南海局部海洋沉积物中真菌多样性及产酶活性

【目的】从11份南海海洋沉积物中分离耐盐真菌,并对其物种多样性及产酶活性进行研究。【方法】利用平板涂布法分离耐盐真菌,基于形态学和ITS序列的系统进化研究耐盐真菌多样性;利用6种筛选培养基对耐盐真菌进行产酶活性筛选。【结果】分离得到1689株耐盐真菌,共41个形态种。形态学和ITS序列分析表明,这些真菌归于15个属,其中曲霉属(Aspergillus)和青霉属(Penicillium)为优势菌群。对已测序的41株耐盐真菌的产酶活性研究表明,8株产纤维素酶,9株产淀粉酶,5株产复合酶,16株产蛋白酶,3株产脂肪酶,未发现产壳聚糖酶的菌株,其中Acrodontium sp.8m和Aspergillus sp.86b产复合酶的活性相对较高,而Penicillium sp.41m产蛋白酶的活性相对较高。【结论】南海局部海洋沉积物中耐盐真菌丰富,多数菌株具有产酶活性。     

不同真菌纤维素酶一些生物化学性质的比较

比较了属于6个属,即青霉(Penicillium)、曲霉(Aspergillus)、木霉(Trichoderma)、漆斑菌(Myrothecium)、镰孢霉(Fusarium)和腐质霉(Humicola),总计9株真菌在麦麸液体培养基中所产纤维素酶的一些生物化学性质。此外,还比较了这9株真菌在麦麸固体培养基上所产纤维素酶的活力以及对脱脂棉、水曲柳木屑、水曲柳木粉、废报纸和玉米芯糠醛废渣的糖化能力。     

不同培养基对富集筛选脱色真菌菌群的效果比较

利用活性黑RB5和活性红M-3BE作为筛选因子,从染料脱色效果、菌群产酶能力以及菌群中的微生物丰富度三方面比较了酵母培养基A、产漆酶真菌培养基B和白腐真菌培养基D在脱色真菌富集筛选方面的效果。富集筛选结果共得到11组具有明显脱色效果的真菌菌群,其中5组来自于D培养基,A和B培养基各获得3组。来自A培养基的3组菌群显示出最好的脱色效果和最大的菌群丰富度,对50mg/L的活性红M-3BE和酸性红A溶液的脱色率最高达到99.53%和97.42%,从中分离到了16株真菌,初步鉴定分属于水霉科、曲霉科(红曲霉属)、节壶菌科和白粉菌科;而B和D培养基中所获得的菌群脱色效果稍差,从中仅得到3株和2株真菌,初步鉴定属于酵母和青霉。A、B两种培养基在各种染料存在下更易产生木质素过氧化物酶,产漆酶能力较弱,而D培养基产漆酶活性较高。     

海鞘真菌的形态鉴定及其代谢产物抗菌活性研究

为寻找产生新颖抗菌活性物质的海洋真菌,以海鞘为原料,采用平板涂布法分离出14株真菌,并对其进行形态学鉴定和抗菌活性的初筛。结果显示:从海鞘中共分离出14株真菌,根据形态观察初步鉴定其分属青霉属(Penicillium sp.)、曲霉属(Aspergillus sp.)、枝孢属(Cladosporium sp.)、麦轴梗霉属(Tritirachium sp.)等4个属。14株菌中有抗菌活性的共11株,优选出抗菌活性较强抗菌谱较广的4株菌分别是Asc-2-4(青霉属)、Asc-2-12(青霉属)、Asc-1-1(青霉属)和Asc-2-1(曲霉属)。青霉属菌株Asc-2-12的抑菌活性最明显,抑菌圈直径最大达到21.91 mm。海鞘共附生真菌是寻找抗菌物质的一个资源,其中的3株青霉属和1株曲霉属的抗菌活性有深入研究的价值。     

从甘蔗渣泥中分离降解木质素的真菌

采用涂布平板法从甘蔗渣泥中共分离得到5株优势真菌,分别为头孢霉属（Cephalosporium）、曲霉属（Asper-gillus）、木霉属（Trichoderma）、毛霉属（Mucor）和地霉属（Geotrichum）。对分离得到的真菌进行产酶特性的研究。采用两种不同的产酶培养基（培养基Ⅴ,培养基Ⅵ）,这两种培养基的无机盐成分、含量相同,它们的主要差别为碳源不同。培养基Ⅴ的主要碳源为葡萄溏,培养基Ⅵ的主要碳源为甘蔗渣（过60目筛）。结果表明：分离得到的真菌在这两种培养基中的产酶酶活力相差很大,最优菌株为木霉属Q-3,在培养基Ⅵ中产酶酶活最高,赖锰过氧化物酶和漆酶最高活性分别为4．2245U／mL、1．2525U／mL,相对应的纤维素酶活性较低。     

