白腐真菌漆酶的纯化及性质

液体发酵培养白腐真菌F9,粗酶液经盐析、透析浓缩、葡聚糖G-100柱层析、DEAE-纤维素离子交换层析四步分离纯化,得电泳纯漆酶。经SDS-PAGE法测定酶的相对分子质量约为6×104,酶活回收率达46.47%,纯度提高了18.86倍。F9漆酶最适反应温度为40℃,最适反应pH为4.8,在35℃以下、pH 4.8～5.4的范围内稳定性较强。其催化愈创木酚的Km为4.61 mmol/L,vm为6.27 mmol/(L.min)。K+对其有激活作用,而Fe2+、Fe3+对其有明显抑制作用。     

白灵侧耳漆酶分离纯化及其酶学性质研究

为了探索白灵侧耳Pleurotus eryngii var.tuoliensis漆酶性质,以白灵侧耳菌株00485为试验材料,从发酵液中分离纯化得到胞外漆酶并对其酶学性质进行测定。纯化流程依次为DEAE-Cellulose阴离子交换层析,CM-Cellulose阳离子交换层析,SP-Sepharose强阳离子交换层析以及Superdex 75凝胶过滤层析,获得胞外白灵侧耳漆酶(Pn Lac)。SDS-PAGE检测结果表明Pn Lac为65k Da的单一蛋白。Pn Lac经过胰蛋白酶水解得到3种肽段,经过NBCI-BLAST后发现它们与糙皮侧耳、环柄韧伞、刺芹侧耳等的漆酶具有同源性。底物为2,2-联氮-二(3-乙基-苯并噻唑-6-磺酸)二铵盐(ABTS)时该种漆酶的最适反应温度和p H分别为50℃和3.0,Ca2+和Hg2+能够抑制它的活性,相反地Cu2+和Mn2+能够提高它的活性,米氏常数Km和Vmax分别是0.17mmol/L和1.76OD/min/U。     

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。     

毛木耳漆酶纯化及其部分漆酶特性的研究

对毛木耳AuriculariapolytrichaAP4的粗酶液进行PAGE电泳后发现含有三种漆酶同工酶,并且通过运用NativeSDS-PAGE获得三种漆酶的分子量大小分别约为:LacA(110kD);LacB(84kD);LacC(65kD)。对漆酶粗酶液通过硫酸铵分级沉淀和离子交换柱层析进行纯化,用SDS-PAGE证明获得纯化的单一漆酶LacB。LacB漆酶的反应的最适温度为30℃,最适pH为3.0。此酶氧化ABTS的Km值为6.64×10-mmol/L,金属离子对酶活的影响很大,其中5Ca2+,Mg2+,Zn2+,Na2+,Ag2+对漆酶LacB有明显的激活作用;Co2+,Hg2+,Fe3+,Fe2+,Ba2+等对酶活有明显的抑制作用。LacB和其它真菌漆酶一样具有底物专一性不强的特点,并且LacB对RB亮兰染料有很好的脱色作用。     

白腐菌产漆酶的纯化及部分酶学性质

对白腐菌W 1产生的漆酶粗酶液通过超滤浓缩、分子筛和离子交换层析进行纯化 .用SDS PAGE证明该酶的分子量大约为 6 2 4kD .等电聚焦电泳显示该酶的等电点为 3 5 .酶反应的最适温度为 5 0℃ ,最适pH值为 4 5 .此酶氧化DMP的Km 值为 3 84× 10 -5mol L .金属离子对酶活的影响很大 ,其中K+ 、Mn2 + 、Ag+ 对酶活有促进作用 ,Fe2 + 、Fe3 + 、Hg2 + 、Co2 + 、Ba2 + 等对酶活有明显的抑制作用 .酶对部分染料也有一定的脱色效果     

固定化真菌漆酶降解氯苯嘧啶醇农药

在葡萄糖培养基中,栓菌420(Trametes sp.420)经6mmol/L邻甲苯胺诱导,漆酶活力达到4535U/L(愈创木酚法)。用弱阴离子交换层析可分离得到纯化漆酶。以壳聚糖为载体,戊二醛为交联剂对漆酶进行固定化,30g壳聚糖与30U漆酶混合,酶活回收率高达69%。在酸性条件下,固定化漆酶对农药氯苯嘧啶醇具有良好的降解作用。     

