白腐菌的研究现状及其在堆肥中的应用展望*

白腐真菌是一种能够引起木材白色腐朽的担子菌 ,因其特殊的代谢类型及其独有的细胞外降解特质 ,能降解各种难生物降解的有机污染物而成为近年来国内外研究的热点。本文从白腐菌的分类与来源、降解机制及其在工业、环境污染治理方面的应用研究进展等对近年来白腐菌的研究现状予以综述 ,并对其在城市垃圾堆肥化中的应用前景做了展望。     

白腐菌对染料脱色和降解作用的研究进展

白腐菌应用于废水处理始于二十世纪八十年代。本文对印染废水的处理方法、白腐菌及其对污染物的降解机理作了简要概述 ,着重介绍了白腐菌对染料脱色和降解作用的研究进展。白腐菌对染料的脱色解降作用机理有部分尚待进一步研究 ;同时 ,白腐菌的吸附作用亦不容忽视。     

白腐菌对染料脱色和降解作用的研究进展

白腐菌应用于废水处理始于二十世纪八十年代,本文对印染废水的处理方法,白腐菌及其对污染物的降解机理作了简要概述,着重介绍了白腐菌对染料脱色和降解作用的研究进展。白腐菌对染料的脱色解降作用机理有部分尚待进一步研究;同时,白腐菌的吸附作用亦不容忽视。     

白腐真菌生物技术降解氯酚污染物

生物降解是降解氯酚污染物的一条重要的转化途径,白腐真菌是一种高效的生物降解菌种,应用白腐真菌生物技术降解具有毒性和抗降解性的氯酚具有重要意义。本文阐述了白腐菌降解氯酚类污染物的途径,阐述了白腐真菌技术,主要包括酶技术、固定化技术、真菌强化技术、堆肥化和生物反应器等在氯酚污染环境治理中的应用,并概述了近几年白腐菌降解氯酚的研究热点和白腐真菌生物技术的应用趋势。     

白腐菌的研究进展及其在重金属修复中的展望

白腐菌是一类特殊的丝状真菌,能降解多种污染物质,具有广谱、彻底、高效、无专一性的 特点,在生物修复中有广阔的应用前景。综述了白腐菌的分类、酶系、降解机理以及应用于有机 物污染的研究现状,特别介绍了白腐菌在重金属污染的生物修复的应用进展情况,包括白腐菌吸 附重金属的原理、在重金属污染的废水中的研究应用现状及在修复重金属污染土壤中需考虑的 因素。同时展望了白腐菌在重金属污染及复合污染的生物修复中的应用前景。     

木材白腐菌分解木质素的酶系统-锰过氧化物酶、漆酶和木质素过氧化物酶催化分解木质素的机制

<正>近年来许多研究者进行了木材白腐菌分解木质素的酶系统对木质素的催化分解机制的研究。木材白腐菌在分解木质素的过程中会产生分解木质素的酶系统,氧化与分解木质素,这些酶系统主要包括细胞外过氧化物酶(锰过氧化物酶-MnP、木质素过氧化物酶-LiP)和细胞外酚氧化酶-漆酶(laccase)。在降解     

褐腐真菌木质纤维素降解机制的研究进展*

褐腐菌降解木材机理的研究日益受到关注 ,发现褐腐菌不具有对结晶纤维素降解十分重要的外切葡聚糖酶 ,而以一种独特的方式降解纤维素。近年来 ,关于其以自由基氧化降解机制进行作用的报道很多 ,并且各国研究工作者从褐腐菌中分离得到了不同性质的物质 ,提出了羟基自由基HO·循环形成的各种假说 ,但褐腐菌降解木材的确切机制仍未搞清楚 ,这些分离得到的具有一些特殊性质的胞外物质在降解中的作用还有待于证明。在此 ,对近年来褐腐菌纤维素降解机制的研究进展作一简单介绍。     

