不同培养条件下纤维素分解菌对稻草的分解研究

通过不同培养条件 4株纤维素分解菌对稻草的分解试验 ,发现不同纤维素分解菌对稻草纤维素的分解能力有一定的差异 ,部分菌株混合接种培养的分解率明显高于单独培养的分解率 ,混合培养时分解率受接种顺序影响不明显 ,在 1株分解木质素较强菌株 (侧孢霉 )存在情况下 ,培养前期升高培养温度能提高分解率     

甲基纤维素对生黄瘤胃球菌降解纤维素的抑制效应

高度甲基化的长链纤维素强有力地抑制瘤胃器官的几种纤维素分解菌的纤维素降解作用。确切地说,甲基纤维素对生黄瘤胃球菌FDI生长的抑制效应是由浓度决定的,如0.1％(W/V)时具完全抑制作用;它不抑制菌体在纤维素或纤维寡糖上的生长,甲基化纤维寡糖混合物平均聚合度为6.7—9.5才抑制纤维素降解,平均聚合度为1.0—4.5时则不抑制纤维素的降解。用对硝基酚—β—D—纤维二糖类物质的水解作用测纤维酶活性时,观察到甲     

秸秆纤维素分解菌的酶活力测定

目的:测定秸秆纤维素分解菌的酶活力。方法:从土壤中分离出具有分解纤维素能力的菌株,采用刚果红染色法进行粗选,得到7株透明圈较大的菌株。将这7株菌株液体发酵培养6d,再分别用滤纸分解度观察、羧甲基纤维素酶活法(CMC)、滤纸酶活法(FPA)和天然纤维素酶活法测定其酶活力。结果:在7株菌株中,F-1、F-2、F-3、F-5的酶活力测定结果与其溶解圈的测定结果、滤纸分解结果基本相同。且天然纤维素酶活力高的菌株,其CMC酶活、FPA酶活也高,滤纸分解效果也比较明显。结论:CMC法、FPA法和天然纤维素酶活法适于测定秸秆纤维素分解菌的酶活力。     

白蚁及共生微生物木质纤维素水解酶的种类

白蚁是热带生态系统重要的木质纤维素降解者。白蚁种类丰富,可分成高等白蚁和低等白蚁,食性也具有各自特点。白蚁自身可以产生纤维素酶,主要是GHF9的内切葡聚糖酶(EG),也有β-葡萄糖苷酶(GB)。低等白蚁共生的原虫中已发现丰富的纤维素酶基因,属于GHF5,7和45。同时还有其他相关功能基因,如木聚糖酶和果胶类物质水解酶。高等白蚁肠道中没有共生原虫。高等培菌白蚁可以利用共生蚁巢伞属真菌促进木质纤维素降解,真菌可以产生纤维素酶,果胶质水解酶类、木聚糖酶,同时还产生可能与木质素分解相关的一种漆酶,但是从分子水平,关于共生真菌纤维素水解酶的研究还较少。白蚁肠道已分离出许多具有木质纤维素降解能力的菌株,最近的研究也发现了大量细菌纤维素酶基因。白蚁-共生系统丰富的木质纤维素水解酶类为发展生物方法开发纤维素乙醇这一思路提供有价值的资源。     

川西高山林线交错带凋落物纤维素分解酶活性研究

以川西高山林线交错带3种典型植被类型(针叶林、高山灌丛、高山草甸)下两个层次(LF层: 新鲜凋落物层和发酵层; H层: 腐殖质层)的凋落物为研究对象, 分别模拟凋落物分解的前期和后期阶段, 对凋落物分解过程中的纤维素酶活性及凋落物质量进行了研究。结果表明, 凋落物分解前期的纤维素酶活性和纤维素含量均显著高于分解后期, 但植被类型对LF和H层的纤维素含量的影响都不显著。双因素方差分析结果表明, 凋落物分解阶段对纤维素酶活性和纤维素含量的影响比植被类型对纤维素酶活性和纤维素含量的影响更大。不同种类的纤维素酶活性在分解前期和分解后期受到不同因子的限制。凋落物分解前期, 微晶纤维素酶和β-葡萄糖苷酶活性可能受N、P含量的限制, 而羧甲基纤维素酶主要受底物纤维素含量控制; 凋落物分解后期, 羧甲基纤维素酶和β-葡萄糖苷酶可能受C、N含量的限制。生态化学计量学的理论预测, 底物质量比C:N > 27或C:P > 186时会限制微生物生长, 因此判断高山林线交错带凋落物微生物生物量和纤维素酶活性同时受到底物N、P的限制, 尤其是高山草甸上微生物生物量在凋落物分解前期受到底物N、P的限制比分解后期更显著, 这充分说明了底物质量调控着凋落物分解过程中的纤维素酶活性和微生物生物量。     