不同培养基对富集筛选脱色真菌菌群的效果比较

利用活性黑RB5和活性红M-3BE作为筛选因子,从染料脱色效果、菌群产酶能力以及菌群中的微生物丰富度三方面比较了酵母培养基A、产漆酶真菌培养基B和白腐真菌培养基D在脱色真菌富集筛选方面的效果。富集筛选结果共得到11组具有明显脱色效果的真菌菌群,其中5组来自于D培养基,A和B培养基各获得3组。来自A培养基的3组菌群显示出最好的脱色效果和最大的菌群丰富度,对50mg/L的活性红M-3BE和酸性红A溶液的脱色率最高达到99.53%和97.42%,从中分离到了16株真菌,初步鉴定分属于水霉科、曲霉科（红曲霉属）、节壶菌科和白粉菌科;而B和D培养基中所获得的菌群脱色效果稍差,从中仅得到3株和2株真菌,初步鉴定属于酵母和青霉。A、B两种培养基在各种染料存在下更易产生木质素过氧化物酶,产漆酶能力较弱,而D培养基产漆酶活性较高。     

不同培养基对富集筛选脱色真菌菌群的效果比较

利用活性黑RB5和活性红M-3BE作为筛选因子，从染料脱色效果、菌群产酶能力以及菌群中的微生物丰富度三方面比较了酵母培养基A、产漆酶真菌培养基B和白腐真菌培养基D在脱色真菌富集筛选方面的效果。富集筛选结果共得到11组具有明显脱色效果的真菌菌群，其中5组来自于D培养基，A和B培养基各获得3组。来自A培养基的3组菌群显示出最好的脱色效果和最大的菌群丰富度，对50mg/L的活性红M-3BE和酸性红A溶液的脱色率最高达到99.53%和97.42%，从中分离到了16株真菌，初步鉴定分属于水霉科、曲霉科（红曲霉属）、节壶菌科和白粉菌科；而B和D培养基中所获得的菌群脱色效果稍差，从中仅得到3株和2株真菌，初步鉴定属于酵母和青霉。A、B两种培养基在各种染料存在下更易产生木质素过氧化物酶，产漆酶能力较弱，而D培养基产漆酶活性较高。     

核辐射污染区真菌的分布及多样性研究

为揭示中国辐射污染区真菌多样性,了解辐射污染对辐射区土壤中真菌群落分布的影响。以中国辐射污染区某污染源为圆心,在其半径50 km范围内采集各类样品54份,依据其辐射剂量合并为高、中、低三组9份样品,采用不同处理方法及多种培养基对辐射区内真菌进行了分离筛选。共分离出真菌209株,通过形态学观察和鉴定,确定其分属于交链孢霉(Alternaria)、离蠕孢属(Bipolaris)、茎点霉属(Phoma)、Westerdykella、短梗霉属(Aureobasidium)、曲霉属(Aspergillus)、青霉属(Penicillium)、根霉属(Rhizopus)、Kernia、毛壳属(Chaetomium)、葡萄穗霉属(Stachybotrys)、座孢霉属(Myrothecium)、镰孢属(Fusarium)、小克银汉霉属(Cunninghamella)、红酵母属(Rhodotorula)、隐球酵母属(Cryptococcus),共计16个属,其中曲霉属、隐球酵母属、青霉属和镰孢霉属菌株为主要菌群,分别占分离株的22.5%、19.1%、17.2%和11.0%。同时发现,辐射污染区真菌的群落丰富度及多样性明显受辐射污染程度的影响,各类菌株的分布呈现一定的分布规律。本研究首次分析了中国辐射污染区真菌的分布和多样性,并收集了大量辐射污染区真菌资源,为进一步研究该区域真菌耐辐射特性及探讨真菌耐辐射机理提供参考。     