一色齿毛菌对百菌清的生物降解研究

为了验证白腐真菌对杀菌剂——百菌清的降解能力,并初步探讨其降解机制,以平皿培养方式对70株白腐真菌菌株降解百菌清的能力进行验证和筛选,并选择降解作用突出的一色齿毛菌Cerrena unicolor Y4941进行液体培养条件下对百菌清的降解。结果表明:卵菌杀菌剂没有对测试的白腐真菌产生抑制或杀灭作用,在所筛选的70株菌株中,一色齿毛菌Cerrena unicolor Y4941、硬毛粗盖孔菌Funalia trogii W4289、桦褶孔菌Lenzites betulina Y4962、藏红硬孔菌Rigidoporus crocatus D10146、裂褶菌Schizophyllum commune D9466和云芝栓孔菌Trametes versicolor W4614等菌株都对百菌清显示出较强的降解能力;对一色齿毛菌Cerrena unicolor Y4941在液体培养条件下降解百菌清研究的实验结果表明,活菌(living culture,LC)降解率粗酶液(crude enzyme liquor,CEL)降解率灭活菌丝体(devitalized mycelia,DM)降解率,经过活菌降解3d的样品中百菌清的残留率仅为1.92%;对培养液中漆酶活性测定结果显示,漆酶活性最高可达2 195.55U/L。上述证明,杀菌剂百菌清不对白腐真菌产生抑制或杀灭作用,相反,一色齿毛菌Cerrena unicolor Y4941等菌株对其有很强的降解能力,在杀菌剂生物降解领域有潜在的应用前景。     

血红密孔菌高产漆酶菌株的筛选及其对烟梗的生物降解

白腐菌是目前已知的唯一能将木质素彻底降解的微生物,而漆酶在木质素分解过程中起着重要的作用,被广泛应用于农作物秸秆或甘蔗渣等多种类型生物质的生物预处理和生物降解。本研究利用白腐菌产漆酶发酵培养基对30株血红密孔菌Pycnoporus sanguineus菌株进行筛选,得到了多株漆酶高产菌株,并研究了血红密孔菌发酵粗酶液和菌丝对烟梗的生物降解条件。研究结果表明:血红密孔菌及其产生的漆酶表现出了对烟梗木质素较强的生物降解能力。在漆酶浓度为40U/mL、温度30℃、pH4.5的条件下处理24h,烟梗中木质素的降解率可达到50.4%,纤维素和半纤维素的降解率分别为17.5%和17.3%;漆酶浓度为5U/mL、温度30℃、pH4.5的条件下处理48h,木质素降解率可达到65.1%。血红密孔菌菌丝也表现出对烟梗较好的生物降解效果,接种培养7d后烟梗中木质素降解率可达30%以上,21d后木质素的降解率可达79.1%,而纤维素和半纤维素的降解率仅为20%和12%左右。本研究不但为生物质材料的生物预处理和生物降解提供了优质的白腐菌及漆酶资源,还为通过烟梗的生物预处理提高烟草梗丝和卷烟品质提供了重要参数,具有一定的应用前景。     

褐腐真菌木质纤维素降解机制的研究进展

褐腐菌降解木才机理的研究日前受到关注,发现褐腐菌不具有对结晶纤维素降解十分重要的外切葡聚糖酶,而以一种独特的方式解降纤维素。近年来,关于其以自由基氧化降解机制进行作用的报道很多,并且各国研究工作从褐腐菌中分离得到了不同性质的物质,提出了羟基自由基HO．循环形成的各种假说,但褐腐菌降木材的确切机制仍未搞清楚,这些分离得到的具有一些特殊性质的胞外物质在降解中的作用还有待于证明,在此。对近年来褐腐菌纤维素降解机制的研究进展作一简单介绍。     

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.     

