纤维素降解菌青霉T24-2的分离及产酶特性

从稻田腐烂秸秆中分离到一批纤维素分解菌株。通过滤纸崩解测试、刚果红纤维素平板识别,以及产酶鉴定,筛选得到一株分解纤维素能力较强的真菌。经形态观察和18S r DNA基因片断分析,鉴定该菌株为青霉。对菌株的液态发酵条件进行研究,该菌株培养基含3%稻草粉、0.25%尿素和无机盐营养液,最佳产酶条件为:自然pH,30℃,130r/min发酵4d。该菌株的CMC酶活和滤纸酶活最高分别达到45.01I U/mL和6.89I U/mL。随后对该菌酶解稻草粉进行研究,糖化率达到40.17%。研究表明,青霉T24-2菌株在秸秆综合利用上具有良好的应用前景。     

一株纤维素降解细菌的筛选、鉴定及产酶条件分析

目的筛选高活性的纤维素降解细菌,并进行初步鉴定和产纤维素酶条件分析。方法采集吉首旗帜山松树林的土壤样品,通过富集培养和刚果红平板染色法筛选分离纤维素降解细菌;通过形态观察、生理生化特性检测和基于16S rRNA基因序列的系统发育分析对分离的菌株进行初步鉴定。利用单因素实验对产纤维素酶条件进行优化。结果分离获得1株高活性纤维素降解细菌JDM11,初步鉴定其为Bacillus velezensis;菌株JMD11产纤维素酶最佳培养温度、最适初始pH和培养时间分别为28℃、7.0～7.5和32h,在该条件下其滤纸酶(FPase)和羧甲基纤维素酶(CMCase)活力分别为260.32U/ml和651.75U/ml。结论菌株JDM11是1株高活性纤维素降解的Bacillus velezensis。     

低温降解玉米秸秆的木霉菌株筛选

【背景】木霉是自然界中常见的纤维素和半纤维素降解菌,在农业废弃物降解中具有重要应用潜力。【目的】筛选可在低温环境降解玉米秸秆的木霉菌株。【方法】测定31种木霉111个菌株在低温下的生长状况、水解纤维素和木聚糖产生的透明圈直径及部分菌株对玉米秸秆的相对降解率(relativedegradationrate,RDR);利用DNS法测定不同RDR代表菌株的纤维素滤纸酶(filter paper cellulase, FPase)、羧甲基纤维素酶(carboxymethyl cellulase, CMCase)和木聚糖酶(xylanase)活性,并分析它们在不同发酵阶段的酶活与秸秆降解率的关系。【结果】在10℃和5℃培养分别有100株和42株供试菌株能够生长,在15℃均能生长,其中19个菌株培养6 d产生的水解纤维素和木聚糖产生的透明圈直径大于60 mm、培养10 d对玉米秸秆的RDR为0.45%-8.09%;菌株9145、TC425、TC505和8987的FPase、CMCase和xylanase活性随着培养时间呈现动态变化,其中前两者的活性变化趋势基本一致,与RDR的关系密切。【结论】钩状...     

棉秸秆降解高温菌株的筛选及产酶分析

从新疆地区分离具有降解棉秸秆纤维素功能的菌株,得到4株耐高温真菌(50°C)。纤维素酶学性质分析表明,该4株菌的纤维素酶具有良好的耐酸性(最适pH为4.5)和耐高温性(最高达60°C)。以羧甲基纤维素钠(CMC-Na)、微结晶纤维素、棉花、滤纸、淀粉、果胶为底物测定酶活力,滤纸酶活力(FPA)最高达2.63 U/mL、淀粉酶活力最高达6.17 U/mL、果胶酶活力最高达5.86 U/mL。4株真菌酶学特性分析表明,该系列菌株在秸秆生物质利用方面有很大的应用潜力。     

纤维素酶产生菌的筛选、鉴定及发酵产酶条件优化

以腐烂木材、腐殖土等材料作为菌源,从中分离出180个菌株,以期得到具有纤维素酶活性的菌株。采用革兰氏碘液染色法进行定性初筛,获得了44个纤维素酶产生菌株。将此44个菌株发酵培养后,使用滤纸酶活性测定法进行定量复筛,滤纸酶活性最高的是菌株J1-3-1。通过对J1-3-1菌株的16S r RNA的序列测定分析,将J1-3-1鉴定为鞘氨醇杆菌(Sphingobacterium sp.)。经对J1-3-1进行产酶发酵条件优化,分别确立了产生最高滤纸酶(FPase)活性、内切葡聚糖酶(CMCase)活性和β-葡萄糖苷酶(β-glucosidase)活性的发酵条件。在最优发酵产酶条件下,菌株J1-3-1的滤纸酶、内切葡聚糖酶和β-葡萄糖苷酶的最高酶活性分别为8.76、28.04和7.02 U/m L。     

