白腐真菌对染料脱色及降解过程机理和影响因素

许多白腐真菌对染料具有广谱的脱色和降解能力,其脱色及降解作用可能主要是由于其在次生代谢阶段产生的木质素过氧化酶LiPs和猛过氧化MnPs所致。培养条件对白腐真菌脱色及降解活性有较大的影响,在培养基中加入藜芦醇和二价猛等能够显著提高木质素过氧化酶的产生;富氮培养基会抑制LiPs的生成;硫脲、叠氮化物、氰化物等均能明显地抑制白腐真菌的脱色及降解活性;缓冲液的选择对维持稳定pH值和菌丝的形态有一定作用,从而影响其脱色效果;富氧环境是一切白腐真菌对染料进行脱色和降解的必要条件;适度的搅拌混合有利于反应时的物质之间传递;一般地,在培养时间达到3天以后白腐真菌才能达到较高的脱色与降解活性。染料分子大小和结构及其基团的位置对脱色及降解效果有明显影响。使用特殊填料极大提高处理系统中的生物量以克服真菌生长速度相对较慢、提高处理能力是该技术今后的研究重点。     

白腐真菌F1对染料脱色特性的研究

本研究从我国生物资源中筛选出一株白腐真菌F1,确定了其生长条件 ,实现了扩大培养 ,并研究了F1与黄孢原毛平革菌对 4种难降解染料的脱色效果。试验结果表明 ,F1对中性深黄GRL、酸性媒介漂蓝B和刚果红的脱色效率都超过 90 % ;白腐真菌能在短时间内将有毒染料酸性媒介漂蓝B降低到较低浓度 ;白腐真菌对染料脱色的同时 ,自身能够繁殖生长。     

白腐真菌F1对染料脱色特性的研究

本研究从我国生物资源中筛选出一株白腐真菌F1，确定了其生长条件，实现了扩大培养，并研究了F1与黄孢原毛平革菌对4种难降解染料的脱色效果。试验结果表明：F1对中性深黄GRL、酸性媒介漂蓝B和刚果红的脱色效率都超过90％；白腐真菌能在短时间内将有毒染料酸性媒介漂蓝B降低到较低浓度；白腐真菌对染料脱色的同时，自身能够繁殖生长。     

微生物在含染料废水处理中的应用

印染和染料废水属于难处理工业废水.常规的物化方法费用大,产生污泥多,使用不普遍.生物法克服了这些缺点,正受到越来越多的关注,其中关于微生物的脱色能力有不少研究报告.利用微生物进行染料脱色和降解被认为是去除这些污染物的经济有效的方法.真菌,细菌和藻类均可以降解部分染料,特别是白腐真菌P.chrysosporium的脱色能力有了大量的研究结果.本文综合了最近几年真菌,细菌和藻类在染料废水脱色降解中作用的研究成果,并据此初步分析了染料降解机理和部分影响因素.     

微生物在含染料废水处理中的应用

印染和染料废水属于难处理工业废水.常规的物化方法费用大,产生污泥多,使用不普遍.生物法克服了这些缺点,正受到越来越多的关注,其中关于微生物的脱色能力有不少研究报告.利用微生物进行染料脱色和降解被认为是去除这些污染物的经济有效的方法.真菌,细菌和藻类均可以降解部分染料,特别是白腐真菌P.chrysosporium的脱色能力有了大量的研究结果.本文综合了最近几年真菌,细菌和藻类在染料废水脱色降解中作用的研究成果,并据此初步分析了染料降解机理和部分影响因素.     

白洋淀水中自腐真菌对双酚A的降解规律及途径研究

研究白洋淀表层水（白洋淀原水）、无机盐培养基、无机盐培养基强化的白洋淀原水中双酚A在白腐真菌作用下的生物降解规律,同时考察了细菌及pH等因素对降解率的影响。实验结果表明,白洋淀原水中双酚A在白腐真菌作用下的降解率很高．甚至高于最适营养条件（无机盐培养基）下双酚A的降解率,在6d达到完全降解,但是无机盐培养基强化的白洋淀原水抑制了白腐真菌对双酚A的降解;当细菌存在时,白腐真菌与细菌对碳源和能源等形成了竞争关系,抑制了白腐真菌的生长,不利于白腐真菌对双酚A的降解;无机盐培养基强化的白洋淀原水在初始pH=6．00时双酚A的降解率高于初始pH=7．00时双酚A的降解率。通过气相色谱／质谱（GC／MS）分析,白腐真菌降解双酚A的中间产物包括2-对羟苯基-2-酮基-1-乙醇、2-羟基苯乙酸和丙二酸等小分子酸。     

白洋淀水中白腐真菌对双酚A的降解规律及途径研究

研究白洋淀表层水(白洋淀原水)、无机盐培养基、无机盐培养基强化的白洋淀原水中双酚A在白腐真菌作用下的生物降解规律,同时考察了细菌及pH等因素对降解率的影响.实验结果表明,白洋淀原水中双酚A在白腐真菌作用下的降解率很高.甚至高于最适营养条件(无机盐培养基)下双酚A的降解率.在6 d达到完全降解.但是无机盐培养基强化的白洋淀原水抑制了白腐真菌对双酚A的降解;当细菌存在时.白腐真菌与细菌对碳源和能源等形成了竞争关系,抑制了白腐真菌的生长.不利于白腐真菌对双酚A的降解;无机盐培养基强化的白洋淀原水在初始pH-6.00时双酚A的降解率高于初始pH=7.00时双酚A的降解率.通过气相色谱/质谱(GC/MS)分析.白腐真菌降解双酚A的中间产物包括2-对羟苯基-2-酮基-1-乙醇、2-羟基苯乙酸和丙二酸等小分子酸.     