通过碳源与氮源研究白腐菌产漆酶和菌丝体生长的相关性

通过碳源与氮源对白腐菌产漆酶和菌丝体生长的影响 ,定性地研究了白腐菌产漆酶和菌丝体生长的关系。碳源中淀粉最能提高菌丝体的生长量 ,麦芽糖是促进漆酶分泌的最好碳源。氮源中的酒石酸铵能较好地促进漆酶的分泌 ,但几种氮源对菌丝体生长的影响不是很明显。研究显示白腐菌的生长和酶的分泌不同步 ,也不成正相关。     

A Comparison between the Cellulolytic Activity of White and Brown Rot Fungi. I. The Activity on Insoluble Cellulose

About 70 strains of white and brown rot fungi were cultivated on media, containing filter paper cellulose as the main carbon source. The cellulolytic activity of the culture filtrates was measured after different periods of growth by means of the turbidimetric method. The results obtained indicate a difference between the two types of wood decay fungi as to the capacity of attacking the cellulose used in the medium and in the cellulase test. No significant C₁activity was found in any of the brown rot cultures whereas all white rot fungi tested exerted a measurable activity on the test substrate. The effect of various carbohydrates and some proteins as inducers of cellulase activity was studied. Especially cellobiose and lactose were active on white rot fungi in this respect, particularly in the presence of yeast extract. Also some brown rot fungi exerted C₁-activity after incubation on glucose or cellobiose.     

Temperature effects on hyphal growth of wood-decay basidiomycetes isolated from Pinus densiflora deadwood

Hyphal growth rates were tested on malt extract agar plates at eight different temperatures (5–40?°C) using 36 isolates of 17 basidiomycete species obtained from Pinus densiflora deadwood in Japan. All isolates of four brown rot species showed optimum growth at 30?°C, whereas the optimum growth temperature of white rot species varied from 20?°C to 30?°C. Analysis using a dataset from four cooler sites showed that brown rot fungi grew more rapidly than white rot fungi at higher temperatures (25?°C, 30?°C, and 35?°C). These results suggest that the hyphal growth of brown rot fungi might be physiologically adapted to higher temperatures than those of white rot fungi among the fungal species inhabiting deadwood of P. densiflora in Japan.     

Lignocellulosic polysaccharides and lignin degradation by wood decay fungi: the relevance of nonenzymatic Fenton-based reactions

The brown rot fungus Wolfiporia cocos and the selective white rot fungus Perenniporia medulla-panis produce peptides and phenolate-derivative compounds as low molecular weight Fe³⁺-reductants. Phenolates were the major compounds with Fe³⁺-reducing activity in both fungi and displayed Fe³⁺-reducing activity at pH 2.0 and 4.5 in the absence and presence of oxalic acid. The chemical structures of these compounds were identified. Together with Fe³⁺ and H₂O₂ (mediated Fenton reaction) they produced oxygen radicals that oxidized lignocellulosic polysaccharides and lignin extensively in vitro under conditions similar to those found in vivo. These results indicate that, in addition to the extensively studied Gloeophyllum trabeum—a model brown rot fungus—other brown rot fungi as well as selective white rot fungi, possess the means to promote Fenton chemistry to degrade cellulose and hemicellulose, and to modify lignin. Moreover, new information is provided, particularly regarding how lignin is attacked, and either repolymerized or solubilized depending on the type of fungal attack, and suggests a new pathway for selective white rot degradation of wood. The importance of Fenton reactions mediated by phenolates operating separately or synergistically with carbohydrate-degrading enzymes in brown rot fungi, and lignin-modifying enzymes in white rot fungi is discussed. This research improves our understanding of natural processes in carbon cycling in the environment, which may enable the exploration of novel methods for bioconversion of lignocellulose in the production of biofuels or polymers, in addition to the development of new and better ways to protect wood from degradation by microorganisms.     