耐受高浓度甲醛真菌的筛选及鉴定

生活环境中的甲醛污染对人体健康存在着严重威胁,利用微生物分解甲醛的相关研究备受关注。通过筛选,获得10株耐受甲醛真菌,其耐受的甲醛质量浓度为1.2～1.9 g/L。通过形态鉴定,10株真菌分别隶属于曲霉属Penicillium和青霉属Aspergillus。扩增耐受能力最强的4株真菌的ITS和β-tubulin部分序列,构建系统发育树,确定3株青霉(HFTS2、HFTS8和HFTS10)同属于产红青霉P. rubens,1株曲霉(HFTS5)为众多曲霉A. creber。本研究首次发现产红青霉和众多曲霉具有高浓度甲醛耐受性,为进一步探索真菌甲醛代谢和研发工程真菌奠定基础。     

湛江沿海潮间带产胞外纤溶活性酶类海洋真菌的生物多样性分析

【目的】研究湛江沿海硇洲岛和徐闻珊瑚礁自然保护区潮间带产胞外纤溶酶样酶和纤溶酶原激活物海洋真菌的生物多样性,为发掘新型溶栓药物奠定基础。【方法】采用马铃薯葡萄糖琼脂(PDA)和酵母膏蛋白胨葡萄糖(YPD)培养基分离培养海洋真菌,采用真菌r DNA转录间隔区1-5.8S r DNA-转录间隔区2(ITS1-5.8S-ITS2)片段的序列分析及其系统进化树构建的方法鉴定分离培养的海洋真菌,采用脱脂牛奶马铃薯葡萄糖琼脂(SM-PDA)培养基培养法筛选产胞外蛋白酶的海洋真菌,采用海水纤维蛋白马铃薯葡萄糖琼脂(FN-PDA)培养基培养法筛选产胞外纤溶酶样酶和/或纤溶酶原激活物的海洋真菌。【结果】从湛江沿海的硇洲岛和徐闻珊瑚礁自然保护区潮间带分离、培养和鉴定了海洋真菌446株,含真菌的98个种,分布于真菌域子囊菌门(Ascomycota)和担子菌门(Basidiomycota)的6个纲、18个目、46个科、65个属;其中产胞外蛋白酶的海洋真菌有265株,61个种,分布于41个属;产胞外纤溶酶样酶的海洋真菌有67株,22个种,分布于14个属;产胞外纤溶酶原激活物的海洋真菌有84株,23种,分布于13个属;优势属为曲霉属(Aspergillus),其次为青霉属(Penicillium)。【结论】湛江沿海潮间带可分离培养的产胞外纤溶酶样酶和纤溶酶原激活物的海洋真菌物种丰富多样,是发掘新型溶栓药的丰富资源。     

Production of xylanase under solid-state fermentation by <Emphasis Type="Italic">Aspergillus tubingensis</Emphasis> JP-1 and its application

The production of extracellular xylanase by a locally isolated strain of Aspergillus tubingensis JP-1 was studied under solid-state fermentation. Among the various agro residues used wheat straw was found to be the best for high yield of xylanase with poor cellulase production. The influence of various parameters such as initial pH, moisture, moistening agents, nitrogen sources, additives, surfactants and pretreatment of substrates were investigated. The production of the xylanase reached a peak in 8 days using untreated wheat straw with modified MS medium, pH 6.0 at 1:5 moisture level at 30 °C. Under optimized conditions yield as high as 6,887 ± 16 U/g of untreated wheat straw was achieved. Crude xylanase was used for enzymatic saccharification of agro-residues like wheat straw, rice bran, wheat bran, sugarcane bagasse and industrial paper pulp. Dilute alkali (1 N NaOH) and acid (1 N H₂SO₄) pretreatment were found to be beneficial for the efficient enzymatic hydrolysis of wheat straw. Dilute alkali and acid-pretreated wheat straw yielded 688 and 543 mg/g reducing sugar, respectively. Yield of 726 mg/g reducing sugar was obtained from paper pulp after 48 h of incubation.     

产木聚糖酶厌氧真菌菌株筛选及产酶培养条件研究*

从12株分离自反刍动物瘤胃及粪样的厌氧真菌中筛选到一株木聚糖酶高产菌,编号为A4,初步鉴定为Neocallimastix属菌。以稻草秸、玉米秸、花生秸、滤纸片段为发酵底物,经39℃厌氧培养,A4菌产生的木聚糖酶活分别为14.31U/mL、11.39U/mL、6.99U/mL和13.38U/mL。对A4菌产生木聚糖酶的条件进行优化,结果发现,培养基中无细胞瘤胃液浓度对A4菌产生的木聚糖酶活无显著影响;但酵母膏浓度从1.0g/L降至0.5g/L后,A4菌产生的木聚糖酶活显著下降(P<0.05)。     