统合生物工艺与纤维素分解性高温菌乙醇转化的研究进展

生物乙醇是可再生的绿色能源,作为可以完全或部分替代化石能源的新型能源,近年来受到了世界各国的关注.木质纤维素作为生物乙醇的生产原料具有巨大的市场潜力,而统合生物工艺(CBP)能有效降低木质纤维素乙醇的生产成本,为纤维素乙醇的工业化生产提供了新的工艺思路.主要介绍利用高温纤维素分解菌的统合生物工艺策略以及国内外对高温纤维素分解茵代谢工程研究的最新进展.     

一种纤维素分解菌鉴别培养基

一种新的鉴别性纤维素刚果红培养基,含酸洗纤维素为唯一碳源和染料刚果红,产纤维素酶菌株在其上形成浓郁红色水解圈,明显区别于其它微生物类群,方便纤维素分解菌的筛选和计数。     

瘤胃中纤维素分解菌的分离、鉴定及其产酶条件的优化

[目的]从新疆细毛羊、牛和骆驼瘤胃液中分离出具有分解纤维素能力的好氧细菌,用于绿色粗饲料微生物添加剂的研发.[方法]采取新鲜瘤胃液,接种于羧甲基纤维素钠平板,通过刚果红染色和液体复筛培养基,筛选出分解纤维素能力强的好氧细菌;形态学、生理生化试验与16S rDNA序列分析方法相结合对细菌进行鉴定;同时对纤维素分解能力强的4株细菌进行不同条件下酶活力测定.[结果]共分离到84株具有分解纤维素能力的细菌,其中筛选出较强分解纤维素能力的40株.该菌包括37株G-菌和3株G+菌;经鉴定40株纤维素分解菌分别属于6个属10个种,其中16株为寡养单胞菌属,10株为苍白杆菌属,5株为鞘氨醇杆菌属,3株为微杆菌属,3株为副球菌属,2株为假单胞菌属.其中产酶能力强的4株菌在不同条件下的酶活力表明,它们在最佳碳源为秸秆粉、pH5.5-6.0的偏中性条件和37℃培养条件下的酶活力较高.不同菌株对不同纤维素类物质的分解能力不一样,同一菌株对不同纤维素碳源的利用能力也不相同.[结论]分离获得的瘤胃纤维素分解菌是从新疆不同地区、干旱半干旱环境下饲养的动物胃液中分离、筛选出来的,有较强的纤维素分解能力,将为高品质、高消化率的青贮饲料生产提供优质菌种资源及一定的科学依据.     

青海高原降解纤维素微生物的调查、分离、鉴定

从青海高原林区分离筛选 3 0 0余株分解纤维素的细菌及 3 1株降解纤维素的真菌。测定纤维素分解菌含量土样为 2 6× 1 0 5 g。对纤维素酶水解圈较大的 1 1株真菌 ,根据其滤纸酶活筛选出一株分离自互助北山森林的高产纤维素酶的真菌No 0 1 43菌株 ,根据其形态学及培养特征鉴定为康氏木霉 (TrichodermakoningiiQudem) ,该菌湿固体发酵物含滤纸酶活力(FPA)为 1 5u g。该菌无毒副作用 ,可用于饲料业     

平板混合培养木质纤维素降解菌研究进展

微生物的混合培养已广泛应用于木质纤维素类物质的转化与降解领域.不同木质纤维素降解菌在混合培养时的相互关系在很大程度上影响混合培养的效果.目前对这种相互关系的研究主要依托平板混合培养展开,所用到的平板主要有基础培养基平板和改进培养基平板两种.其中基础培养基平板法主要根据菌落形态、菌丝体颜色、胞外挥发性有机化合物成分和典型胞外酶活性等进行研究,而改进培养基平板则是将基础培养基平板中的碳源更换为天然木质纤维素类物质进行对比研究.本文综述了采用平板混合培养不同木质纤维素降解菌菌株的研究现状和进展,并对该领域研究应重点关注的问题进行了展望.     

