶催化最适温度为40℃,在底物ABTS存在条件下的最适p H值为4.0,且在低温及碱性条件具有较好的稳定性。此外通过漆酶对4大类染料脱色能力的研究,发现该漆酶对偶氮类的橙黄Ⅰ和蒽醌类的茜素红脱色有较好的脱色效果,反应1 h脱色率达80%以上;对三苯甲烷类的碱性品红脱色能力较弱,脱色率只能达到20%左右;脱色率最差的是杂环类的亚甲基蓝。在含10 U漆酶的体系中,对50 mg/L的染料降解效果相对最佳。     

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。     

固定化漆酶对染料酸性紫43的脱色和降解

采用自制复合型载体丙烯酸酯类聚合物固定的漆酶对染料酸性紫43进行脱色处理。研究了固定化酶的用量、底物浓度、温度、pH对其降解效果的影响。结果表明,固定化漆酶脱色降解酸性紫43的适宜条件为:酶用量12.5 U/mL,染料浓度150 mg/L,反应的温度范围在45~55℃,pH值范围在4.5~5.0。在上述条件下降解4h,染料酸性紫43脱色率能达到98.5%。重复分批使用固定化漆酶处理染料酸性紫43,在使用8批次后,脱色率仍然能保持在90%以上,其催化效率得到了很大提高。     

芽胞杆菌漆酶的研究进展

芽胞杆菌漆酶具有耐高温、适宜碱性条件的特性,是细菌漆酶的典型代表,其潜在工业化应用价值极高。枯草芽胞杆菌的芽胞外衣蛋白CotA是目前研究得最深入的细菌漆酶,其三维结构及催化机理与其他漆酶类似,但其催化部位的结构与其他漆酶差异较大。同时,近年来科研工作者们还发现了很多其他类型的芽胞杆菌漆酶。本文从结构特征、催化特性、酶学性质和应用四个方面阐述芽胞杆菌漆酶的特点及近年来的最新研究进展,并对其前景进行展望。     

Congo red degrading laccases from Bacillus amyloliquefaciens strains isolated from salt spring in Serbia

Halotolerant strains of Bacillus amyloliquefaciens were isolated from salt spring in Ovca spa located in Republic of Serbia. Strains exhibit robust spore laccase with high temperature optimum of 65 °C while pH optimum is wide and substrate dependant. Ability to oxidize azo dyes was demonstrated. Under optimized conditions more than 85% removal of Congo red dye was achieved at pH 5.7. Substantial resistance to inhibition by high concentration of chloride ions was observed and tolerance of some commonly used cosolvents shows that applicability of these laccases goes beyond decolorization of textile effluents.     

Decolorization of industrial dyes by a Brazilian strain of Pleurotus pulmonarius producing laccase as the sole phenol-oxidizing enzyme

The ability of a Brazilian strain ofPleurotus pulmonarius to decolorize structurally different synthetic dyes (including azo, triphenylmethane, heterocyclic and polymeric dyes) was investigated in solid and submerged cultures. Both were able to decolorize completely or partially 8 of 10 dyes (Amido Black, Congo Red, Trypan Blue, Methyl Green, Remazol Brilliant Blue R, Methyl Violet, Ethyl Violet, Brilliant Cresyl Blue). No decolorization of Methylene Blue and Poly R 478 was observed. Of the four phenol-oxidizing enzymes tested in culture filtrates (lignin peroxidase, manganese peroxidase, aryl alcohol oxidase, laccase),P. pulmonarius produced only laccase. Both laccase activity and dye decolorization were related to glucose and ammonium starvation or to induction by ferulic acid. The decolorizationin vivo was tested using three dyes — Remazol Brilliant Blue R, Trypan Blue and Methyl Green. All of them were completely decolorized by crude extracellular extracts. Decolorization and laccase activity were equally affected by pH and temperature. Laccase can thus be considered to be the major enzyme involved in the ability ofP. pulmonarius to decolorize industrial dyes.     

Extracellular ligninolytic enzymes by Lentinus polychrous Lév. under solid-state fermentation of potential agro-industrial wastes and their effectiveness in decolorization of synthetic dyes

