Enzymatic hydrolysis of cellulosic materials by Sclerotium rolfsii culture filtrate for sugar production.

The hydrolysis of purified celluloses (cotton, Avicel, Cellulose-123, Solka Floc SW40) and cellulosic wastes (rice straw, sugarcane bagasse, wood powders, paper factory effluents) by Sclerotium rolfsii CPC 142 culture filtrate was studied. Factors which effect saccharification such as pH, temperature, enzyme concentration, substrate concentration, produce inhibition, adsorption, and inactivation of enzyme and particle size were studied. Virtually no inhibition (less than 3%) of cellulose hydrolysis by the culture filtrate was observed by cellobiose and glucose up to 100 mg/mL. Filter paper degrading enzyme(s) (but neither carboxymethylcellulase nor beta-glucosidase) was adsorbed on cellulose. The n value in the S. rolfsii system was calculated to be 0.32 for Avicel P.H. 101 and 0.53 for alkali-treated (AT) rice straw indicating penetration of cellulase into AT rice straw. In batch experiments at 10% substrate level, solutions containing 6 to 7%, 3.8 to 4.7%, 4.0 to 5.1%, and 4.2 to 4.9% reducing sugars were produced in 24 to 48 from AT rice straw. AT bagasse, alkali - peracetic acid treated mesta wood and paper factory sedimented sludge effluent, respectively. The main constituent in the hydrolysate from cellulose was glucose with little or no cellobiose, probably due to the high cellobiase content in the culture filtrate.     

白腐菌及黑曲霉所产的纤维素复合酶对稻草秸秆的生物降解

研究了白腐菌及纤维素复合酶对稻草秸秆的协同生物降解。结果表明,利用黄孢原毛平革菌固态发酵稻草秸秆的过程中,LiP和MnP的最大活力可以达到28.3U/g和12.6U/g,同时,秸秆中的木质素能被有效降解,但纤维素、半纤维素降解率较低。添加黑曲霉所产的纤维素复合酶能有效地促进秸秆腐熟程度。在接入白腐菌培养10天后,每克稻草添加3 IU纤维素酶液并酶解48h可以使稻草秸秆中纤维素降解53.8%,半纤维素降解57.8%,木质素降解44.5%,干物质损失46.3%。此时细胞壁出现大范围破损,整个组织变得松散,秸秆完全腐熟。     

Comparison of the rates of enzymatic hydrolysis of pretreated rice straw and bagasse with celluloses

The rates of enzymatic hydrolysis of pretreated rice straw and bagasse have been studied and compared with the hydrolysis rates of microcrystalline cellulose powder (MCCP) and Solka Floc. The effects of particle size reduction and enzyme loading on the rates of hydrolysis of rice straw and bagasse were also studied. It was found that the rates of hydrolysis of pretreated rice straw and bagasse are much higher than that of MCCP and Solka Floc. For both rice straw and bagasse, particle size reduction had very little effect in enhancing the rate of hydrolysis. Lignin present at <10% did not seem to hinder the accessibility of the enzyme to the cellulose surface. An enzyme loading > 40 Ug^?1 had no effect on the hydrolysis rate of rice straw or bagasse.     

Biodegradation of the cellulose component of rice straw byPleurotus sajor-caju

Pleurotus sajor-caju is an efficient degrader of the cellulose component of rice straw. Protein contents of the biodegraded straw after fungal growth increased from 1.7 to 10.0 %. Crude fibre and cellulose contents decreased from 32.6 and 45.0 to 6.3 and 17.8 %, respectively. The in vivo digestibility of the biodegraded rice straw increased by 34.1 %.     

不同纤维素原料超临界水解的研究

分别以稻草秸秆、经预处理的稻草秸秆、脱脂棉、微晶纤维素和定性滤纸为原材料,利用间歇式的超临界反应设备,在400℃的盐浴中进行木质纤维素的超临界水解,采用3,5-二硝基水杨酸(DNS)法对产物中的还原糖进行测定,研究反应时间对不同纤维素原料水解产糖的影响。结果表明:在超临界条件下,不同原料在较短的时间内还原糖含量均出现峰值,随着反应时间的延长还原糖产量呈现下降的趋势;稻秆、预处理后的稻秆、脱脂棉、微晶纤维素和定性滤纸的最大产糖量分别为7.42、9.05、12.55、18.01和14.24 g/L;与此对应的最佳反应时间分别为3.5、4、3、3、4 min;对应的最大还原糖产率分别为14.84%、18.10%、25.10%、36.02%、28.48%。     