一株纤维素降解真菌的筛选及鉴定

[目的]分离筛选高效降解纤维素的真菌菌株,并研究其产酶能力.[方法]利用刚果红染色法从甘蔗地土壤中分离纤维素降解真菌,再通过测定滤纸的降解率及发酵酶活复筛.[结果]综合考虑水解圈,水解圈和菌株直径的比值(HC值),滤纸的降解率和复筛酶活,对试验真菌降解纤维素的能力进行综合评价,筛选到具有较强纤维素降解能力的真菌菌株SJ1,经形态学观察及分子生物学鉴定,该菌属于草酸青霉.其滤纸酶活、内切葡聚糖酶酶活(CMC酶活)、β-葡聚糖苷酶酶活和外切葡聚糖酶酶活(CBH酶活)分别为25.15、740.42、58.03和2.442 U/mL.[结论]菌株SJ1是一株十分具有研究开发潜力的纤维素酶生产菌株.     

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。     

发酵床中纤维素降解菌的分离与鉴定

从发酵床垫料中初步分离出43株纤维素降解菌。采用刚果红鉴别培养基及滤纸条培养基初筛,得到5株透明圈较大且使滤纸条产生崩解的菌株,通过进一步液体发酵,测定其CMC酶活、FPA酶活和天然纤维素酶活,获得2株具有较高纤维素降解活性菌株,并分别命名为F7和F21。经16S rRNA基因序列分子生物学鉴定和系统发育分析表明,这2株纤维素降解菌分别归属为枯草芽孢杆菌(Bacillus subtilis)和链霉菌(Streptomyces sp.)。     

白蚁肠道内纤维素酶产生菌的筛选及其酶活性

从黑翅土白蚁(Odontotermes formosanus Shiraki)肠道内筛选具有纤维素降解能力的细菌,并研究其酶活性。结果表明:筛选得到5株菌株,活力较高的菌株CMC-4被鉴定为土白蚁特拉布尔希氏菌Z-4(Trabulsiella odontotermitis ZJSRU-4)。同时对菌株T.odontotermitis ZJSRU-4进行了系统的研究,它具有完整的纤维素酶系统,主要产羧甲基纤维素酶(CMCase)和β-葡萄糖苷酶,滤纸酶的活力较低。在以羧甲基纤维素钠为碳源的培养基中培养36 h,发酵液中CMCase的比酶活达到20.8 U/m L,培养44 h,β-糖苷酶的比酶活达到18.2 U/m L。CMCase和β-葡萄糖苷酶作用的p H分别为6.0和6.5,它们作用的最适温度都为40℃。该菌对纤维质原料具有降解能力,具有潜在的应用价值。     

耐高温沼渣降解菌的筛选及复合菌剂降解效果研究

分离筛选耐高温纤维素降解细菌，构建可快速降解沼渣的复合菌剂，缩短堆肥腐熟时间。采用高温富集筛选法，从宁夏中卫市秸秆堆和畜禽粪便中分离筛选耐高温细菌，经羧甲基纤维素钠水解试验和滤纸条崩解试验复筛获得具有纤维素降解能力的菌株。通过纤维素酶和木质素酶活性比较，确定目标菌株并进行分类鉴定。开展拮抗性试验和菌种复配，构建复合型菌剂；经沼渣堆肥场地试验验证复合菌剂的促腐熟效果。本研究筛选获得2株耐高温纤维降解细菌——蜡样芽胞杆菌(Bacillus cereus)W44菌株和解蛋白芽胞杆菌(Bacillus proteolyticus)X51菌株，纤维素酶活性分别为34 812.69 U/L和34 159.10 U/L。比较菌株W44/X51配比分别为1:1、1:2和2:1的复合菌剂对沼渣堆肥的促腐熟效果，添加不同的复合菌剂均缩短了沼渣堆肥腐熟时间，其中1:2处理腐熟时间最短，较CK提前18 d。蜡样芽胞杆菌W44和解蛋白芽胞杆菌X51按1:2配比的复合菌剂可用于沼渣快速堆肥发酵。     

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。     

玉米秸秆纤维素分解菌的选育研究

玉米秸秆是纤维组分含量很高的农作物残留物,利用纤维素分解菌生产发酵饲料是当前饲料业的一个发展方向,它可将纤维素分解为牲畜可利用的糖,同时增加饲料中蛋白质的含量.试验从微生物丰富的土壤中分离到10株能分解纤维素的菌株,分别测定滤纸分解度、CMC酶活、FPA酶活和天然纤维素酶活,筛选出6株对天然秸秆纤维素有较强降解能力的菌株.通过改变其培养基中天然纤维素的含量,发现随着培养基中天然纤维素含量的增加,酶活力也随之升高.     