Six agro-industrial wastes were evaluated as a support for ligninolytic enzyme production by the white-rot fungus Lentinus polychrous Lév. under solid-state fermentation. Enzyme production was markedly different according to the substrate used. Rice bran (RB) yielded the highest laccase activity of 1,449 U/L (after 21 days of culture) with specific activity of 4.4 U/g substrate. Rice bran supplemented with rice husk (RH) (2:1 by wt) showed high laccase activity of 1,425 U/L with specific activity of 10.0 U/g substrate (after 17 days of culture). The crude enzyme of the RH-RB culture also contained manganese peroxidase (MnP) and manganese-independent peroxidase (MIP) activities in relative proportions of 1.9:1.4:1 of laccase:MnP:MIP, respectively. Zymogram studies showed the same isoenzyme pattern with these ligninolytic enzymes. The high enzyme production level and low substrate cost of SSF-L. polychrous Lév. suggest that it has potential for industrial applications. Our studies showed that the crude enzyme from this culture exhibited in vitro decolorization of Indigo Carmine. The highest efficiency of dye decolorization was observed under alkaline conditions (pH 9.0) at an initial dye concentration of 10 mg/L. The rather high pH conditions and high efficiency in Indigo Carmine decolorization make the enzyme further interest for the applications in treatment of waste water from the textile industry, which contains synthetic dyes.     

Improving the decolorization for textile dyes of a metagenome-derived alkaline laccase by directed evolution

To obtain better performing laccases for textile dyes decolorization, random mutagenesis of Lac591, a metagenome-derived alkaline laccase, was carried out. After three rounds of error-prone PCR and high-throughput screening by assaying enzymatic activity toward the phenolic substrate 2,6-dimethoxyphenol (2,6-DMP), a mutant (Lac3T93) with remarkably improved enzymatic activity was obtained. Sequence analysis revealed that four amino acid substitutions (N40S, V55A, F62L, and E316V) were accumulated in the Lac3T93. Compared to the wild-type enzyme, the specific activity of Lac3T93 toward 2,6-DMP was increased to 4.8-fold (61.22 U/mg), and its optimal temperature and pH were changed to 60°C and 8.0 from 55°C and 7.5 of the wild-type enzyme, respectively. Furthermore, the degradation ability of Lac3T93 for textile dyes was investigated, and the new variant represented improved decolorization percentage for four industrial dyes with complex phenyl structure (Basic Blue 3, Methylene Blue, Bromophenol Blue, and Crystal Violet) and higher decolorization efficiency for Indigo Carmine than that of the parent enzyme. Furthermore, the decolorization percentage of Lac3T93 for five dyes in the absence of hydroxybenzotrizole (HBT) is clearly higher than those of the wild-type enzyme with 1 mM HBT, and HBT can further improve its decolorization ability.     

Induction of a white laccase from the deuteromycete Myrothecium verrucaria NF-05 and its potential in decolorization of dyes

Myrothecium verrucaria NF-05 is a deuteromycete fungus capable of producing a white laccase. The optimal concentration of Cu²⁺ for laccase production by this strain is 0.2 mM (43.23 ± 1.16 U mL^{? 1}). A comprehensive investigation of the induction demonstrated that NF-05 laccase production could be synergistically enhanced by various inducers, including aromatic phenols, amines and recalcitrant dyes, in the presence of 0.2 mM Cu²⁺. Sixteen phenols, fourteen amines and four dyes exhibited significant inductive effects on laccase production. The best inducer was 3, 3’-dimethylbenzidine, which increased laccase production to 258.1 ± 11.1 U mL^{? 1}. These results suggest that M. verrucaria NF-05 is a promising industrial laccase producer. Based on the increased production, purified NF-05 laccase was used to decolorize dyes of various structural types in the presence of six redox mediators. Among the 26 tested dyes, the decolorization rate of six azo dyes, chromotrope 2R, orange G6, Congo red, Ponceau S, amaranth and reactive yellow 135 and two arylmethane dyes, fast green 3 and neutral red, were significantly increased by each of the six mediators. These results demonstrate the potential use of the NF-05 laccase for the decolorization of recalcitrant dyes in dye bleaching and effluent detoxification.     

Production of Laccase by Trametes hirsuta Grown in an Immersion Bioreactor and its Application in the Docolorization of Dyes from a Leather Factory

An alternative system for producing laccase on a bioreactor scale by the white‐rot fungus Trametes hirsuta is proposed. The experiments were performed in an immersion bioreactor (employing cuttings of stainless steel sponges as a support) and the culture medium was supplemented with copper sulfate (1 mM). Operating under these conditions, it was possible to obtain a maximum laccase activity of nearly 5,000 U/L within 9 days. In addition, the ability of the crude laccase produced to decolorize two synthetic acid dyes utilized in the leather industry (Luganil Green and Sella Solid Red) was investigated. The effect of the pH and the enzyme activity on decolorization was analyzed. It was found that a pH of 4.0 and a laccase activity of 300 U/L were optimal for Luganil dye decolorization (16.2 % in 2 hours). Sella Solid Red showed its highest decolorization (around 40 % in 2 hours) when used at pH 5.0 and at a laccase activity of 1,000 U/L.     