Structure and saccharification of rice straw pretreated with sulfur trioxide micro-thermal explosion collaborative dilutes alkali

In this paper, a sulfur trioxide collaborative dilutes alkali method has been developed to pre-treat rice straw and it has been studied that the pre-treated rice straw structure affected the saccharification of the rice straw hydrolyzed by cellulose enzymatic hydrolysis. The results show that the reaction of the sulfur trioxide with rice straw resulted in the internal micro-thermal explosion, and the saccharification rate was 91% based on the pretreated rice straw with sulfur trioxide for 4h following 1% w/v NaOH treatment for 7h at 50°C.     

Evaluation of chemical pretreatment for enzymatic solubilization of rice straw

Summary Rice straw was treated with NaOH, peracetic acid (PA), and sodium chlorite (NaClO₂). Quantitative changes in the composition of the treated straw, crystallinity of the treated straw and extracted cellulose, and susceptibility of the treated straw to Trichoderma reesei cellulase were studied. The alkali treatment resulted in a remarkable decrease in hemicellulose as well as lignin. Consequently, the recovery of residual straw after NaOH treatment was lowest among the three chemical reagents evaluated. The treatment with PA or NaCIO₂ resulted in a slight loss in hemicellulose and cellulose in the straw. The three chemical treatments caused little or no breakdown of the crystalline structure of cellulose in the straw. The treated straw was solubilized with the culture filtrate of T. reesei. The degree of enzymatic solubilization relative to the amount of residual straw was 69% after treatment with 0.25 N NaOH, 42% after treatment with 20% PA, and 50% after treatments with NaClO₂ (twice). The degree of enzymatic solubilization relative to the amount of the untreated straw, however, was 30% after treatment with 0.25 N NaOH, 32% after treatment with 20% PA, and 37% after treatments with NaClO₂ (twice).     

Degradation of Cellulosic Materials by Trichoderma viride Cellulase

The extra-cellular filtrates of Trichoderma viride ITCC–1433 showed considerable cellulolytic activity against native celluloses, cellulose derivatives and raw materials. Newspaper-yellow and the rice straw were the prominent waste materials which were preferentially attacked by the enzyme. The alkali treatment of the latter doubled the sugar formation from it. As a result of cellulase action 80.4 per cent of the MN-Cellulose and 60.4 per cent of the alkali treated rice straw lost weight in 96 and 48 hr respectively. The weight loss was more or less equivalent to the reducing sugars formed.     

纤维素高效降解菌YN1的筛选及其降解特性

为了获得降解天然纤维素的微生物菌株,并用于农田秸秆腐熟及竹林地稻壳促腐。从牛羊粪堆肥中筛选出一株纤维素降解菌YN1,对其进行了形态和系统发育分析;测定了YN1的液、固体发酵酶活;进行了YN1对纤维素的失重测定;对YN1在纤维素表面上的定殖及其对纤维素的降解进行了电镜观察。经菌株形态分析和ITS基因序列分析,将YN1鉴定为曲霉(Aspergillussp.);在YN1菌株的液体发酵培养第3天,内切酶、外切酶、β-糖苷酶和总纤维素酶活性都达到最大值,分别为95.7、14.6、20.5和26.6U/mL,固体发酵培养第5d各酶活均达到峰值,依次为1192.2、100.6、136.9和210.7U/g;在失重测定中,YN1在7d内可降解41.87%的秸秆,31.59%的稻壳;在扫描电镜下可明显观察到YN1对滤纸、秸秆和稻壳的降解。YN1可有效降解天然纤维素,对农田秸秆腐熟及竹林地稻壳促腐具有较好的应用前景。     

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。     

Mild alkaline pretreatment can achieve high hydrolytic and fermentation efficiencies for rice straw conversion to bioethanol

