Production of laccase by Coriolus versicolor and its application in decolorization of dyestuffs: (Ⅱ) Decolorization of dyes by laccase containing fermentation broth with or without self-immobilized mycelia

The capability of decolorization for commercial dyes by Coriolus versicolur fermentation broth containing laccase with or without immobilized mycelium was evaluated.With cell-free fermentation broth containing laccase,high decolorization ratio was achieved for acid orange 7,but not for the other dyes concerned.The immobilized mycelium was proved to be more efficient than the cell-free system.All the four dyestuffs studied were found being decolourized with certain extent by immobilized mycelium.The repeated-batch decolorization was carried out with satisfactory results.The experimental data showed that the continuous decolorization of wastewater from a printing and dyeing industry was possible by using self-immobilized C.Versicolor.     

Production of laccase by Coriolus versicolor and its application in decolorization of dyestuffs: (Ⅰ) Production of laccase by batch and repeated-batch processes

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Production of laccase by Coriolus versicolor and its application in decolorization of dyestuffs: (Ⅱ) Decolorization of dyes by laccase containing fermentation broth with or without self-immobilized mycelia

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Trametes sp.LS-10C产漆酶发酵培养基优化及其漆酶对偶氮染料的脱色性能

为了提高菌株Trametes sp.LS-10C的漆酶产量并初步研究该酶对偶氮染料的脱色性能,本文通过单因素实验及均匀设计对菌株Trametes sp.LS-10C产漆酶培养基进行了优化,获得最优培养基配方为:葡萄糖14.4 g·L~(-1)、豆渣10.1 g·L~(-1)、麸皮100 g·L~(-1)、NH_4Cl_3g·L~(-1)、KH2PO41.4g·L~(-1)、CuSO_4’5H2O 1 g·L~(-1)、NaCl 1 g·L~(-1)、MgSO_40.8 g·L~(-1)、CaCl_20.5 g·L~(-1).菌株发酵至8 d时漆酶产量为595.15 U·m L~(-1),约是优化前的35.66倍.进一步研究表明,该漆酶-介体系统对酸性红GR、酸性蓝40和酸性铬蓝K等3种偶氮染料脱色10 h后脱色率分别高达96.86%、91.28%和86.31%.相比公开发表的文献,本研究所报道的Trametes sp.LS-10C利用优化培养基发酵产漆酶达到了较高水平,具有酶活力高和发酵时间短等特征,且该漆酶在处理偶氮染料废水脱色领域中具有进一步研发和应用价值.     

变色栓菌对直接大红染料的脱色研究

从野外倒木上分离得到一株对直接染料具有高效脱色能力的白腐真菌CB1,采用形态学与分子生物学鉴定法对菌株CB1进行鉴定.结果表明,菌株CB1为变色栓菌(Trametes versicolor);在固体培养基上,利用T.versicolor CB1对5种直接染料进行脱色,结果显示,T.versicolor CB1对5种直接染料均可脱色,其中对直接大红的脱色效果最为明显;采用单因素分析方法对T.versicolor CB1脱色直接大红的培养条件进行优化,结果显示,以果糖为碳源、硝酸铵为氮源、p H=5、添加Cu SO_4和Ca Cl_2利于T.versicolor CB1对直接大红的脱色;通过正交试验优化T.versicolor CB1对直接大红的脱色条件,优化结果为:果糖10 g·L~(-1)、硝酸铵2 g·L~(-1)、Cu SO_41 mmol·L~(-1)、Ca Cl_23 mmol·L~(-1)、p H=5.优化条件下第7 d时的脱色率为78.23%,与优化前相比,脱色率提高了24.04%.     

Myrothecium verrucaria NF-08产漆酶条件的响应面法优化及粗酶染料脱色研究

以半知菌属疣孢漆斑菌Myrothecium verrucaria NF-08为供试菌,采用响应面方法优化菌株产漆酶条件,并以其漆酶粗酶进行3种结构类型6种染料的脱色试验,考察了粗酶浓度、温度和p H值对脱色率的影响.两水平析因设计、中心组合设计和验证试验结果表明:葡萄糖浓度为15.4 g·L~(-1)、蛋白胨浓度为43.3 g·L~(-1)和培养基初始p H值为6.68时,漆酶活性达到最大值(25.58±1.60)U·m L~(-1),是单因素试验(16.82 U·m L~(-1))的1.52倍,提高了52.1%.以上述发酵条件获得的M.verrucaria NF-08漆酶粗酶对3种结构类型染料均有脱色效果,排序为偶氮类优于芳甲烷类优于蒽醌类.脱色率随粗酶浓度增大(2~8 U·m L~(-1))、反应温度升高(15~35℃)而上升,随p H值上升(4~10)而下降.粗酶浓度为5 U·m L~(-1),反应温度为25℃,p H值为4时,偶氮类染料铬黑T和芳甲烷类染料碱性品红即可几乎完全脱色,脱色率分别为99.2%和94.6%.     