Application of enzymes in producing bleached pulp from wheat straw

Crude enzymes produced by different strains were used in the production of bleached wheat straw pulp. Pre-treatment with enzymes from Penicillium A10 and Aspergillus L22 at a xylanase dosage of 4 IU/g prior to pulping decreased pulp kappa number by 6.29% and 12.07% respectively as compared to the control. High cellulase activity in crude enzymes has a negative influence on pulping. Xylanase pre-bleaching reduced chlorine charge by 20-30%, or increased final brightness by approximately 4-5% ISO, and improved the pulp strength properties. Xylanase could substitute for alkali extraction in CEH sequence, and be used for treating chemical-bleached pulp, which resulted in higher strength properties for bleached pulp. Modification of bleached pulp with enzymes of 3 IU/g (on xylanase) increased pulp brightness and breaking length by 3-6% ISO and 160-790 m respectively, and decreased post color number and beating degree of pulp by 29-36% and 2.5-5.5 degrees SR respectively, as compared to the original pulp.     

Isolation,Identification and Screening of Manganese Solubilizing Fungi From Low-Grade Manganese Ore Deposits

The present investigation reports the isolation, molecular identification and screening of manganese (Mn) solubilizing fungal strains from low-grade Mn mine tailings. Six morphologically distinct Mn solubilizing fungal strains were isolated on MnO₂-supplemented agar plates with Mn concentration of 0.1% (w/v). The biochemical characterization of the isolated fungal strains was carried out. The molecular identification by internal transcribed spacer (ITS) sequencing identified the strains as Aspergillus terreus, Aspergillus oryzae, Penicillium sp., Penicillium sp., Penicillium daleae and Penicillium sp. with GenBank accession numbers KP309809, KP309810, KP309811, KP309812, KP309813 and KP309814, respectively. The ability of the isolated fungal strains to tolerate and solubilize Mn was investigated by subculturing them on Mn-supplemented plates with concentration ranging from 0.1 to 0.5% (w/v). Mn solubilizing ability of the fungal isolates is possibly due to the mycelia production of biogenerated organic acids such as oxalic acid, citric acid, maleic acid and gluconic acid as revealed by ion chromatography. Our investigation signifies the role of fungi in biotransformation of insoluble Mn oxide.     

Utilization of agro-industrial waste for xylanase production by Aspergillus foetidus MTCC 4898 under solid state fermentation and its application in saccharification

Xylanase production by Aspergillus foetidus MTCC 4898 was carried out under solid state fermentation using wheat bran and anaerobically treated distillery spent wash. Response surface methodology involving Box–Behnken design was employed for optimizing xylanase production. The interactions among various fermentation parameters viz. moisture to substrate ratio, inoculum size, initial pH, effluent concentration and incubation time were investigated and modeled. The predicted xylanase activity under optimized parameters was 8200–8400 U/g and validated xylanase activity was 8450 U/g with very poor cellulase activity. Crude xylanase was used for enzymatic saccharification of agroresidues like wheat straw, rice straw and corncobs. Dilute NaOH and ammonia pretreatments were found to be beneficial for the efficient enzymatic hydrolysis of all the three substrates. Dilute NaOH pretreated wheat straw, rice straw and corncobs yielded 4, 4.2, 4.6 g/l reducing sugars, respectively whereas ammonia treated wheat straw, rice straw and corncobs yielded 4.9, 4.7, 4.6 g/l reducing sugars, respectively. The hydrolyzates were analysed by HPTLC. Xylose was found to be the major end product with traces of glucose in the enzymatic hydrolyzates of all the substrates.     

Extracellular xylanase production by Fusarium species in solid state fermentation

Fusarium sp. has been shown to be a promising organism for enhanced production of xylanases. In the present study, xylanase production by 21 Fusarium sp. isolates (8 Fusarium culmorum, 4 Fusarium solani, 6 Fusarium verticillioides and 3 Fusarium equiseti) was evaluated under solid state fermentation (SSF). The fungal isolate Fusarium solani SYRN7 was the best xylanase producer among the tested isolates. The effects of some agriculture wastes (like wheat straw, wheat bran, beet pulp and cotton seed cake) and incubation period on xylanase production by F. solani were optimized. High xylanase production (1465.8 U/g) was observed in wheat bran after 96 h of incubation. Optimum pH and temperature for xylanase activity were found to be 5 and 50 degrees C, respectively.     