黑木耳漆酶纯化及部分漆酶特性的研究

黑木耳漆酶研究可为漆酶的进一步分离纯化、基因克隆表达和大规模生产应用奠定基础。对黑木耳"黑29"菌株漆酶粗酶液进行硫酸铵分级沉淀后,通过Native SDS-PAGE电泳检测,存在3种漆酶LacA、LacB、LacC,分子量分别为60,34,19 kD。经硫酸铵分级沉淀和DEAE-Sephacel柱层析技术分离得一纯化成分LacC,纯化倍数7.60,酶活性回收4.28%。对LacC的pH、温度、金属离子和Km值等部分酶学性质进行研究发现,该酶氧化ABTS的Km值为1.18×10-6mol/L,催化氧化底物ABTS的最适pH为3.8,在pH 3.0~4.6表现出较强的稳定性;最适反应温度为55℃,低于50℃时有较好的热稳定性;金属离子Ag+对漆酶有激活作用,而Fe3+、Mn2+、Co2+则有抑制作用。     

重组E．coli胆固醇氧化酶的分离纯化及其酶学性质研究

对重组E.coli产生的胆固醇氧化酶采用70%硫酸铵盐析、CM Sepharose FF离子层析、Phenyl Sepharose 6 Fast疏水层析、Sephadex G-75凝胶过滤,得到的胆固醇氧化酶在SDS-PAGE上呈单一蛋白质条带,酶的纯化倍数为93,收率为21%.部分酶学性质表明:酶的最适反应温度为37℃,最适反应pH7.5,热稳定范围在40℃以下,酶的pH稳定范围为6～9,分子量分别为50 kD和52 kD.酶动力学参数Km值及Vmax分别为8.2×10-5 mol/L和0.21 mmol/(L.min).     

白腐真菌SYBC-L2漆酶的分离纯化及其在毛纺染料脱色中的应用

经过硫酸铵分级盐析、DEAE-cellulose离子交换层析、SephacrylTMS-200柱层析,从白腐菌株Phellinus sp. SYBC-L2所产的漆酶中纯化得到电泳纯漆酶Lac3,其纯化倍数为28.27,回收率为14.76%.Lac3为一种糖蛋白,糖含量29.66%,SDS-PAGE表观分子量约为64.3 kD;其催化氧化DMP(2,6-Dimethoxyphenol)的表观Km值和Vmax分别为1.01 mmol/L和186.2 U/mg蛋白.Lac3的最适温度为60℃,最适pH为3.5;在30℃～50℃和pH 4.5～9.0范围内稳定.Cu2+、SO42-、CO32-对Lac3具有一定促进作用,而Fe3+、Fe2+、NO3-则具有抑制作用.色素的最佳脱色条件为(Lac3终浓度为2 U/ml):媒介元PV在温度50 ℃、pH值3.0的条件下反应2 h,脱色率可达95.10%;弱酸蓝在温度40 ℃、pH值4.0的条件下作用3 h,脱色率为75.09%.     

一种pH稳定的黄色漆酶的快速纯化和性质特征

通过丙酮沉淀和 DEAE- cellulose DE52 柱层析, 快速、有效地从一株白腐菌 Trametes sp. SQ01 的发酵液中纯化了漆酶。纯化的漆酶并非传统漆酶那样呈现蓝色, 而是一种黄色蛋白。以 ABTS 为底物时, 该酶的最适 pH 和温度分别是 pH 4.5 和 70°C, Km 为 0.029 mmol/L。T. SQ01 漆酶在 pH 3.0~11.0时, 酶活相对稳定, 在 pH 5.0 时最为稳定, 是目前报道的 pH 稳定性最好的漆酶。低浓度的金属离子(1 mmol/L) Cu2+、Mg2+ 、Ca2+ 和Co2+ 对漆酶有促进作用, 而高浓度(5 mmol/L)的Co2+、Zn2+、 Mn2+、Mg2+ 却抑制漆酶酶活。SDS 对该酶有激活作用, 当其浓度为1 mmol/L时, 漆酶相对酶活达到128%。DTT对漆酶强烈抑制, 即使是浓度为1 mmol/L, 亦可完全抑制漆酶酶活。纯化后的漆酶对亮蓝(RBBR) (100 mg/L)的脱色能力显著, 0.5 U/mL 的漆酶在 10 min内即可达到 80%的脱色率。T. sp. SQ01 漆酶的快速纯化以及高效脱色的能力表明该酶在染料脱色降解方面有着广阔的应用前景。     