Aureobasidium pullulans UVMU3-1产耐热性胞外漆酶活性物质培养基优化及其对染料脱色作用

对出芽短梗霉无色素突变株Aureobasidium pullulans UVMU3-1产耐热性胞外漆酶活性物质培养基进行优化,并研究其分子量大小、热稳定性及对三苯甲烷类染料孔雀石绿和结晶紫的脱色作用.结果表明:蔗糖、NaNO_3为UVMU3-1产耐热性胞外漆酶活性物质的最佳碳源和氮源,产酶优化培养基配方为:蔗糖66.5 g·L~(-1),NaNO_338.4 g·L~(-1),NaCl 1.08 g·L~(-1),酵母浸粉0.2 g·L~(-1),KH_2PO_41 g·L~(-1),pH=6.0.影响UVMU3-1产耐热性胞外漆酶活性物质的因素依次为:起始pH蔗糖NaClNaNO_3,培养7 d时产生最大酶活(94.81 U·L~(-1)),比对照提高3.85倍.其分子量小于1000 D,具有良好的热稳定性,煮沸30 min后高温酶活仍残留72.50%.粗酶液(7.5 U·L~(-1))与三苯甲烷类代表性染料孔雀石绿和结晶紫75℃反应5 min后,脱色率分别为76.3%、77.5%,反应35 min后脱色率分别达到96.3%、95.3%.     

Evaluation of Bacillus sp. MZS10 for decolorizing Azure B dye and its decolorization mechanism

To evaluate decolorization and detoxification of Azure B dye by a newly isolated Bacillus sp. MZS10 strain, the cultivation medium and decolorization mechanism of the isolate were investigated. The decolorization was discovered to be dependent on cell density of the isolate and reached 93.55%(0.04 g/L) after 14 hr of cultivation in a 5 L stirred-tank fermenter at 2.0 g/L yeast extract and 6.0 g/L soluble starch and a small amount of mineral salts. The decolorization metabolites were identified with ultra performance liquid chromatography-tandem mass spectroscopy(UPLC-MS). A mechanism for decolorization of Azure B was proposed as follows: the C=N in Azure B was initially reduced to –NH by nicotinamide adenine dinucleotide phosphate(NADPH)-dependent quinone dehydrogenase, and then the –NH further combined with –OH derived from glucose to form a stable and colorless compound through a dehydration reaction. The phytotoxicity was evaluated for both Azure B and its related derivatives produced by Bacillus sp. MZS10 decolorization, indicating that the decolorization metabolites were less toxic than original dye. The decolorization efficiency and mechanism shown by Bacillus sp. MZS10 provided insight on its potential application for the bioremediation of the dye Azure B.     

Isolation of a salt tolerant laccase secreting strain of Trichoderma sp. NFCCI-2745 and optimization of culture conditions and assessing its effectiveness in treating saline phenolic effluents

Most of the hazardous pollutants are phenolic in nature and persists in the environment. The ability of laccases to oxidize phenolic compounds and reduce molecular oxygen to water has led to intensive studies of these enzymes. Therefore the fungal strains with high laccase activity and substrate affinity that can tolerate harsh environmental conditions have a potential for biotechnological applications. Salt tolerant laccase secreting fungi can be utilized in treatment of saline and phenolic rich industrial effluents such as coir effluent and textile effluent that needed to be diluted several fold before microbial treatment. This is the first study describing the isolation and optimization of a salt tolerant strain of Trichoderma sp. potential for industrial applications. The fungus was identified based on morphological characteristics and was subsequently confirmed with molecular techniques and deposited at National Fungal Culture Collections of India （NFCCI） under the Accession No. Trichoderma viride NFCCI 2745. In contrast to other laccase secreting fungi, light conditions did not exert much influence on laccase production of this strain and salinity enhanced its laccase secretion. The fungus effectively removed the phenolic content of the textile effluent, coir-ret liquor and wood processing effluent within 96 hr of incubation. The tolerance of the fungus to high salinity and phenolic compounds makes this strain ideal for treating saline and phenolic rich industrial effluents.     

Citrobacter sp. LW-3对偶氮染料甲基橙的降解脱色特性研究

从长期受染料污染的土壤中分离出一株能对甲基橙高效降解脱色的柠檬酸盐杆菌Citrobacter sp.LW-3.菌株LW-3在添加了0.5%(g/100 mL)葡萄糖的MSM-1培养基中,16 h使100 mg·L-1甲基橙降解掉90.56%.该菌株对甲基橙降解脱色可在完全好氧条件下,脱色与木质素过氧化物酶、NADH-DCIP原酶、核黄素还原酶有关.菌株LW-3降解甲基橙的适宜温度较广,20~40℃24 h均能使超过80%的甲基橙降解脱色,适宜pH范围为6.0~8.0.通气量对菌株LW-3影响较小,24 h各装液量组(25~200 mL)甲基橙均能降解近90%.同时,菌株LW-3具有较广的染料降解谱,3 d内可使20 mg·L-1另3种偶氮染料、两种三苯甲烷类染料和一种蒽醌类染料很好脱色.菌株LW-3在染料废水的生物处理方面有较强的实际应用价值.