白腐菌处理染料废水的研究进展

白腐菌是一种可有效处理染料废水的丝状真菌 ,它可通过其分泌的特殊的降解酶系或其他机制将各种人工合成的染料彻底降解为CO2 和H2 O ,同时 ,对脱色具有良好的作用。本文就白腐菌的生物学特性及其对染料的降解酶系、机理和白腐菌发酵的主要影响因子、白腐菌处理染料废水的有关研究及应用现状进行了综述     

白腐菌处理染料废水的研究进展

白腐菌是一种可有效处理染料废水的丝状真菌，它可通过其分泌的特殊的降解酶系或其他机制将各种人工合成的染料彻底降解为CO2和H2O，同时，对脱色具有良好的作用。本文就白腐菌的生物学特性及其对染料的降解酶系，机理和白腐菌发酵的主要影响因子，白腐菌处理染料废水的有关研究及应用现状进行了综述。     

微生物在含染料废水处理中的应用

印染和染料废水属于难处理工业废水,常规的物化方法费用大,产生污泥多,使用不普遍。生物法克服了这些缺点,正受到越来越的关注,其中关于微生物的脱色能力有不少研究报告。利用微生物进行染料脱色和降解被认为是去除这些污染物的经济有效的方法。真菌,细菌和藻类均可以降解部分染料,特别是白腐真菌Ｐ．ｃｈｒｙｓｏｓｐｒｉｕｍ的脱色能力有了大量的研究结果。本文综合了最近几年真菌,细菌和藻类在染料废水脱色降解中作用的研     

Effect of Tween 80 and beta-cyclodextrin on degradation of decabromodiphenyl ether (BDE-209) by White rot fungi

The environmental safety of decabromodiphenyl ether (BDE-209), a widely used flame retardant, has been the topic of controversial discussions during the past several years. Degradation of BDE-209 into lower brominated diphenyl ether congeners, exhibiting a higher bioaccumulation potential, has been a critical issue. White rot fungi are known to degrade a wide variety of recalcitrant pollutants. In this work, white rot fungi were used to degrade BDE-209 in liquid culture medium, and the effects of Tween 80 and beta-cyclodextrin on BDE-209 degradation by white rot fungi were evaluated. On the basis of these results, it appears that BDE-209 could be degraded by white rot fungi, and Tween 80 and beta-cyclodextrin can both increase the biodegradation. The best result in Tween 80 experiments was obtained at a Tween 80 concentration of 500mgl(-1) within 10d, which showed 96.5% (w/w) BDE-209 transformed. Tween 80 at a high concentration will restrain the fungal growth and the degradation of BDE-209. However, beta-cyclodextrin had positive effects both on the BDE-209 degradation and the fungal growth.     

Ability of fungi to degrade synthetic polymer nylon-6

Fifty-eight fungi have been tested for their ability to degrade a recalcitrant synthetic polymer polyamide-6, generally known as nylon-6. Most of them were isolated from a factory producing nylon-6. After preliminary screening, 12 strains were selected for submerged culture in a medium with nylon fibres as the only N-source. No degradation was observed with the isolates from the factory. Wood degrading fungi from a culture collection, however, degraded nylon after incubation for several weeks. Bjerkandera adusta disintegrated the fibres most efficiently, starting with the small transverse grooves, which deepened into cracks. The superficial layers crumbled to leave a thin inner core of the fibre, which finally broke down into fragments. The remaining insoluble part of the nylon showed a decrease in number average molecular mass from 16900 to 5600 during a 60-day incubation. Its thermal properties, such as shifts in melting points and broadening of the melting endotherms, were altered. The reduction of the amount of nylon and the composition of the liquid phase indicated that part of the polymer was degraded into soluble products. After 50 days, the total nitrogen content of the soluble fraction was 10-fold higher than in the control sample. Manganese peroxidase, presumably responsible for the degradation, was detected in the liquid phase. The study shows that only white rot fungi are able to break down nylon-6. For the first time this polymer was shown to be disrupted by B. adusta. The extent of the biodegradation indicates its potential for application in nylon waste reduction.     