Abstract

Mild alkaline pretreatment was evaluated as a strategy for effective lignin removal and hydrolysis of rice straw. The pretreatment efficiency of different NaOH concentrations (0.5, 1.0, 1.5 or 2.0% w/w) was assessed. Rice straw (RS) pretreated with 1.5% NaOH achieved better sugar yield compared to other concentrations used. A cellulose conversion efficiency of 91% (45.84?mg/ml glucose release) was attained from 1.5% NaOH pretreated rice straw (PRS), whereas 1% NaOH pretreated rice straw yielded 35.10?mg/ml of glucose corresponding to a cellulose conversion efficiency of 73.81%. The ethanol production from 1% and 1.5% NaOH pretreated RS hydrolysates was similar at ～3.3% (w/v), corresponding to a fermentation efficiency of 86%. The non-detoxified hydrolysate was fermented using the novel yeast strain Saccharomyces cerevisiae RPP-03O without any additional supplementation of nutrients.     

Novel renewable ionic liquids as highly effective solvents for pretreatment of rice straw biomass by selective removal of lignin

Cholinium amino acids ionic liquids ([Ch][AA] ILs), a novel type of bio‐ILs that can easily be prepared from renewable biomaterials, were investigated for pretreatment of rice straw by selective extraction of lignin from this abundant lignocellulosic biomass material. Of the eight ILs examined, most were demonstrated to be excellent pretreatment solvents. Upon pretreatment using these ILs, the initial saccharification rates of rice straw residues were substantially improved as well as the extent to which polysaccharides could be digested (>90% for cellulose and >60% for xylan). Enzymatic hydrolysis of pretreated rice straw by Trichoderma reesei cellulase/xylanase furnished glucose and xylose with the yields in excess of 80% and 30%, respectively. Detailed spectroscopic characterization showed that the enhancement of polysaccharides degestibility derived mainly from delignification rather than changes in cellulose crystallinity. The yields of fermentable reducing sugars were significantly improved after individual optimization of pretreatment temperature and duration. With [Ch][Lys] as the solvent, the sugar yields of 84.0% for glucose and 42.1% for xylose were achieved after pretreatment at 90°C for 5 h. The IL [Ch][Lys] showed excellent reusability across five successive batches in pretreatment of rice straw. These bio‐ILs performed as well as or better than previously investigated non‐renewable ILs, and thus present a new and environmentally friendly way to pretreat lignocellulose for production of fermentable sugars and total utilization of the biomass. Biotechnol. Bioeng. 2012; 109: 2484–2493. © 2012 Wiley Periodicals, Inc.     

Studies on untreated and urea-treated rice straw from three cultivation seasons: 2. Evaluation of straw quality through in vitro gas production and in sacco degradation measurements

Untreated and urea-treated straw and straw fractions of seven rice varieties from three cultivation seasons have been evaluated on their DM, OM loss and degradation characteristics from in sacco disappearance and in vitro gas production measurements. Drying temperatures from 45°C to 100°C did not seem to influence the degradability of urea-treated rice straw, whereas urea-treated straw dried at freezing temperatures (−35°C) gave slightly higher degradability than higher temperatures. Untreated early season rice straw showed higher degradability than straw of middle and later season rice. There was a significant increase in the degradation of straw after urea treatment, and greatest for late and middle season rice straw. On average, urea-treatment of rice straw increased the DM and OM in sacco losses after 48 h of incubation (48 h) by 24.0% and 30.7%, respectively. In order to study the kinetics of the degradation of fibre fractions, the disappearance in sacco was also estimated for the loss of hemicellulose, cellulose and extractable biogenic silica (EBSi). There was a great variation in the content of silica between varieties. Rice straw degradation seemed to be related to the biogenic silica content (acid detergent insoluble silica (ADISi)). Urea treatment increased the extraction of biogenic silica and hence increased the degradation of hemicellulose and cellulose. The improvement in sacco disappearance of cellulose due to urea treatment was 36.8%, 19.5% and 5.3% for late, middle, and early rice straw, respectively. The degradability was higher for the stem than for the leaf blades and leaf sheaths. The response to urea treatment, however, was higher for leaf sheaths and leaf blades than for the stems, evening out differences in degradability. Urea treatment tended to increase the production of acetic acid whereas there was no effect on propionic and butyric acid production.     

