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...     

毛栓菌(Tramets trogii)液体培养产漆酶的研究

实验研究了碳源、氮源和综合因素对毛栓菌(Tramets trogii)液体培养产漆酶和生长情况的影响。碳源为玉米面、氮源为豆饼粉时,菌株的产漆酶酶活最高;碳源为可溶性淀粉,氮源为麦麸时,对菌株的生长有利;在液体条件下,菌株产漆酶的最佳培养基组成为玉米面3.5%,豆饼粉4.0%,KH2PO40.3%,MgSO40.15%,VB10.04%。     

培养条件对毛栓菌菌丝体生长和多酚氧化酶分泌的影响

研究了碳源、氮源、培养温度、初始pH值、接种量、通气量等条件对毛栓菌（Trametes trogii)菌丝体生长及多酚氧化酶分泌的影响;结果表明,不同碳源和氮源对菌丝体生长影响较大,对多酚氧化酶分沁也有较大影响,麦草粉和麸皮为碳源,玉米粉、硫酸铵为氮源有利于多酚氧化酶的分泌;初始pH值对酶活影响较小,培养温度、通气量等对酶活影响较大。     

碳源和氮源对彩绒革盖菌Coriolus versicolor木质纤维素酶和木质素酶分泌的影响

研究了彩绒草盖菌在不同碳源和氮源培养基中生长时,对纤维素酶、半纤维素酶、木质素酶（漆酶、多酚氧化酶、愈创木酚氧化酶）分泌的影响。结果表明不同碳源和氮源对酶类的分泌影响很大,富含淀粉的物质能明显促进木质素酶的分泌,而专一性底物（纤维素和半纤维素）对纤维素酶和半纤维素酶有诱导作用,麸皮也能诱导半纤维素酶的产生。     

高酶活菌株的筛选及漆酶特性

通过Bavendamn氏反应和液体发酵实验筛选出漆酶高产菌株 ,并对其产酶条件和酶活性进行了研究。结果表明 71株实验真菌中有 64株Bavendamn氏反应呈阳性 ,且阳性菌株都具有漆酶活性 ;不同菌株产酶培养基最适碳源、氮源不同 ,采绒革盖菌以淀粉为碳源、干酪素为氮源 ,毛栓菌以麦草粉为碳源、硫酸铵为氮源 ,有利于酶的分泌 ;不同来源漆酶性质不尽相同 ,采绒革盖菌漆酶最适酶解温度为 2 5℃ ,最适酶解pH值为4.6,毛栓菌则分别为 3 0℃和 pH 4.0 ;K+ ,Zn2 + 等对 2种漆酶均有激活作用 ,Ag+ 则能明显抑制漆酶活性。     

碳素和氮素对Coriolus versicolor胞外酶分泌的影响

采用单因子相互比较法研究了不同碳素和氮素对彩绒革盖菌胞外漆酶,愈创木酚氧化酶,多酚氧化酶,锰过氧化物酶等木素降解酶分泌的影响,结果淀粉作碳源,干酪素作氮源有利于漆酶的分泌,麦芽粉作碳源,酵母膏作氮源有利于愈创木酚氧化酶和多酚氧化酶的分泌,淀粉作碳源,玉米粉作氮源有利于锰过氧化物酶的分泌。     

碳源和氮源对彩绒革盖菌Coriolus versicolor木质纤维素酶和木质素酥分泌

研究了彩绒革盖菌在不同硬源和氮源培养基中生长时,对纤维素酶、革纤雄素酶、本质素酶（漆酶、多酚氧化酶、愈创木酚氧化酶）分泌的影响。表明不同碳源和氮源对酶类失发泌影响很大,富含淀粉的物质能明显促进本质素酶的分泌,而专一性底物（纤维素和半纤维素）对纤维素酶和半纤维素酶有诱导作用,麸皮也能话导半纤维素酶的产生。     

碳源和氮源对彩绒革盖菌液体发酵合成漆酶的影响

研究了碳源、氮源对彩绒革盖菌液体发酵合成漆酶的影响。结果表明,在所选的几种碳、氮源中,麸皮为试验菌株合成漆酶的较好碳源;酵母浸膏、酒石酸铵、蛋白胨均是比较理想的氮源。不同的碳氮比对彩绒革盖菌漆酶的产量有着显著的影响,高碳高氮是其生产漆酶的最佳条件。在适宜的培养条件下该菌株能合成高活力的漆酶,其酶活力可达298 U/mL以上,产酶周期为6~7 d。     