Wetland environmental bioreactor system contributes to the decomposition of cellulose

Recently, numerous species of aquatic invertebrates inhabiting wetlands have been shown to possess endogenous cellulase, following the discovery that termites have cellulase genes encoded in their own genome rather than relying on symbiotic bacteria for decomposing cellulose. Wetlands have been empirically shown to play an important role in the decomposition of land‐originating hard‐to‐degrade polysaccharides such as cellulose. However, the mechanism that connects the cellulase producer and the wetlands remains unknown, which makes it very difficult to evaluate the ecological function of wetlands. Here we found that a macrobenthic bivalve, Corbicula japonica, secretes its cellulase to the wetland sediment. Secreted cellulases are immobilized in the components of the sediment. Moreover, adding cellulose or glucose to C. japonica could trigger its cellulase secretion level. These findings suggest a novel wetland cellulose decomposition mechanism. The decomposition ability of wetlands was previously ascribed only to microbes and/or invertebrates that contain cellulases. Our findings suggest that benthic animals supply wetlands with their enzymes as decomposition agents, while wetland sediments serve as immobilization scaffolds for the enzymes. This system, which was named by us an “environmental bioreactor system,” could provide a key function in wetlands.     

纤维素分解菌与无机磷细菌的相互作用

大多数土壤全磷含量较高 ,但由于其固定能力很强 ,不仅有效磷含量较低 ,而且施入的水溶性磷肥很快转化为无效形态。活化土壤中无效磷库 ,提高其有效性 ,是一个具有重要实践意义的研究课题。研究结果表明 ,土壤中存在许多具活化无效磷功能的微生物 ,尤其在根际土壤中解磷微生物的数量比非根际要多[8] ,这些微生物统称为解磷菌。增加土壤或根际解磷菌的数量 ,就能活化土壤中的无效磷 ,提高磷的利用率。但土壤中的解磷菌大多数是腐生性的 ,其生长繁殖需要碳源 ,而多数情况下 ,土壤碳源很少 ,且主要是农作物残体 ,其主要成分是纤维素和半纤维素 …     

超临界CO2流体对纤维素酶催化反应的影响

超临界二氧化碳流体预处理对纤维素超分子结构及纤维素酶催化反应有重要影响。一定含水量的微晶纤维素用SC-CO2在10MPa,50℃处理30min,其结构发生了有利于进一步被酶解的变化。上述超临界条件单独作用于纤维素酶时,并未造成酶催化活力的降低;但与纤维素共同进行SC—CO2处理时,纤维素酶则失去催化活性,但这种处理却能提高纤维素进一步被酶解的效率。一定范围内处理时的酶用量与酶解效率的增加正相关。纤维素的含水量对SC-CO2处理后的酶解效率有显影响。     

Cellulase activity on decomposing leaf litter in microcosms

In this paper, we describe cellulase and cellobiose dehydrogenase (CBDH) dynamics in relation to incubation time, mass loss and chemical composition of decomposing deciduous leaf litter. Cellulose disappearance from litter coincided with periods of maximum cellulase activity. CBDH activity peaked later in decomposition after cellulase activity had declined. Enzyme activity patterns differed among litter types when expressed on the basis of decomposition time or cumulative mass loss. The patterns converged when expressed on the basis of chemical composition as indexed by the fraction of cellulose in the lignocellulose complex. We present a three-stage model of decomposition based on temporal changes in cellulase activities and coincident changes in litter chemical composition.     

木薯纤维素乙醇发酵的纤维素酶成本评价

木薯中的纤维素成分约占木薯干重的10％(W/W).文中以木薯燃料乙醇生产的木薯纤维素酒渣为原料,从纤维素酶成本角度评估了三种利用木薯纤维素组分发酵生产乙醇的方法,包括木薯纤维素酒渣的直接糖化和乙醇发酵、木薯纤维素酒渣预处理后的糖化与乙醇发酵、木薯乙醇发酵中同步淀粉与纤维素糖化以及乙醇发酵.结果表明,前两种方法的纤维素利用效率不高,酶成本分别达到13602、11659元/吨乙醇.第三种方法,即在木薯乙醇发酵过程同时加入糖化酶和纤维素酶,进行同步淀粉与纤维素糖化,进而进行乙醇发酵,木薯纤维素乙醇的收益最高.发酵结束时的乙醇浓度从101.5g/L提高到107.0g/L,纤维素酶成本为3 589元/吨乙醇.此方法利用木薯纤维素与木薯淀粉同时进行,不会带来额外的设备及操作投入,酶成本低于产品乙醇价格,可实现盈利,因此第三种方法为木薯纤维用于乙醇发酵的最适方法,本研究结果将为木薯乙醇产业深度利用木薯纤维提供依据.     