Evaluation of effectiveness of pretreating rice straw with n-butylamine for improvement of sugar yield

Summary n-Butylamine (n-BA) pretreatment extracted a part of the holocellulose (cellulose and hemicellulose) in rice straw into the liquid phase, as a mixture of oligosaccharides and a small amount of monosaccharides. However, there was loss of sugars resulting mainly from decomposition of monomers by a long exposure to a high n-BA concentration. Approximately 70% of the total sugars in the pretreatment solutions was converted enzymatically into reducing sugars (mainly monomers). On the other hand, more than 90% of holocellulose in the residual rice straw after the optimal pretreatment was solubilized enzymatically in 120 h of reaction time with 10 w/v% substrate and 6 mg protein/ml cellulase. The main action of n-BA on rice straw was delignification, and highly crystalline cellulose was not swollen. Thus the enhancement of the enzymatic solubilization rate of rice straw appeared to be due to the increase of surface area accessible to the enzyme by delignification. It was demonstrated by the relationship of the vapour-liquid equilibrium of the n-BA/water system that the n-BA used was recovered easily. The loss of n-BA, at most, was 30% in the case of the weight ratio of n-BA to rice straw of 0.1.     

添加剂对水稻秸秆实地混合厌氧发酵产甲烷系统的作用

为提高水稻秸秆利用效率,改进水稻秸秆实地混合厌氧发酵产甲烷技术,本研究开展了添加剂在混合厌氧发酵系统的应用研究。试验选取水稻秸秆和猪粪作为发酵原料,通过分别添加不同的浓度的吐温20和腐植酸,测定甲烷的产气量和浓度、秸秆的降解和土壤肥力的变化,以揭示添加剂类型及其浓度对水稻田实地甲烷生产系统的影响。结果表明:添加剂的掺入并未影响产气的动态变化趋势,但显著地促进产气和提高产气浓度,整体效果由高到低为腐植酸吐温20对照,其中经腐植酸处理的产气量和产气浓度对照相比分别提高了50. 73%和24. 55%。添加剂的掺入有利于水稻秸秆纤维素和半纤维素的降解,但对木质素没有显著影响;其中以0. 15 g/L腐植酸和0. 30 g/L吐温20的降解率最高,相较于对照其纤维素降解率均提高了22. 11%,半纤维素降解率分别提高了107. 13%和98. 39%。添加剂的掺入能显著增加土壤肥力,以0. 15 g/L腐植酸和0. 30 g/L吐温20处理水平的效果最优,相较于对照,其土壤有机质分别增加了29. 63%和23. 72%,全氮分别增加了52. 32%和42. 38%,全磷分别增加了83. 33%和57. 14%。     

Optimal conditions for pretreatment of rice straw with n-butylamine for enzymatic solubilization

Summary Three different pretreatment methods with n-butylamine (n-BA) were used to obtain fermentable sugars in a high yield from rice straw. The optimal conditions of each method were as follows: treating at boiling point for 1 h under refluxing in 10 w/w% n-BA with the weight ratio of n-BA to original rice straw more than 1.0, autoclaving at 120°C for 1 h in 1 w/w% n-BA with the weight ratio more than 0.1, and wetting for 2 h with the circulating condensate of the vapour evaporated from 2.5 w/w% n-BA with the weight ratio more than 0.8. Soaking rice straw with n-BA before the above pretreatments was not needed. For the circulation pretreatment, the overall cumulative yield of total sugars (70% of cellulose and hemicellulose in original rice straw) was best for both pretreatment and enzymatic solubilization steps, because there was no decomposition of monosaccharides during the pretreatment. Furthermore, the optimal degree of delignification for enzymatic solubilization of the pretreated rice straw was approximately 60% of lignin in the original.     

RT-CaCCO process: an improved CaCCO process for rice straw by its incorporation with a step of lime pretreatment at room temperature

We improved the CaCCO process for rice straw by its incorporation with a step of lime pretreatment at room temperature (RT). We firstly optimized the RT-lime pretreatment for the lignocellulosic part. When the ratio of lime/dry-biomass was 0.2 (w/w), the RT lime-pretreatment for 7-d resulted in an effect on the enzymatic saccharification of cellulose and xylan equivalent to that of the pretreatment at 120°C for 1h. Sucrose, starch and β-1,3-1,4-glucan, which could be often detected in rice straw, were mostly stable under the RT-lime pretreatment condition. Then, the pretreatment condition in the conventional CaCCO process was modified by the adaptation of the optimized RT lime-pretreatment, resulting in significantly better carbohydrate recoveries via enzymatic saccharification than those of the CaCCO process (120°C for 1 h). Thus, the improved CaCCO process (the RT-CaCCO process) could preserve/pretreat the feedstock at RT in a wet form with minimum loss of carbohydrates.     

