采自武夷山高温木质素降解菌优良菌株筛选及其木质素降解效果测定

本文旨在筛选能够高效降解秸秆木质素的高温真菌。对来自福建武夷山的农田土壤进行富集,采用苯胺蓝、愈创木酚和α-萘酚3种筛选平板结合木质素磺酸钙降解试验筛选木质素高温降解菌,采用范氏洗涤剂法测定一株高效降解菌对秸秆木质素的降解效果;最后以经典形态学和多基因分子系统学相结合的方法对该菌株进行鉴定。结果表明：经钓饵法,分离获得8株高温菌;通过初筛和复筛,获得了1株较好的木质素高温降解菌A12638H;将其用于降解水稻秸秆和玉米秸秆,发现木质素降解率分别达到41.7%和48.3%;该菌株经鉴定为大孢戴氏霉Taifanglania major。菌株A12638H具有很好的应用价值,值得在秸秆资源的开发利用中开展更深入的研究。     

一株木质素降解菌高温驯化及酶学性质的测定

【背景】高温引起的微生物活性降低是限制园林绿化废弃物堆肥过程中木质素降解的主要因素。【目的】驯化一株木质素降解菌芽孢杆菌NO.2,提高其在高温下的微生物活性,探究其生长情况及酶学特性。【方法】采用温度梯度方法驯化菌株,以菌株生长曲线、酶活力、木质素降解率为评价指标,探究驯化前后菌株间差异,以及驯化后菌株所产木质素降解酶的酶促反应温度和pH范围。【结果】与原菌株相比,驯化后菌株在60℃培养时最大生物量间差异不显著;漆酶(laccase,Lac)、锰过氧化物酶(manganeseperoxidase,MnP)和木质素过氧化物酶(ligninperoxidase,LiP)酶活力得到进一步提高,分别提高了30.75%、35.98%和29.62%,木质素降解率提高60.52%。酶学性质研究表明,驯化后菌株所产Lac、MnP和LiP在20-60℃、pH 3.0-9.0范围内酶活力均较高,而且具有较好的稳定性,稳定性依次为Lac>LiP>MnP。【结论】温度梯度驯化方法可有效提高微生物对高温环境的适应性,扩大木质素降解酶的酶促反应温度和pH范围,在进一步自主研制专用降解园林废弃物微生物菌...     

一株耐高温产纤维素酶芽胞杆菌的筛选鉴定及其液体发酵条件优化

以获得耐高温纤维素酶菌株为目的,以育苗基质中农业生物质废弃物为原料,通过在发酵高温期(≥50 ℃)取样进行菌种筛选,结合菌株形态特征、生理生化指标及16S rDNA进化树分析结果,菌株E鉴定为枯草芽胞杆菌（Bacillus subtilis）。使用优化后的培养基,通过单因子试验方法对产酶条件进行优化,确定菌株E的发酵最优条件为培养温度50 ℃、时间48 h、初始pH值6.0、装液量100 mL、接种量2%～5%（体积分数）,在该条件下发酵液OD值及酶活性达到最高。研究结果为生产生物活性育苗基质及农业废弃物资源化利用等研究提供参考。     

两株戴氏霉对水稻秸秆的降解及产酶研究

本文旨在构建能够高效降解水稻秸秆的戴氏霉组合菌。通过兼容性试验,选取木质素降解菌灰戴氏霉H57.1菌株与纤维素降解菌合川戴氏霉H08.1菌株组合发酵降解水稻秸秆,以失重法和范氏洗涤剂法检测其对秸秆的降解效果,用胞外酶活测定法探索其产酶规律。结果表明,菌株H57.1和H08.1具有良好的兼容性;组合菌H57.1+H08.1对水稻秸秆的降解能力明显高于单一菌株,秸秆失重率高达55.7%,木质素、半纤维素和纤维素降解率分别为48.9%、72.6%和57.0%;对发酵过程产酶情况的分析进一步表明,组合菌H57.1+H08.1降解水稻秸秆的能力与其产酶能力密切相关。     