培养条件对毛栓菌漆酶分泌的影响

研究了碳源、氮源、愈创木酚、香兰素及培养条件对漆酶分泌的影响;结果表明,麦草粉作碳源、(NH_4)_2SO_4作氮源有利于漆酶的分泌,适宜浓度的愈创木酚和香兰素等对漆酶的产生有一定的作用;pH在3.0～8.0的范围内对漆酶的分泌影响差别不大,培养温度、接种量、通气量对漆酶的分泌有较大影响。     

彩绒革盖菌漆酶产酶条件研究

本文研究了碳源、氮源、愈创木酚、香兰素及培养条件对漆酶分泌的影响;结果表明,淀粉作碳源、干酪素作氮源有利于漆酶的分泌,适宜浓度的愈创木酚和香兰素等对漆酶的产生有一定的作用;pH在3.0～8.0的范围内对漆酶的分泌影响差别不大,培养温度、接种量、通气量对漆酶的分泌有较大影响。     

Effects of various media and supplements on laccase production by some white rot fungi

White rot fungi produce three main extracellular enzymes involved in ligninolysis; laccase, lignin peroxidase and manganese peroxidase. Though all white rot fungi do not produce all three enzymes, laccase occupies an important place in ligninolysis. The present paper reports its production by some white rot fungi; Daedalea flavida, Phlebia brevispora, Phlebia radiata and Polyporus sanguineus under different nutritional conditions. Of the various basal media tested, mineral salts malt extract broth proved to be the best medium for laccase production. Sugarcane bagasse proved to be the best laccase inducer among the various supplements added to different media.     

The role of the ubiquitin-proteasome system in the response of the ligninolytic fungus Trametes versicolor to nitrogen deprivation

The white rot fungus Trametes versicolor is an efficient lignin degrader with ecological significance and industrial applications. Lignin-modifying enzymes of white rot fungi are mainly produced during secondary metabolism triggered in these microorganisms by nutrient deprivation. Selective ubiquitin/proteasome-mediated proteolysis is known to play a crucial role in the response of cells to various stresses such as nutrient limitation, heat shock, and heavy metal exposure. Previous studies from our laboratory demonstrated that proteasomal degradation of intracellular proteins is involved in the regulation of laccase, a major ligninolytic enzyme of T. versicolor, in response to cadmium. In the present study, it was found that the 6-h nitrogen starvation leads to depletion of intracellular free ubiquitin pool in T. versicolor. The difference in the intracellular level of free monomeric ubiquitin observed between the mycelium extract from the nitrogen-deprived and that from the nitrogen-sufficient culture was accompanied by the different pattern of ubiquitin-dependent degradation. Furthermore, it was found that nitrogen deprivation affected 26S proteasome activities of T. versicolor. Proteasome inhibition by lactacystin beta-lactone, a highly specific agent, increased laccase activity in nitrogen-deprived cultures, but not in nitrogen-sufficient cultures. The present study implicates the ubiquitin/proteasome-mediated proteolytic pathway in the response of T. versicolor to nitrogen deprivation.     

不同碳、氮营养对球孢白僵菌生物学特性和抑菌活性的影响

研究了不同碳营养和氮营养对球孢白僵菌菌丝生长、分生孢子产生量、菌丝生物量及其次生代谢产物的抑菌活性.结果表明,球孢白僵菌对单糖、双糖、多糖等碳营养及有机氮和无机氮等氮营养均能够利用,但利用程度存在一定差异.其中,球孢白僵菌的菌丝生长以白砂糖和蛋白胨最快,以甘露醇和硫酸铵最慢;分生孢子产生量以白砂糖和硝酸钾最多,以甘露醇...     

Laccase and Tyrosinase in some Wood-rotting Fungi

Several species of wood-rotting fungi have been examined forphenol oxidases. Polystictus sanguineus, a white rot, produceslaccase, secreting it into the medium. This enzyme has beenstudied and partly purified. Phellinus cryptarum, another whiterot, shows varied production of phenol oxidase according tothe medium used for growth. Laccase only is produced on maltmedium, whereas laccase and tyrosinase result after growth ona glucose and salt medium. Lentinus lepideus, a brown rot, producestyrosinase on several media and this enzyme appears to be entirelyintracellular.     