Novel metabolic pathways of organochlorine pesticides dieldrin and aldrin by the white rot fungi of the genus Phlebia

White rot fungi can degrade a wide spectrum of recalcitrant organic pollutants, including polychlorinated dibenzo-p-dioxins (PCDDs) and polychlorinated biphenyls (PCBs). In this experiment, 20 white rot fungi, belonging to genus Phlebia, were investigated for their ability to degrade dieldrin. Based on the screening results, we further investigated Phlebia acanthocystis, Phlebia brevispora, and Phlebia aurea to determine their degradation capacity and metabolic products towards dieldrin and aldrin. The three fungi were able to remove over 50% of dieldrin in a low nitrogen medium, after 42 d of incubation. Three hydroxylated products were detected as metabolites of dieldrin, suggesting that in Phlebia strains, hydroxylation reactions might play an important role in the metabolism of dieldrin. In contrast to dieldrin, aldrin exhibited higher levels of degradation activity. Over 90% of aldrin was removed after 28 d of incubation, and several new metabolites of aldrin in microorganisms, including 9-hydroxyaldrin and two carboxylic acid products, were detected in fungal cultures. These results indicate that the methylene moiety of aldrin and dieldrin molecules might be prone to enzymatic attack by white rot fungi. In this study, we describe for the first time a new metabolic pathway of both compounds by fungi of genus Phlebia.     

TiO2镀膜电极光电催化降解酸性紫红

采用溶胶-凝胶法在钛片上涂覆TiO2薄膜为电极,自行设计组装光电催化反应器,对酸性紫红染料废水进行光电脱色处理,探讨了光电反应的协同性并研究了初始染料浓度、电压、pH和电解质浓度对脱色反应的影响。结果表明,光化学催化和电化学氧化具有协同效应,单一紫外光催化和单一电催化酸性紫红的脱色率分别为44.27%和13.12%,而光电催化(紫外、外加电压10 V)的脱色率达到77.18%。初始浓度较低、电压适中、pH偏碱性时,酸性紫红废水脱色率较高;电解质对脱色反应有促进作用,且浓度越高,酸性紫红脱色率越高。     

染料降解菌的脱色特性、降解酶系及基因定位研究进展

本文分析了当前染料废水微生物降解优势菌的降解效果及降解机制等，介绍了三种染料降解酶的催化机理和影响因素，阐明了某些降解菌中的质粒可以控制不同结构染料的脱色。最终指出了提高菌株应用价值的两种途径：一是筛选或构建出具有多功能性的超级菌；二是在不改变染料性质的前提下，向其分子结构中引入特定取代基团，以提高其生物降解性。     

Fungal degradation of an acetolactate synthase (ALS) inhibitor pyrazosulfuron-ethyl in soil

Owing to reported phytotoxicity of some sulfonylurea class of herbicides in number of sensitive crops and higher persistence in soil, present study was conducted to isolate and identify pyrazosulfuron-ethyl degrading fungi from soil of rice field. Penicillium chrysogenum and Aspergillus niger, were isolated and identified from rhizospere soil of rice field, as potent pyrazosulfuron-ethyl degrading fungi. Degradation of pyrazosulfuron-ethyl by P. chrysogenum and A. niger, yielded transformation products/metabolites which were identified and characterized by LC/MS/MS. The rate of dissipation of pyrazosulfuron-ethyl was found higher in soil of rice field and soil inoculated with P. chrysogenum. This showed important route of degradation of pyrazosulfuron-ethyl by microbes apart from chemical degradation.     

Enzymatic degradation of anthracene, dibenzothiophene and pyrene by manganese peroxidase in media containing acetone

The high hydrophobicity of polycyclic aromatic hydrocarbons (PAHs) greatly hamper their degradation in liquid media. The use of an organic solvent can assist the degradative action of ligninolytic enzymes from white rot fungi. The enzymatic action of the enzyme manganese peroxidase (MnP) in media containing a miscible organic solvent, acetone (36% v/v), was evaluated as a feasible system for the in vitro degradation of three PAHs: anthracene, dibenzothiophene and pyrene. These compounds were degraded to a large extent after a short period of time (7, 24 and 24h, respectively), at conditions maximizing the MnP-oxidative system. The initial amount of enzyme present in the reaction medium was determinant for the kinetics of the process. The order of degradability, in terms of degradation rates was as follows: anthracene>dibenzothiophene>pyrene. The intermediate compounds were determined using gas chromatography-mass spectrometry and the degradation mechanisms were proposed. Anthracene was degraded to phthalic acid. A ring cleavage product of the oxidation of dibenzothiophene, 4-methoxybenzoic acid, was also observed.     

二鼠李糖脂对白腐菌降解稻草中木质纤维素的影响

通过固态发酵方式采用白腐菌对稻草中木质纤维素进行降解,并研究了生物表面活性剂二鼠李糖脂对该降解过程的影响。结果表明,不同浓度的二鼠李糖脂能在不同程度上提高降解过程水溶性有机碳的含量,添加0.007%和0.021%二鼠李糖脂的实验组最高TOC(total organic carbon)浓度较对照组分别提高了83.6%和54.5%,这有利于黄孢原毛平革菌的生长,且延缓了菌体的衰退。添加临界胶束浓度0.007%和0.021%浓度的二鼠李糖脂可使LiP(lignin peroxidase)酶活分别提高85.7%和41.2%,二鼠李糖脂对MnP(manganese peroxidase)酶活没有显著影响。生物表面活性剂的介入促进了白腐菌对稻草中木质素的降解,添加0.007%二鼠李糖脂可使木质素降解率提高54%。