降解烤烟秸秆和烟碱菌株的筛选及其产酶特性

摘要:【目的】为获得能够降解烤烟秸秆和烟碱的菌株,并探索其降解烤烟秸秆的利用途径。【方法】以烤烟秸秆为唯一碳氮源,从烟田土壤中进行了菌株的筛选。采用形态学观察、生理生化特性鉴定、16S rRNA基因序列鉴定等方法对该菌株进行了鉴定,并对其以烤烟秸秆为底物进行液态发酵的产酶活性和木质纤维素降解效果进行了测定。【结果】结果表明:该菌株为巨大芽孢杆菌(Bacillus megaterium)。在以烤烟秸秆为主要营养物质液态发酵条件下该菌株具有较强的木质素降解能力,最大漆酶活力达到418.52 U/L,而木质素过氧化物酶和锰过氧化物酶的最大酶活分别为19.71 U/L 和64.71 U/L。此外,发酵20 d后该菌能够完全降解发酵液中的烟碱。【结论】本研究筛选到了1株能够较好降解烤烟秸秆和完全降解烟碱的巨大芽孢杆菌(Bacillus megaterium),且该菌株具有利用烤烟秸秆生产漆酶的应用价值。     

拮抗植物病原真菌的纤维素/木质素降解菌株的筛选及鉴定

【背景】秸秆还田在改善土壤肥力和丰富营养等方面有重要作用,但是也存在秸秆难以快速降解利用和病原真菌病害威胁的问题。【目的】为解决还田秸秆的降解和病原真菌病害问题,从长期秸秆还田地区采集样品,从中筛选出具有降解秸秆和抑菌功能的菌株。【方法】采用稀释分离法、苯胺蓝染色法和刚果红染色法等对秸秆高效降解菌株进行筛选,通过16S rRNA基因测序及构建系统发育树进行菌株鉴定。采用对峙培养法测定筛选到的秸秆降解菌株对玉米大斑病菌(Setostphaeria turcica)、梨黑斑病菌(Alternaria kikuchiana)、马铃薯早疫病菌(Alternaria solani)、链格孢属真菌(Alternaria alternata) ACCC38230和ACCC38231等5种供试植物病原真菌的抑制作用。以玉米大斑病菌(Setostphaeria turcica)为后期供试植物病原真菌,测定拮抗菌株代谢产物的抑菌能力;通过观察拮抗菌株粗提液对玉米大斑病菌分生孢子萌发和菌丝生长的影响,从而测定菌株对病原真菌的抑制作用。【结果】从秸秆还田土壤中分离筛选获得3株高效降解纤维素及木质素菌株并命名为JY122、ZY133和JY215。通过形态学观察和16S rRNA基因测序鉴定上述菌株全部为芽孢杆菌属(Bacillus)。通过系统发育树分析结果表明,JY122与蜡样芽孢杆菌(Bacillus cereus)相似性为99.4%,ZY133与枯草芽孢杆菌(Bacillus subtilis)相似性为100%,JY215与贝莱斯芽孢杆菌(Bacillus velezensis)相似性为99.1%。平板对峙实验结果显示,JY122、ZY133和JY215菌株对不同种属的植物病原真菌均有较强的抑制作用,抑制率高达43.74%-67.54%。此外,上述芽孢杆菌代谢产物具有抑菌活性及很强的热稳定性,经95℃处理后依然具有良好的抑菌效果。【结论】筛选获得的JY122、JY133和JY215菌株具有高效降解纤维素/木质素能力,抑制多种植物病原真菌生长,代谢产物抑菌能力强且热稳定性高。这为玉米秸秆还田提供菌株资源,也为进一步解决秸秆还田难点提供了新方法和思路。     

高效木质素降解菌的筛选及其对玉米秸秆的降解效果

本研究利用愈创木酚和苯胺蓝固体培养基对菌株进行初筛,利用形态学和分子生物学对筛选出的菌株进行鉴定,以黄孢原毛平革菌Phanerochaete chrysosporium CGMCC 5.0776为对照,利用其对玉米秸秆进行预处理并测定木质素和纤维素的降解率,测定筛选菌株在预处理玉米秸秆过程中漆酶、锰过氧化物酶（manganese peroxidase,MnP）和木质素过氧化物酶（lignin peroxidase,LiP）活性。结果表明:利用愈创木酚和苯胺蓝固体培养基,从16株白腐真菌菌株中筛选出2株具有较高漆酶或MnP活性的菌株,鉴定其为桦栓孔菌Trametes betulina (L.) Pilát（ZT-153）和亚黑管孔菌Bjerkandera fumosa (Pers.) P. Karst.（ZT-307）,测定T. betulina ZT-153和B. fumosa ZT-307对玉米秸秆酸不溶木质素降解效率分别为13.60%和21.87%,较对照P. chrysosporium CGMCC 5.0776高1.58%和9.85%,对纤维素的降解率较低,分别为4.10%和4.50%。2株菌株在预处理玉米秸秆过程中,T. betulina ZT-153表现出漆酶和MnP活性,B. fumosa ZT-307只表现出LiP活性。其中B. fumosa ZT-307对玉米秸秆酸不溶木质素的降解效率最高,在秸秆资源的综合利用方面具有较好的潜力和应用前景。     