Cellulolytic microbes in the Yanbaru, a subtropical rainforest with an endemic biota on Okinawa Island, Japan

Cellulolytic microbes in the soil of the Yanbaru, a subtropical forest with an endemic biota, on Okinawa Island, were isolated and characterized in a search for novel microbial strains with biotechnological potential. Soil samples of the Yanbaru were suspended in sterilized water, inoculated on mineral salt agar overlaid with a filter paper as carbon source, and cultivated aerobically at 30 °C. After 2 weeks of cultivation, emerging colonies were isolated and subjected to phylogenetic and enzyme analyses. The phylogenetic analyses revealed bacterial and fungal isolates belonging to nine and three genera respectively. All isolates possessed cellulase activity, and several strains showed strong activity comparable to Trichoderma cellulase. Many isolates also exhibited xylanase activity.     

Cellulolytic Microbes in the Yanbaru,a Subtropical Rainforest with an Endemic Biota on Okinawa Island,Japan

Cellulolytic microbes in the soil of the Yanbaru, a subtropical forest with an endemic biota, on Okinawa Island, were isolated and characterized in a search for novel microbial strains with biotechnological potential. Soil samples of the Yanbaru were suspended in sterilized water, inoculated on mineral salt agar overlaid with a filter paper as carbon source, and cultivated aerobically at 30 °C. After 2 weeks of cultivation, emerging colonies were isolated and subjected to phylogenetic and enzyme analyses. The phylogenetic analyses revealed bacterial and fungal isolates belonging to nine and three genera respectively. All isolates possessed cellulase activity, and several strains showed strong activity comparable to Trichoderma cellulase. Many isolates also exhibited xylanase activity.     

一株纤维素分解菌的分离与筛选

以新华滤纸为唯一碳源,从垃圾堆肥中筛选能够分解纤维素的菌株共39株,采用刚果红鉴别培养基进行识别,获取透明圈较大的菌株10株,在此基础上,进行液体培养,测定酶活,得到1株酶活较高的曲霉B－6（Aspergillus sp)。将B－6与绿色木霉（Trichoderma sp)AS3.3711进行了参比试验,比对筛选工作进行评定,经过固体,液体发酵对比试验,发现B－6与AS3．371有相近的产酶性能,B－6在固,液发酵中酶活分别达到39．2IU,14．9IU,而S3．3711则分别为16．6IU与15．7IU,且B－6较AS3．3711有更强的液化CMC的能力,B－6在24h内即能使3％CMC完全液化,而S3．3711则需96h。     

高产纤维素酶枯草芽胞杆菌S-16的筛选及其发酵工艺优化

利用刚果红鉴别培养基及基础液体筛选培养基进行菌种筛选,从新疆盐碱地分离得到的16株菌株中筛选获得一株产纤维素酶活力较高的菌株S-16,对该菌株进行16SrDNA鉴定,确定该菌为枯草芽胞杆菌(Bacillus subtilis)。对S-16发酵产纤维素酶的主要影响因素进行研究,分别考察了碳源、氮源、培养基初始pH和接种量等因素对发酵产纤维素酶的影响。结合单因素影响实验得到优化后的培养基配方为:羧甲基纤维素钠1.5%,酵母粉1%,NaCl 1%,MgSO_4·7H_2O 2‰,KH_2PO_4·3H_2_O 1‰。优化后的发酵条件为:初始pH为8,接种量1%,种龄8h,培养时间48h。经过发酵工艺优化,S-16产生的羧甲基纤维素酶活(CMCase)和滤纸酶活(FPase)分别达到4.64IU/mL和0.46IU/mL,与初始培养条件下的酶活相比分别提高了3.14倍和1.30倍。本研究得到的枯草芽胞杆菌S-16及其优化发酵工艺为秸秆的快速腐熟和高产纤维素酶的应用奠定了基础。     