Reliability of Poly B-411, a Polymeric Anthraquinone-Based Dye, in Determining the Rot Type Caused by Wood-Inhabiting Fungi

In both Basidiomycotina and Ascomycotina, Poly B-411 decolorization was an excellent indicator of the ability to cause white rot: 109 of the 110 isolates of brown rot fungi tested definitely did not decolorize Poly B-411, and 392 of the 401 mainly active isolates of white rot fungi decolorized Poly B-411. The Bavendamm (tannic acid) reaction was a less reliable test: of 74 white rot isolates examined that could not decay wood, 6 decolorized Poly B-411, but 19 gave positive Bavendamm reactions. Of 80 isolates of Ascomycotina and Deuteromycotina that do not cause white rot, only 4 decolorized Poly B-411, but 17 gave a positive Bavendamm test.     

The possibility of using cyanobacterial bloom materials as a medium for white rot fungi

Aims: The present study was conducted to evaluate the possibility of using cyanobacterial bloom materials as a medium for white rot fungi and the capability of white rot fungi, Trichaptum abietinum 1302BG and Lopharia spadicea to biodegrade dried cyanobacterial bloom material taken from Taihu Lake. Methods and Results: The results showed T. abietinum 1302BG and L. spadicea could use the cyanobacterial bloom materials taken from Taihu Lake for growth to measure the mycelial plaque and dry‐weight mycelial pellicles of fungi. The removal rate of dried cyanobacterial bloom materials incubated with white rot fungi is approximately 100%. Conclusions: The cyanobacterial bloom material can be used as a glucose substitute in white rot fungi medium. The white rot fungi, T. abietinum 1302BG and L. spadicea, can also directly decrease the biomass of cyanobacterial bloom material taken from Taihu Lake. Significance and Impact of the Study: Cyanobacterial bloom thrives in eutrophic fresh waters all over the world. Micro‐organisms, particularly fungi, have attracted attention as possible agents for the degradation of phytoplankton species. Dealing with cyanobacterial bloom material as a medium for fungi instead of directly discharging them as organic fertilizers is a new, safe and environmentally friendly approach.     

Biobleaching of kraft pulp

This review reviews current research on the application of biotechnology to the bleaching of kraft pulp. Biobleaching research focuses on using white rot fungi, and ligninase and hemicellulase enzymes. Bleaching with white rot is generally very slow and the primary problems appear to be the control of cellulose degradation, the technical aspects of scale up and the avoidance of an initial lag phase. Ligninase enzymes depolymerize lignin and in combination with an extraction stage, partially bleach kraft pulp. Bleaching with hemicellulase enzymes looks promising. A reduced need for active chlorine has been obtained by boosting the bleachability of pulp through pretreatment with hemicellulose hydrolysing enzymes.     

Wood-decay type and fungal guild dominance across a North American log transplant experiment

We incubated 196 large-diameter aspen (Populus tremuloides), birch (Betula papyrifera), and pine (Pinus taeda) logs on the FACE Wood Decomposition Experiment encompassing eight climatically-distinct forest sites in the United States. We sampled dead wood from these large-diameter logs after 2 to 6 y of decomposition and determined wood rot type as a continuous variable using the lignin loss/density loss ratio (L/D) and assessed wood-rotting fungal guilds using high-throughput amplicon sequencing (HTAS) of the ITS-2 marker. We found L/D values in line with a white rot dominance in all three tree species, with pine having lower L/D values than aspen and birch. Based on HTAS data, white rot fungi were the most abundant and diverse wood-rotting fungal guild, and soft rot fungi were more abundant and diverse than brown rot fungi in logs with low L/D values. For aspen and birch logs, decay type was related to the wood density at sampling. For the pine logs, decay type was associated with the balance between white and brown/soft rot fungi abundance and OTU richness. Our results demonstrate that decay type is governed by biotic and abiotic factors, which vary by tree species.     

中国木本植物病原木材腐朽菌研究

简要论述了中国木本植物致病木材腐朽菌,报道危害活立木的木腐菌152种,其中49种(占总数的34%)在中国首次报道为林木病原菌。对每个种的寄主、侵染部位、腐朽类型、发生频率及分布进行了报道。它们中有135种(占总数的89%)造成木材白色腐朽,17种导致褐色腐朽;67种为常见种,33种为偶见种,52种为少见种。