木质素降解菌株的分离及其降解玉米秸秆过程中产酶特点

【目的】筛选高效降解木质素的菌株,并研究其以玉米秸秆为底物时木素降解酶活性。【方法】本研究以愈创木酚培养基和苯胺蓝培养基从吉林省不同经纬度的自然朽木及腐朽玉米秸秆土壤样品中分离、筛选得到高效降解木质素的菌株,并对其形态学鉴定,通过ITS序列分析构建系统发育树,分析菌株的分类地位。通过秸秆固体发酵过程产生的胞外木质素酶的活性分析,选出高效秸秆降解菌。【结果】筛选出1株高效降解秸秆的真菌,对其进行形态学特征和ITS序列分析,命名为白囊耙齿菌W2(Irpex lacteus W2)。该菌株在4–8 d内产生的锰过氧化物酶(Manganese peroxidase)呈上升趋势,并且在8 d达到峰值86.31 U/mL,与黄孢原毛平革菌(Phanerochaete chrysosporium)的最高酶活力45.86 U/mL相比,高出了88.20%(P0.01);该菌株的漆酶(Laccase)活力8 d时达到20.60 U/mL,比对照高40.76%(P0.05)。【结论】本研究分离到一株具有较强降解秸秆能力的真菌,初步鉴定为Irpex lacteus W2,具有较强的降解秸秆能力,其降解秸秆过程中产生较高的锰过氧化物酶与漆酶活力。     

一株促生秸秆降解菌的分离与鉴定

针对秸秆处理不当影响全世界环境污染的问题，筛选多功能秸秆降解菌，旨在得到高效降解秸秆且具有促生作用的微生物菌种。结合纤维素钠-刚果红(CMC-Na)平板筛选，通过16S rRNA基因分析，进行菌株鉴定，得到一株具有纤维素降解效果的菌株XJ-132,经16S rRNA基因鉴定为枯草芽胞杆菌(Bacillus subtilis)。与单独施用秸秆处理相比，加入菌株XJ-132 60 d后，秸秆降解率提高21.0%,且对水稻生长促进作用显著，地上、下部鲜重分别增加17.8%和9.6%。水稻种子喷施菌株XJ-132发酵液，低浓度发酵液对种子萌发具有一定促进作用。结果表明，菌株XJ-132可能通过产吲哚乙酸(IAA)、产铁载体、产氨等多种有益物质，降解秸秆的同时促进水稻生长。筛选具有促生作用的秸秆降解菌能够更好地加速秸秆降解，具有广泛的开发利用前景。     

1株聚乙烯醇降解菌的分离鉴定及其降解性能

筛选聚乙烯醇（PVA）降解性能优良且适合驯化的菌种是PVA生物降解的关键环节。为了获取PVA高效降解菌种,采用选择性培养基从某化工厂回流池污泥中筛选菌株,并对菌株的生长及PVA降解过程、培养液pH值、温度、摇床转速、装液量进行测定。结果表明：筛选的1株聚乙烯醇高效降解菌MH 007,基于16S rRNA基因序列的系统发育多样性分析鉴定该菌为Sphingopyxis terrae的一个菌株。该菌PVA降解率可达97.2%,摇床动态培养过程中降解PVA的最佳条件为pH 7.2、温度30 ℃、摇床转速120 r/min和30%的装样量。     

秸秆降解放线菌GC的筛选及其应用基础研究

运用循环流化技术,从土壤样品中筛选出1株具有单独降解秸秆能力的菌株GC,考察了该菌的生长特性及产纤维素酶和木质素酶能力,验证了该菌对小麦秸秆的处理效果。结果表明,该菌为放线菌的左式链霉菌(Streptomyces drozdowiczii);可在LB等基础培养基中快速繁殖;纤维素内切酶活和滤纸酶活分别可达67.57 U/mL和19.69 U/mL,并且具备木质素降解能力;该菌单独处理小麦秸秆20 d的秸秆失重率为11.52%;处理产物含多种石油烃、有机醇和植物甾醇等,表明该菌在秸秆等农业面源污染物的资源化利用方面具有良好的开发应用前景。     