Decolorization of reactive dyes by a thermostable laccase produced by Ganoderma lucidum in solid state culture

Dye decolorizing potential of the white rot fungus Ganoderma lucidum KMK2 was demonstrated for recalcitrant textile dyes. G. lucidum produced laccase as the dominant lignolytic enzyme during solid state fermentation (SSF) of wheat bran (WB), a natural lignocellulosic substrate. Crude enzyme shows excellent decolorization activity to anthraquinone dye Remazol Brilliant Blue R (RBBR) without redox mediator whereas diazo dye Remazol Black-5 (RB-5) requires a redox mediator. Polyacrylamide gel electrophoresis (PAGE) of crude enzyme confirms that the laccase enzyme was the major enzyme involved in decolorization of either dyes. Native and SDS-PAGE indicates that the presence of single laccase with molecular weight of 43 kDa. N-Hydroxybenzotriazole (HBT) at a concentration of 1 mM was found as the best redox mediator. RB-5 (50 mg l^−l) was decolorized by 62% and 77.4% within 1 and 2 h, respectively by the crude laccase (25 U ml⁻¹). RBBR (50 mg l^−l) was decolorized by 90% within 20 h, however, it was more efficient in presence of HBT showing 92% decolorization within 2 h. Crude laccase showed high thermostability and maximum decolorization activity at 60 °C and pH 4.0. The decolorization was completely inhibited by the laccase inhibitor sodium azide (0.5 mM). Enzyme inactivation method is a good method which averts the undesirable color formation in the reaction mixture after decolorization. High thermostability and efficient decolorization suggest that this crude enzyme could be effectively used to decolorize the synthetic dyes from effluents.     

土壤中高产蛋白酶菌株产酶条件及酶学性质

【背景】微生物蛋白酶已经成为工业用蛋白酶的主要来源,筛选具有特殊环境适应性的微生物成为生物酶资源的开发热点。【目的】通过对青藏高原土壤微生物产蛋白酶菌株的筛选、优化及相关特性研究,寻找新的蛋白酶资源,为高原菌种资源利用提供科学依据。【方法】采用形态学和分子生物学对筛选菌株进行菌种鉴定,利用单因素试验和正交试验对菌株进行发酵条件优化及酶学性质的探究。【结果】筛选出一株高产蛋白酶菌株XC2,经鉴定菌株XC2为枯草芽孢杆菌(Bacillus subtilis)。XC2最优产酶条件:可溶性淀粉4.0%,牛肉膏1.0%,K~+0.6%,培养温度34°C、初始pH 7.0、接种量2.0%的条件下200 r/min振荡培养13 h,所产蛋白酶活力最高为638.5 U/mL。XC2所产蛋白酶最适反应温度60°C,最适pH9.0;40-50°C、pH8.0-10.0条件下酶活稳定性较高;Mn~(2+)对酶活力有明显激活作用,而Zn~(2+)、Cu~(2+)、Fe~(2+)、Fe3+对酶活力有明显抑制作用。【结论】枯草芽孢杆菌XC2有较强的产碱性蛋白酶的能力,具有较好的应用前景。     

Partial purification and characterization of the novel halotolerant and alkalophilic laccase produced by a new isolate of Bacillus subtilis LP2

Laccases (benzenediol: oxygen oxidoreductases, [EC1.10.3.2] are mostly known as members of the blue multicopper oxidase family that are used in very different industrial applications: textile, pulp and paper, food, cosmetics industries, bioremediation process, biosensor, biofuel and organic synthesis. Stability against the extreme conditions is an important property and it makes laccase suitable for several industrial processes. Laccase should have salt resistance to be used in textile dye degradation because the textile wastewaters include dyes with high concentrations of salts, especially NaCl. Bacterial laccases are preferable to be used for bioremediation process due to their high stability to extremely salt contaminated and alkalophilic environment. Bacillus subtilis LP2 was identified as a source of alkali-tolerant, salt resistant laccase. Laccase showed activity over a wide pH (4–10) and temperature (30–80?°C) range. Maximum laccase activity was observed as 140.4?U/mg (umol/min*mg) at pH 8 and 50?°C with the substrate guaiacol. Stability of laccase was determined as 60% and 20% after incubation of the enzyme for different time intervals of 20 and 40?min at 50?°C and pH 8. SDS (10?mM) and EDTA (5?mM) decreased laccase activity from 100% to 0% and 56%, respectively. Despite the other inhibitors, NaCI increased the activity of laccase to 167% at 500?mM concentration. Laccase from Bacillus subtilis LP2 barely showed the activity on the substrates vanillin and L-tyrosine. These results clearly show that laccase from Bacillus subtilis LP2 has high potential to be used for several applications in textile industry.