蜜环菌胞外漆酶的合成、纯化及性质研究

研究了蜜环菌胞外漆酶合成条件和酶学性质。实验表明,培养基初始pH5.5、培养温度25℃有利于菌株产酶;与麦芽糖、山梨糖和半乳糖相比,纤维二糖和棉子糖作为碳源时漆酶产量更高;有机氮源比无机氮源有利于漆酶合成。泥炭提取液可显著诱导漆酶生成,当其含量为50%时,菌株漆酶最高产量是对照组的7倍。在蜜环菌发酵上清液中检测到3个漆酶同功酶组分,其主要活性（约占75%）组份漆酶A经 (NH₄)₂SO₄沉淀、制备级PAGE电泳和阴离子交换柱层析被分离纯化至电泳均一,SDSPAGE法测得酶亚基分子量59kD,凝胶过滤色谱法测定活性酶分子量58kD。纯化的漆酶A等电点pI为4.0,氧化愈创木酚的最适反应pH为5.6,最适温度为60℃,在60℃和65℃时半衰期分别为45min和36.8min,在pH5.2～7.2范围内稳定性较好。100mmol/L Cl^-对该酶有显著抑制作用,1mmol/L SO^2-₄ 对漆酶有激活作用,1mmol/L NaN₃可完全抑制酶活性,10 mmol/L EDTA对漆酶活没有明显影响,1mmol/L Cu²⁺对漆酶有激活作用。以愈创木酚为底物时,测得酶的K_m=1.026mmol/L,V_max=5μmol/(min·mg);以ABTS为底物时,测得其K_m=0.22mmol/L,V_max=69μmol/(min·mg)。     

Fermentation optimization and characterization of the laccase from Pleurotus ostreatus strain 10969

Laccase is a widespread group of multi-copper enzymes which can catalyze the oxidation of a variety of organic compounds, with concomitant reduction of molecular oxygen to water. It has a wide application in industrial processes, particularly in renewable bio-energy industry. In this study, Pleurotus ostreatus strain 10969 with high yield of laccase, previously isolated from edible fungus growing on Juncao, was applied for optimization of fermentation media and growth parameters for the maximal enzyme production through response surface methodology and further characterization of the laccase activity. The results show that glucose and Mg²⁺ are the key ingredients for laccase production with the optimum concentration of 0.0988 g/mL and 7.3 mmol/L respectively. Compared to the initial medium, the highest laccase yield observed is approximately increased by 2.5 times under the optimized conditions. Extracellular laccase was then purified and its characters were analyzed. The molecular weight of the laccase is about 40 kDa, and the optimum pH and temperature for its activity is 4.0 and 50 °C with the corresponding Km and Vmax of 0.31 mmol/L and 303.25 mmol/min respectively. DTT, β-mercaptoethanol and NaN₃ nearly inhibit all activity of the laccase, as well as the metal ions especially Ag⁺. In summary, our results will facilitate the utilization of plant lignin in biomass energy industry.     

Influence of Several Activators on the Extracellular Laccase Activity and In vivo Decolourization of Poly R‐478 by Semi‐Solid‐State Cultures of Trametes versicolor

The effect of several laccase activity activators,such as ethanol (novel activator), veratryl alcohol, melanin production and aeration level, on the laccase production by Trametes versicolor (CBS100.29) was investigated. The microorganism was cultivated on nylon sponge, functioning as a physical support on which the mycelium was bound. The cultures with veratryl alcohol showed maximum laccase and manganese‐dependent peroxidase (MnP) activities of 238 U/l and 125 U/l, respectively. The laccase activity found is about two times higher than that attained in the control cultures. On the contrary, MnP activity did not appear to be influenced by the addition of this alcohol. Ethanol‐supplemented cultures led to maximum laccase and MnP activity levels of about 102 U/l and 101 U/l, respectively. These activities were approx. 40% lower than those achieved in the reference cultures. The decolourization of the polymeric dye Poly R‐478 by the above‐mentioned cultures was also investigated. A percentage of biological decolourization of around 90% was achieved with control and veratryl alcohol‐supplemented cultures, whereas with ethanol‐supplemented cultures a slightly lower percentage of around 85% was reached after seven days of dye incubation.     

Purification and characterization of a novel laccase from Coprinus cinereus and decolorization of different chemically dyes

Laccase is a blue copper oxidase with multiple copper ions and widely distributed in higher plant and fungi. To date, numerous fungal laccases have been reported by many researchers. In present work, a new laccase gene, named CcLCC5I, from Coprinus cinereus was synthesized chemically according to the yeast bias codon and integrated into Pichia pastoris GS115 genome by electroporation. SDS-PAGE analysis showed that the recombinant laccase has a molecular mass of approximately 56.8 kDa. Its biochemical properties was carried out using substrate 2-2^′-azino-bis(3-ethylbenzothiazoline-6-sulfonate) (ABTS). It was showed that the optimum pH and temperature of the laccase is 3.0 and 55 °C, respectively. Except for copper ions, most metal ions inhibited the laccase activity at a high concentration about 10 mM. Sodium sulfite can also highly inhibit laccase activity whereas EDTA had no inhibitory effect on the laccase activity. The CcLCC5I have high ability to decolor not only azo but also aryl methane dyes. The recombinant laccase decolored 44.6 % orange G, 54.8 % Crystal Violet, and 87.2 % Malachite green at about 2.6 h. The novel laccase may be a good candidate for breeding engineering strains used in the treatment of industrial effluent containing azo and aryl methane dyes.     