混料设计优化黑木耳菌丝生长的农业剩余物配方

【背景】菌林矛盾日益突出,农业剩余物资源丰富,可作为食用菌栽培主要基质。【目的】筛选出适合黑木耳菌丝生长的农业剩余物配方。【方法】以大豆秸秆、油菜秸秆、玉米秸秆、花生秸秆、小麦秸秆和杂木屑等6种基质为原料,运用单纯形格子法进行配方设计,分析不同基质交互作用对黑木耳菌丝生长速率、菌丝生长指数、漆酶酶活、多酚氧化酶酶活和纤维素酶酶活的影响。【结果】在这些农业剩余物基质中,大豆秸秆基质最适合黑木耳菌丝生长,其次是油菜秸秆。3种主料共同作用可以优化出最适合黑木耳菌丝生长的基质配比。【结论】最终优化出一个适合黑木耳菌丝生长的农业剩余物配方：杂木屑49.4%、油菜秸秆16.4%、大豆秸秆12.2%、麦麸20%、蔗糖1%、CaSO₄ 1%。本研究为“以草代木”栽培黑木耳提供了理论基础。     

Biotechnology in the degradation and utilization of lignocellulose

Lignocellulose is the predominant renewable resource. It uses include fuel, as the feedstock for the pulp and paper industry, and for animal nutrition. It also constitutes a large proportion of agricultural and urban waste. Biotechnology has roles in its efficient production and utilisation. The types of lignin substrates available for study of lignin biodegradation are described. The white rot fungus Phanerochaete chrysosporium is the archetypal system for the study of lignocellulose degradation, since it mineralises lignin and degrades both cellulose and hemicellulose. The salient features of the P. chrysosporium system are described. The lignin peroxidases are a family of proteins, and it is shown that expression of their genes is differential. P. chrysosporium is heterokaryotic with two gene equivalents that have abundant RFLPs. A set of basidiospore-derived strains with genetic compositions defined by such RFLPs provided the potential basis for a strain improvement programme for lignin degradation. However, analysis of this system using radiolabelled synthetic lignin (DHP) as the substrate confirmed previous evidence that both the substrate and the fungal cultures displayed much variation, so that it was difficult to quantify performance for this property. The cellobiohydrolase I enzymes are also coded for by a family of genes, and evidence is also presented for allelic variants, for differential expression and for differential splicing. In contrast, the cellobiohydrolase II function is encoded at a unique genetic locus. Approaches to an homologous integrative transformation system are discussed. Some actinomycete bacteria represent an alternative system for lignin solubilisation in which strains differ in their spectra of activities on lignocellulose substrates. The xylanase system of Streptomyces cyaneus is shown to include three enzymes, two of which are inducible by xylan. A novel assay method was developed and used to demonstrate that the third is constitutive and also non-repressible by glucose. It is proposed that this acts as a sensor for xylans in the environment that can yield breakdown products that are taken up and can then act as inducers of the other two enzymes. The studies on microbial lignocellulose degradation from different laboratories have allowed the formulation of specific biotechnological goals, and some of the problems and opportunities in this area are identified.     

Newly isolated and characterized bacteria with great application potential for decomposition of lignocellulosic biomass

This study focuses on the isolation and characterization of bacteria from municipal waste and peat to determine those bacteria with good potential for modification and decomposition of lignocellulosic biomass for industrial application. Twenty cellulase-producing bacteria belonging to four major phyla - Firmicutes, Actinobacteria, Proteobacteria and Bacteroidetes - were found when screened on carboxymethyl cellulose-containing agar. Six isolates also exhibited activities towards filter paper as the sole carbon source in salt media, while 12 exhibited activities towards xylan when screened on xylan-containing plates. Moreover, 5 isolates survived in and increased the absorbance of 1% black liquor in salt media by an average of 2.07-fold after 21 days of incubation. Similarly, these 5 isolates increased the absorbance of 0.1% pure lignin at 280 nm in salt media, indicating modification of lignin. Additionally, the Fourier transform infrared spectroscopy analysis of 1% barley straw treated for 21 days with these 5 strains showed a preference for consumption of hemicelluloses over lignin; however, a change in lignin was observed. A Bacillus strain (55S5) and a Pseudomonas strain (AS1) displayed the greatest potential for lignocellulose decomposition due to a variety of cellulase activities, as well as xylanase activity and modification of lignin. Several of these isolates have good potential for industrial use in the degradation of lignocellulosic biomass.     