稀酸和稀碱预处理对四种不同生物质资源制备还原糖的影响

本论文探讨了不同浓度的稀H_2SO_4和稀NaOH预处理对大豆秸秆、水稻秸秆、象草和狼尾草四种不同生物质酶解制备还原糖的影响。结果表明,大豆秸秆、水稻秸秆、象草和狼尾草具有较高的纤维素和半纤维素含量,是制备还原糖的理想原料。与稀H_2SO_4预处理相比,经稀NaOH预处理后的样品表现出较好的酶解性能。通过使用4%的NaOH对大豆秸秆和狼尾草进行预处理,还原糖产量分别为145.8 mg/mL和319.2 mg/mL。此外,以1%NaOH预处理后的水稻秸秆和象草为原料,可以分别获得385.2 mg/mL和231.6 mg/mL还原糖产量。     

降解水稻秸秆的复合菌系及其微生物群落结构演替北大核心CSCD

【目的】比较和分析从堆肥中富集的水稻秸秆降解菌系F1和F2的纤维素分解能力、微生物群落结构及其在秸秆降解过程中的演替,从而探究微生物群落结构与秸秆降解效率的相关性。【方法】采用DNS(3,5-二硝基水杨酸,3,5-dinitrosalicylic acid)定糖法测定发酵液中的外切纤维素酶活;采用范氏(Van Soest)洗涤纤维分析法测定发酵前与发酵后的秸秆纤维素、半纤维素、木质素的含量,并计算降解率;采用16S r RNA基因序列分析和实时荧光定量PCR(Quantitative real-time PCR,Q-PCR)对秸秆降解过程中的微生物物种组成及特定的功能微生物进行定性和定量分析。【结果】复合菌系F1的水稻秸秆总降解率、纤维素降解率、半纤维素降解率显著高于复合菌系F2;2种复合菌系的外切纤维素酶活性与cel48基因的拷贝数变化趋势一致;复合菌系F1的物种较丰富,优势物种是好氧细菌,复合菌系F2的物种组成较单一,培养后期具有较高比例的厌氧纤维素分解菌;培养前4天,复合菌系F1和F2的优势物种均为Unclassified Bacillales和Bacillus;第4天之后,不同复合菌系的优势物种及丰度出现差异,F1的优势物种主要属于Bacteroidetes,F2的优势物种主要属于Firmicutes;虽然Petrimonas和Pusillimonas是培养后期的共有优势物种,但是Petrimonas在复合菌系F2中的相对丰度(38.30%)显著高于F1(9.47%),且培养第8天的F2中的Clostridiales OPB54增加至14.85%。【结论】cel48基因拷贝数变化与秸秆纤维素的降解效率、外切纤维素酶活性变化具有一定的相关性,cel48基因可作为潜在的生物分子标记监测秸秆纤维素的降解过程;微生物群落结构对秸秆纤维素的降解效率具有显著影响,Unclassified Bacillales,Bacillus,Petrimonas,Pusillimonas是复合菌系F1和F2降解秸秆纤维素过程中的重要物种。     

乙醇预处理麦秆的酶解性能研究简

采用H2 SO4催化和自催化乙醇法对麦秆进行预处理,比较预处理后麦秆的主要化学组成、纤维素酶解性能和半同步糖化发酵生产乙醇特性,并进行物料衡算。结果表明：H2 SO4催化和自催化乙醇预处理过程中纤维素固体回收率大于90％。添加非离子表面活性剂吐温20和吐温80没有显著提高H2 SO4催化乙醇预处理后纤维素的酶解葡萄糖得率及半同步糖化发酵过程中乙醇的产量,而对自催化乙醇处理后麦秆的酶解和半同步糖化发酵过程有一定程度的促进作用,相应的酶解葡聚糖转化率由72.7％提高到85.0％,而半同步糖化发酵过程中乙醇质量浓度提高了11.4％。物料衡算结果表明：酸催化和自催化乙醇预处理后葡聚糖回收率分别为91.0％和95.4％;半同步糖化发酵生产乙醇的得率分别为10.4和11.6 g（按100 g原料计）。