液态发酵条件下拟康宁木霉8985产纤维素酶能力初探

液态发酵条件下,以微晶纤维素为唯一碳源,比较了拟康宁木霉Trichoderma koningiopsis 8985和里氏木霉T. reesei QM9414产纤维素酶的能力。8985发酵12 h开始产生纤维素酶,36 h时酶活达到产酶峰值的50%,此时QM9414尚未诱导产酶。测定8985发酵84 h时上清液中滤纸纤维素酶、羧甲基纤维素酶、β-葡萄糖苷酶和木聚糖酶的酶活分别为1.06、3.62、1.80和6.67 IU/mL,分别是QM9414上述酶活的1.72、1.70、6.35和1.12倍。8985滤纸纤维素酶酶活的最适反应条件为pH 4.5,反应温度50 ℃,在Fe³⁺ (≤ 4 mmol/L)和Cu²⁺ (0-10 mmol/L)存在条件下酶活稳定。     

Optimization of cellulase production in batch fermentation byTrichoderma reesei

Maximum cellulase production was sought by comparing the activities of the cellulases produced by differentTrichoderma reesei strains andAspergillus niger. Trichoderma reesei Rut-C30 showed higher cellulase activity than otherTrichoderma reesei strains andAspergillus niger that was isolated from soil. By optimizing the cultivation condition during shake flask culture, higher cellulase production could be achieved. The FP (filter paper) activity of 3.7 U/ml and CMCase (Carboxymethylcellulase) activity of 60 U/ml were obtained from shake flask culture. When it was grown in 2.5L fermentor, where pH and DO levels are controlled, the Enzyme activities were 133.35 U/ml (CMCase) and 11.67 U./ml (FP), respectively. Ammonium sulfate precipitation method was used to recover enzymes from fermentation broth. The dried cellulase powder showed 3074.9 U/g of CMCase activity and 166.7 U/g of FP activity with 83.5% CMCase recovery.     

Production of cellulase by Trichoderma reesei from dairy manure

Cellulase production by the fungi Trichoderma reesei was studied using dairy manure as a substrate. Data showed that T. reesei RUT-C30 had higher cellulase production than T. reesei QM 9414 and that a homogenized manure, treated by a blender to reduce fiber size, led to higher cellulase production. The cellulase production was further optimized by growing T. reesei RUT-C30 on homogenized manure. The effects of manure concentration, pH, and temperature on cellulase production were investigated with optimal parameter values determined to be 10 g/l manure (dry basis), 25.5 degrees C, and pH 5.7, respectively. Elimination of CaCl2, MgSO4, nitrogen sources (NH4+ and urea) and trace elements (Fe2+, Zn2+, Co2+ and Mn2+) from the original salt solution had no negative influence on the cellulase production, while phosphate elimination did reduce cellulase production. Based on above results, the final medium composition was simplified with manure additives being KH2PO4, tween-80 and CoCl2 only. Using this medium composition and a reaction time of 6-8 days, a maximum cellulase production activity of 1.74 IU/ml of filter paper activity, 12.22 IU/ml of CMCase activity, and 0.0978 IU/ml of beta-glucosidase was obtained. This filter paper activity is the highest ever reported in cellulase production from agricultural wastes.     

Characterization of some efficient cellulase producing bacteria isolated from paper mill sludges and organic fertilizers

The wide variety of bacteria in the environment permits screening for more efficient cellulases to help overcome current challenges in biofuel production. This study focuses on the isolation of efficient cellulase producing bacteria found in organic fertilizers and paper mill sludges which can be considered for use in large scale biorefining. Pure isolate cultures were screened for cellulase activity. Six isolates: S1, S2, S3, S4, E2, and E4, produced halos greater in diameter than the positive control (Cellulomonas xylanilytica), suggesting high cellulase activities. A portion of the 16S rDNA genes of cellulase positive isolates were amplified and sequenced, then BLASTed to determine likely genera. Phylogenetic analysis revealed genera belonging to two major Phyla of Gram positive bacteria: Firmicutes and Actinobacteria. All isolates were tested for the visible degradation of filter paper; only isolates E2 and E4 (Paenibacillus species) were observed to completely break down filter paper within 72 and 96 h incubation, respectively, under limited oxygen condition. Thus E2 and E4 were selected for the FP assay for quantification of total cellulase activities. It was shown that 1% (w/v) CMC could induce total cellulase activities of 1652.2±61.5 and 1456.5±30.7 μM of glucose equivalents for E2 and E4, respectively. CMC could induce cellulase activities 8 and 5.6X greater than FP, therefore CMC represented a good inducing substrate for cellulase production. The genus Paenibacillus are known to contain some excellent cellulase producing strains, E2 and E4 displayed superior cellulase activities and represent excellent candidates for further cellulase analysis and characterization.