Production,partial characterization and use of fungal cellulase-free xylanases in pulp bleaching

Seven fungal strains were screened for their ability to produce cellulase-free xylanases that could be used in pretreatment of sulphite pulp prior to bleaching. The potential xylanase producers were subjected to shake flask fermentations using four different carbon sources: wheat bran, corn cobs, oat spelts xylan and bleach plant effluent. When grown on corn cobs, Aspergillus foetidus (ATCC 14916) produced significant levels of xylanase (547.4 U/ml), accompanied however by 6.6 U/ml of cellulase activity. Two other strains, Aspergillus oryzae (NRRL 1808) and Gliocladium viride (CBS 658.70), produced high yields of cellulase-free xylanase on oat spelts xylan. The crude enzymes of these two isolates were characterized with respect to pH and temperature optima and stability in order to standardize the optimum conditions for their use on pulp. Although the two xylanases differed in their abilities to remove reducing sugars from pulp, their biobleaching abilities, when assessed in hydrogen peroxide delignification of pulp, were very similar: both of them increased brightness by 1.4 points and removed 7% of hemicellulose from pulp.     

A potential resource for bioconversion of domestic wastewater sludge

Twenty seven filamentous fungal strains representing five genera; Aspergillus, Penicillium, Trichoderma, Myriodontium and Pleurotus were isolated from four sources; domestic wastewater sludge cake (SC) from IWK (Indah Water Konsortium) wastewater treatment plant, palm oil mill effluent compost from Sri Ulu palm Oil Processing Mill, compost of plant debris, and fungal fruiting bodies from a rotten wood stump. Thirty-three strains/isolates were tested for their ability to convert domestic wastewater sludge into compost by assessing biomass production and growth rate on sludge enriched media. The strains/isolates Aspergillus niger, SS-T2008, WW-P1003 and RW-P1 512 produced the highest dry biomass at higher sludge supplemented culture media from their respective group (Aspergillus, Trichoderma, Penicillium and Basidiomycetes, respectively). This implied these strains are better adapted for growth at higher sludge rich substances, and subsequently may be efficient in bioconversion/biodegradation of sludge. The fungi isolated from ecological closely related sources were more amendable to adaptation in a sludge rich culture media.     

Production of Xylanase of Bacillus coagulans and its bleaching potential

Summary The production of xylanase from Bacillus coagulans has been studied with respect to the environmental parameters, the carbon source and the concentration of carbon source at the shake flask level. Among the various carbon sources used, wheat straw powder favoured higher enzyme production. Xylan isolated from wheat straw gave higher enzyme production as compared to the birchwood xylan. Maximum enzyme activity of 165 IU/ml was obtained with 2% wheat straw xylan in a shake flask study. Improvement of xylanase production was achieved by increasing the wheat straw powder concentration up to 3%. Enzyme has optimum activity at a temperature of 55 °C and pH of 7. The concentrated crude enzyme was found to reduce the kappa number of enzyme-treated eucalyptus pulp by␣5.45% with a marginal increase in the CED viscosity of the enzyme treated pulp as compared to the non-enzymatically treated pulp.     

Characterization of a cellulase-free, neutral xylanase from Thermomyces lanuginosus CBS 288.54 and its biobleaching effect on wheat straw pulp

A xylanase purified from the thermophilic fungus Thermomyces lanuginosus CBS 288.54 was characterized and its potential application in wheat straw pulp biobleaching was evaluated. Xylanase was purified 33.6-fold to homogeneity with a recovery yield of 21.5%. It appeared as a single protein band on SDS-PAGE gel with a molecular mass of approx. 26.2 kDa. The purified xylanase had a neutral optimum pH ranging from pH 7.0 to pH 7.5, and it was also stable over pH 6.5-10.0. The optimal temperature of the xylanase was 70-75 degrees C and it was stable up to 65 degrees C. The purified xylanase was found to be not glycosylated. The xylanase was highly specific towards xylan, but did not exhibit other enzyme activity. Apparent Km values of the xylanase for birchwood, beechwood, soluble oat-spelt and insoluble oat-spelt xylans were 4.0, 4.7, 2.0 and 23.4 mg ml-1, respectively. The potential application of the xylanase was further evaluated in biobleaching of wheat straw pulp. The brightness of bleached pulps from the xylanase pretreated wheat straw pulp was 1.8-7.79% ISO higher than that of the control, and showed slightly lower tensile index and breaking length than the control. Although chlorine consumption was reduced by 28.3% during bleaching, the xylanase pretreated pulp (15 U g-1 pulp) still maintained its brightness at the control level. Besides, pretreatment of pulp with the xylanase was also effective at an alkaline pH as high as pH 10.0.