Effect of growth substrate,method of fermentation,and nitrogen source on lignocellulose-degrading enzymes production by white-rot basidiomycetes

The exploration of seven physiologically different white rot fungi potential to produce cellulase, xylanase, laccase, and manganese peroxidase (MnP) showed that the enzyme yield and their ratio in enzyme preparations significantly depends on the fungus species, lignocellulosic growth substrate, and cultivation method. The fruit residues were appropriate growth substrates for the production of hydrolytic enzymes and laccase. The highest endoglucanase (111 U ml⁻¹) and xylanase (135 U ml⁻¹) activities were revealed in submerged fermentation (SF) of banana peels by Pycnoporus coccineus. In the same cultivation conditions Cerrena maxima accumulated the highest level of laccase activity (7,620 U l⁻¹). The lignified materials (wheat straw and tree leaves) appeared to be appropriate for the MnP secretion by majority basidiomycetes. With few exceptions, SF favored to hydrolases and laccase production by fungi tested whereas SSF was appropriate for the MnP accumulation. Thus, the Coriolopsis polyzona hydrolases activity increased more than threefold, while laccase yield increased 15-fold when tree leaves were undergone to SF instead SSF. The supplementation of nitrogen to the control medium seemed to have a negative effect on all enzyme production in SSF of wheat straw and tree leaves by Pleurotus ostreatus. In SF peptone and ammonium containing salts significantly increased C. polyzona and Trametes versicolor hydrolases and laccase yields. However, in most cases the supplementation of media with additional nitrogen lowered the fungi specific enzyme activities. Especially strong repression of T. versicolor MnP production was revealed.     

A critical review of the application of white rot fungus to environmental pollution control

Research on white rot fungi for environmental biotechnology has been conducted for more than 20 years. In this article, we have reviewed processes for cell growth and enzyme production including the factors influencing enzyme productivity and the methods for enhancement of enzyme production. Significant progress has been achieved in molecular biology related to white rot fungi, especially related to the extraction of genetic material (RNA and DNA), gene cloning and the construction of genetically engineered microorganisms. The development of biotechnologies using white rot fungi for environmental pollution control has been implemented to treat various refractory wastes and to bioremediate contaminated soils. The current status and future research needs for fundamentals and application are addressed in this review.     

Degradation of 2,4-dichlorophenol and pentachlorophenol by two brown rot fungi

Wheat straw cultures of the brown rot fungi Gloeophyllum striatum and G. trabeum degraded 2,4-dichlorophenol and pentachorophenol. Up to 54% and 27% 14CO2, respectively, were liberated from uniformly 14C-labeled substrates within 6 weeks. Under identical conditions Trametes versicolor, a typical white rot species employed as reference, evolved up to 42% and 43% 14CO2 and expressed high activities of laccase, manganese peroxidase, and manganese-independent peroxidase. No such activity could be detected in straw or liquid cultures of Gloeophyllum. Moreover, G. striatum degraded both chlorophenols most efficiently under non-cometabolic conditions, i.e. on a defined mineral medium lacking sources of carbon, nitrogen and phosphate.     

Irpex lacteus, a white rot fungus applicable to water and soil bioremediation

Growth parameters, ligninolytic enzyme activities and ability to degrade polycyclic aromatic hydrocarbons by the fungus Irpex lacteus were characterized and compared with those of other white rot fungi capable of rapid decolorization of poly R-478 and Remazol Brilliant Blue R dyes. I. lacteus was able to grow on mineral and complex media and efficiently colonized sterile and non-sterile soil by exploratory mycelium growing from a wheat straw inoculum. In shallow stationary cultures growing on high nitrogen mineral medium containing 45 mM ammonium as nitrogen source, the fungus produced lignin peroxidase (LIP), Mn-dependent peroxidase (MnP) and laccase simultaneously, the respective maximal activities of 70, 970 and 36 U/l being attained around day 18. Growing in nitrogen-limited medium (2.4 mM ammonium), no LIP was formed and levels of MnP and laccase decreased significantly. During growth in sterile soil, the fungus synthesized LIP and laccase but not MnP. I. lacteus efficiently removed three- and four-ringed PAHs from liquid media and artificially spiked soil. The variety of ligninolytic enzymes, robust growth, capability of soil colonization and resistance to inhibitory action of soil bacteria make I. lacteus a suitable fungal organism for use in bioremediation. Received: 30 March 2000 / Accepted: 19 May 2000