<Emphasis Type="Italic">Polyporus tenuiculus</Emphasis>: a new naturally occurring mushroom that can be industrially cultivated on agricultural waste

Polyporus tenuiculus is a naturally occurring species from Central and South America that is consumed by different ethnic groups in the region. To determine the optimal conditions for fruiting body production, two strains were assayed on wheat straw and sawdust with or without supplements. Sixty days of incubation at 25°C were needed to produce a solid block. The highest yield was obtained with strain ICFC 383/00 grown on supplemented willow sawdust. In a second experiment the strain ICFC 383/00 and different supplements were used to improve the biological efficiency (BE) and to determine the quality traits and its biodegradation capacity. The highest yields were obtained on sawdust with 25% of supplements reaching 82.7% of BE. Supplements raised the number of flushes, generally from four to five, contributing to increased yields. The type of substrate had a significant effect on fruiting body diameters of P. tenuiculus, and the largest mushrooms were harvested on supplemented substrate with the highest BE coinciding with the highest dry matter loss in substrates. P. tenuiculus showed a capacity to degrade sawdust, causing a decrease of 67.2–74.5% in cellulose, 80.4–85.7% in hemicellulose, and 60.6–66.2% in lignin content at the end of the cultivation cycle. The decrease in hemicellulose was relatively greater than that of cellulose and lignin on supplemented substrates. This is the first report of the cultivation of P. tenuiculus on lignocellulosic waste, and it is a promising species both for commercial production and for its potential use in the degradation of other biowastes.     

Screening of a fungus capable of powerful and selective delignification on wheat straw

Aims: To screen and characterize a novel fungus with powerful and selective delignification capability on wheat straw. Methods and Results: A fungus capable of efficient delignification under solid‐state fermentation (SSF) conditions on wheat straw was screened. After 5 days of incubation, 13·07% of the lignin was removed by fungal degradation, and 7·62% of the holocellulose was lost. Furthermore, 46·53% of the alkali lignin was removed after 2 days of liquid fermentation. The fungus was identified as Fusarium concolor based on its morphology and an analysis of its 18S rDNA gene sequence. The molecular weight distribution of lignin was evaluated by gel permeation chromatography. Enzyme assay indicated that the fungus produced laccase, cellobiose dehydrogenase, xylanase and cellulase during the incubation period. Intracellular lignin peroxidase, manganese peroxidase and laccase were produced during liquid fermentation. Conclusions: We have successfully screened a fungus, F. concolor, which can efficiently degrade the lignin of wheat straw, with slight damage to the cellulose, after 5 days of SSF. Significance and Impact of the Study: The newly isolated strain could be used in pretreatment of lignocellulose materials prior to biopulping, bioconversion into fuel and substrates for the chemical industry.     

从黑茶中分离和筛选产单宁酶菌株

茶叶中富含单宁化合物。从分离自黑茶的真菌菌株中,筛选高产单宁酶的菌株;进而分离纯化单宁酶,分析单宁酶对茶汤的转溶效果。从不同产地的3个黑茶样品中,共分离获得44个真菌分离物;经初步鉴定,这些真菌分离物以曲霉属（Aspergillus）、青霉属（Penicillium）和散囊菌属（Eurotium）的真菌居多。以单宁酸为底物的鉴别培养基初筛表明,其中26个真菌分离物在鉴别平板上产生透明圈,显示单宁水解酶活性;通过固体发酵复筛,筛选到1株产单宁酶活性较高的菌株,初步鉴定为青霉属（Penicillium）菌株,命名为青霉MP-24菌株。青霉MP-24可以以茶叶、茶梗和麸皮等农副产品作为原料固体发酵产生单宁酶。以麸皮为原料的发酵产物经过硫酸铵分级沉淀、DEAE阴离子交换层析和葡聚糖G-150凝胶层析等分离纯化步骤,得到分子量为70 kDa的单一蛋白质条带,单宁酶活力达到603.68 U/mg。纯化获得的单宁酶对茶汤有良好的转溶效果。研究结果表明,在黑茶相关微生物中含有丰富的产单宁酶菌株,是工业酶制剂的重要资源。     

Enzyme activities and substrate degradation during white rot fungi growth on sugar-cane straw in a solid state fermentation

Two strains of Pleurotus spp., grown in solid state fermentation on sugar-cane straw, degraded the dry matter by 50% after 60 days. The rate of substrate consumption and the dry weight of fruiting bodies decreased in consecutive flushings. Both strains vigorously attacked hemicellulose (80% of total degradation) and lignin (70%). Fruiting bodies were rich in protein and lipids, and had a low content of carbohydrates and ash.