Simple three‐pool model accurately describes patterns of long‐term litter decomposition in diverse climates

As atmospheric CO₂ increases, ecosystem carbon sequestration will largely depend on how global changes in climate will alter the balance between net primary production and decomposition. The response of primary production to climatic change has been examined using well‐validated mechanistic models, but the same is not true for decomposition, a primary source of atmospheric CO₂. We used the Long‐term Intersite Decomposition Experiment Team (LIDET) dataset and model‐selection techniques to choose and parameterize a model that describes global patterns of litter decomposition. Mass loss was best represented by a three‐pool negative exponential model, with a rapidly decomposing labile pool, an intermediate pool representing cellulose, and a recalcitrant pool. The initial litter lignin/nitrogen ratio defined the size of labile and intermediate pools. Lignin content determined the size of the recalcitrant pool. The decomposition rate of all pools was modified by climate, but the intermediate pool's decomposition rate was also controlled by relative amounts of litter cellulose and lignin (indicative of lignin‐encrusted cellulose). The effect of climate on decomposition was best represented by a composite variable that multiplied a water‐stress function by the Lloyd and Taylor variable Q₁₀ temperature function. Although our model explained nearly 70% of the variation in LIDET data, we observed systematic deviations from model predictions. Below‐ and aboveground material decomposed at notably different rates, depending on the decomposition stage. Decomposition in certain ecosystem‐specific environmental conditions was not well represented by our model; this included roots in very wet and cold soils, and aboveground litter in N‐rich and arid sites. Despite these limitations, our model may still be extremely useful for global modeling efforts, because it accurately (R²=0.6804) described general patterns of long‐term global decomposition for a wide array of litter types, using relatively minimal climatic and litter quality data.     

Fungal decomposition of Abies needle and Betula leaf litter

The effect of litter type and incubation temperature on the ability of fungi to decompose leaf litter of subalpine trees was examined by a pure-culture test. Mass loss of Abies needle and Betula leaf litter and utilization patterns of lignin and carbohydrates were investigated under two temperature conditions (20 C and 10 C) and compared for 29 species in basidiomycetes, ascomycetes and zygomycetes. The decomposing ability was generally higher in basidiomycetes than in ascomycetes and zygomycetes. Mass loss (% original mass) of litter was higher in Betula than in Abies and higher at 20 C than at 10 C. The 29 fungi were divided into lignocellulose decomposers, cellulose decomposers and sugar fungi based on their substrate utilization in Abies and Betula litter. Mass loss of lignin and carbohydrates by lignocellulose and cellulose decomposers was higher in Betula than in Abies. Mass loss of carbohydrates was higher at 20 C than at 10 C, but the temperature did not influence mass loss of lignin, indicating lignin decomposition by fungi was less sensitive to temperature than carbohydrate decomposition. Lignin/carbohydrate loss ratio (L/C) of Collybia spp. that caused selective delignification was lower at 20 C than at 10 C. These results indicate that the decomposability of litter, lignin and carbohydrate was different between Abies and Betula and that temperature affected not only the rate at which fungi decompose litter but also the ability of fungi to use lignin and carbohydrates.     

三株高效秸秆纤维素降解真菌的筛选及其降解效果

【目的】利用多种筛选方法,获得高效秸秆纤维素降解真菌,并研究其秸秆纤维素的降解能力。【方法】采用滤纸片孔洞法、滤纸条降解法、羧甲基纤维素钠(CMC-Na)水解圈测定法、秸秆失重法、纤维素分解率测定法、胞外酶活测定法等常规秸秆纤维素降解菌的筛选方法。【结果】筛选到3株具有较强纤维素降解能力的真菌菌株,经初步鉴定菌株98MJ为草酸青霉(Penicillium oxalicum)、菌株W3为木霉(Trichoderma sp.)、菌株W4为扩张青霉(Penicillium expansum)。菌株W4具有非常强的秸秆纤维素降解能力,10d内对秸秆的降解率可达56.3%,对纤维素、半纤维素和木质素的分解率分别为59.06%、78.75%和33.79%。菌株W4的胞外纤维素酶活力在14.25-49.75U/mL之间。【结论】筛选获得3株高效秸秆纤维素降解真菌菌株,其中菌株W4的纤维素酶活高于已报道的菌株,是一株十分具有研究开发潜力的纤维素酶生产菌株。