三相鼓泡塔生物反应器培养云芝菌合成漆酶

为了提高云芝菌发酵生产漆酶的效率,提出了一种利用自絮凝菌丝球在三相鼓泡塔生物反应器中重复分批发酵产漆酶的新方法。在优化后的产酶条件下,考察维生素C的添加浓度对漆酶活力的影响,并通过在培养基中添加维生素C进行漆酶多批次培养。研究结果表明,维生素C的添加浓度为1.50mmol/L时,可使漆酶活力提高2.6倍。连续进行了10批培养,每批最大漆酶的活力均在1000 U/mL以上,最高酶活出现在第五批为1919.6 U/mL,总培养时间达25 d。此方法所得漆酶对染料靛蓝具有明显的脱色降解作用,在介体1-羟基苯并三唑（HBT）用量0.10%,漆酶用量100 U/L条件下作用40 min时,靛蓝脱色率达到96.7%。该方法采用的三相鼓泡塔生物反应器性能稳定、菌丝球可重复使用,该方法有利于漆酶的高效、规模化生产。     

Degradation of chlorophenols catalyzed by laccase

The degradations of 2,4-dichlorophenol (2,4-DCP), 4-chlorophenol (4-CP) and 2-chlorophenol (2-CP) catalyzed by laccase were carried out. The optimal condition regarding degradation efficiency was also discussed, which included reaction time, pH value, temperature, concentration series of chlorophenols and laccase. Results showed that the capability of laccase was the best, while to oxidize 2,4-DCP among the above-mentioned chlorophenols. Within 10 h, the removal efficiency of 2,4-DCP, 2-CP and 4-CP could reach 94%, 75% and 69%, respectively. The optimal pH for laccase to degrade chlorophenols was around 5.5. The increase of laccase concentration or temperature might result in the degradation promotion. The trends of degradation percentage were various among these three chlorophenols with the concentration increase of chlorophenols. Degradation of 2,4-DCP is a first-order reaction and the reaction activation energy is about 44.8 kJ mol⁻¹. When laccase was immobilized on chitosan, crosslinked with glutaraldehyde, the activity of immobilized laccase was lower than that of free laccase, but the stability improved significantly. The removal efficiency of immobilized laccase to 2,4-DCP still remained over 65% after six cycles of operation.     

Trametes sp.AH28-2漆酶A的诱导合成及其基因5'-端调控区的克隆与分析

Trametes sp．AH28—2漆酶同工酶的合成需要铜离子的存在,较高浓度的Cu^2 有利于漆酶合成。在以葡萄糖为碳源补加0．5mmol／L Cu^2 的培养基中生长时,发酵液漆酶活性为44．3u／L,同时补加4．0mmol／L邻甲苯胺时,漆酶酶活提高到71．0u／L;而在补加Cu^2 和邻甲苯胺的纤维二糖培养基中,酶活上升至2584u／L,为葡萄糖培养基的36．4倍。邻甲苯胺和铜离子诱导产生的漆酶同工酶组分,均为漆酶A(LacA)。竞争性RT—PCR分析表明,漆酶A基因(lacA)转录本的累积伴随有发酵液漆酶活性的增加,邻甲苯胺对lacA的调控发生在转录水平。lacA结构基因长2110bp,含有10个内含子;lacA的cDNA序列为1560bp,编码520aa的漆酶蛋白,其氨基酸序列与其它真菌漆酶具有较高的相似性。采用改进的反向PCR技术,扩增得到的lacA 5’-端调控区长1881bp,分析表明,该区域上分布有1个TATA框、7个CAAT框和多个潜在的顺式作用元件序列位点,包括5个MRE元件、9个CreA结合位点、4个XRE元件、2个STRE元件和7个氮因子调控位点等。这些序列位点的存在部分地对应了菌株摇瓶发酵奈件下lacA的表达规律。     

黄孢原毛平革菌产漆酶优化培养及其对刚果红的脱色降解

以白腐真菌模式菌株黄孢原毛平革菌Phanerochaete chrysosporium为研究对象,探讨培养条件、重金属和芳香族化合物对产漆酶的影响,并进一步研究漆酶对刚果红的降解效果.结果 表明,P.chrysosporium产漆酶最适培养条件:葡萄糖为碳源,蛋白胨为氮源,碳氮比为90.培养8d后,漆酶酶活为911.1...