Xylanase production by Trichoderma reesei Rut C-30 grown on L-arabinose-rich plant hydrolysates

The suitability of L-arabinose-rich plant hydrolysates as carbon sources and inducers of xylanase production in Trichoderma reesei Rut C-30 was tested. Significantly higher xylanase activities were obtained in cultures on oat husk and sugar beet pulp hydrolysates than on lactose. In batch culture with oat husk hydrolysate and lactose, the xylanase activity was about 9 times higher ( approximately 510 IU/ml) than in lactose ( approximately 60 IU/ml). Even higher xylanase activity ( approximately 630 IU/ml) was obtained when the batch cultivations were done on sugar beet pulp hydrolysate and lactose. In a fed-batch culture using oat husk hydrolysate-lactose the xylanase activity was as high as 1350 IU/ml in 4 days. The cellulase production clearly decreased when T. reesei was cultured on both hydrolysates compared to the cultivation on lactose. Moreover, the relative amounts of the xylanases I-III were similar regardless the used carbon source.     

Evaluation of culture conditions for cellulase production by two Trichoderma reesei mutants under solid-state fermentation conditions

Response surface methodology (RSM) was used to evaluate the effects of fermentation parameters for cellulase production by Trichoderma reesei QM9414 and T. reesei MCG77 in solid-state fermentation using rice bran as substrate. Initial pH, moisture content and temperature were optimized using filter paper activity (FPA) as response. Statistical analysis of the results for T. reesei QM9414 showed that only moisture content had significant effect on cellulase activity and had a linear effect on enzyme activity (maximum enzyme activities were obtained at 70% moisture content). The results for T. reesei MCG77 showed that temperature and moisture content were the most significant parameters for cellulase activity. The optimum cellulase production was in the temperature range of 25-30 degrees C and moisture content between 55% and 70%. After the optimization, the FPA in T. reesei MCG77 was increased by 2.5 folds compared to that of T. reesei QM9414.     

The influence of culture conditions on mycelial structure and cellulase production by Trichoderma reesei Rut C-30

The morphology of Trichoderma reesei Rut C-30, during submerged cultivations in shake flask, was examined. The influence of the size inoculum and the composition of the fermentation medium on the morphology and cellulase production was studied. Different inoculum sizes were studied but the significative change in fungus morphology was observed for spores concentration between 10(5) and 10(7) spores/ml (i.e. 10(2) and 10(4) spores/ml in pre-culture medium). In the medium without Tween 80, at low inoculum size, the majority of the pellets were large and well individualized, in contrast, at higher inoculation densities small flocs were obtained, with higher production of soluble protein and higher filter paper activity. It was found that the average pellet size seems to be inversely proportional to the inoculum size. Medium composition, namely Tween 80, also influences the morphology of T. reesei Rut C-30 and enzyme production. The presence of Tween 80 in fermentation medium inhibited the pellet formation of this strain.     

High-yield cellulase production by Trichoderma reesei ZU-02 on corn cob residue

Cellulase production using corn cob residue from xylose manufacture as substrate was carried out by Trichoderma reesei ZU-02. It was found that on the same cellulose basis, the cellulase activity and yield produced on corn cob residue were comparable with that on purified cellulose. Under batch process, the optimum concentration of substrate was 40 g/l and the optimum C/N ratio was 8.0. In 500 ml flasks, cellulase activity reached 5.25 IU/ml (213.4 IU/g cellulose) after seven days' cultivation. In a 30 m(3) stirred fermenter for large scale production, cellulase and cellobiase activity were 5.48 IU/ml (222.8 IU/g cellulase) and 0.25 IU/ml (10.2 IU/g cellulose), respectively, after four days' submerged fermentation. The produced cellulase could effectively hydrolyze the corn cob residue, and the yield of enzymatic hydrolysis reached 90.4% on 10% corn cob residue (w/v) when the cellulase dosage was 20 IU/g substrate.     

里氏木霉GH61家族糖苷酶的高效表达及酶学特性研究

【目的】GH61家族糖苷水解酶具有葡聚糖氧化酶活性,通过对葡聚糖链的随机氧化而破坏木质纤维素的结晶结构,从而使木质纤维素容易被纤维素酶降解。重组表达、纯化获得里氏木霉的GH61家族糖苷水解酶(TrGH61,原名为EGⅣ),并研究其在纤维素酶水解木质纤维素中的作用。【方法】通过Overlap PCR将里氏木霉丙酮酸脱羧酶的启动子、纤维二糖水解酶cbh1的信号肽、EGⅣ基因和PDC终止子依次连接构建了里氏木霉的表达盒,通过该表达盒使TrGH61蛋白基因整合到里氏木霉的基因组DNA上进行同源表达。研究表达产物TrGH61的水解活性、与纤维素酶水解协同效应,以及TrGH61作为金属氧化酶的特性研究。【结果】在PDC启动子的作用下,TrGH61得到高效表达,摇瓶培养的表达量达到2.33 g/L。TrGH61有微弱的内切葡萄糖苷酶活性,比活力为0.02 IU/mg,但能显著提高纤维素酶水解稻草粉的活性,协同度最高可达1.998。低浓度的金属离子Cu2+、Co2+和还原性电子供体还原型谷胱甘肽、L-抗坏血酸、焦性没食子酸均能显著促进其水解效应。TrGH61能够降低稻草粉纤维素聚合度和结晶度。【结论】通过PDC启动子可以实现TrGH61蛋白高效组成型表达,TrGH61作为纤维素酶活性促进因子,通过破坏纤维素结晶结构作用机制协同增强纤维素酶水解木质纤维素。     

敲除组蛋白去乙酰化酶基因hdac对里氏木霉纤维素酶表达的调控作用

[背景]里氏木霉(Trichoderma reesei)是木霉属中产纤维素酶最具代表性的真菌之一,表观遗传调控是不涉及DNA序列变化的可遗传变化,组蛋白去乙酰化是其中一种。组蛋白去乙酰化酶(histone deacetylase,HDAC)负责脱乙酰化,敲除去乙酰化酶基因可引起菌株孢子、菌丝及纤维素酶活性等的一系列改变。[目的]通过敲除里氏木霉组蛋白去乙酰化酶基因(histone deacetylase,hdac)建立了里氏木霉hdac缺失突变株(T.reesei△hdac),以研究对纤维素酶基因表达的调控作用。[方法]利用Split-Maker技术构建了组蛋白去乙酰化酶基因敲除表达盒,并转化了里氏木霉T.reesei QM9414。经PCR及Southern blotting验证正确后,对突变体T.reesei△hdac连续7 d检测滤纸酶活(filter paper activity,AFP)、羧甲基纤维素钠酶活(carboxymethyl cellulase activity,CMCA),利用RT-qPCR检测纤维素酶及其相关基因cbh1、egl1和xyr1的表达。[结果]突变体T.reesei△hdac两种酶活力均显著高于出发菌株,分别高出8.00、30.00 IU/mL。突变体T.reesei△hdac纤维素酶及其相关基因cbh1、egl1和xyr1的转录水平分别为出发菌株T.reesei QM9414的6.50、6.01和4.51倍。[结论]里氏木霉中纤维素酶的基因表达明显受到组蛋白去乙酰化酶基因(hdac)的调控,这为研究里氏木霉表观遗传调控对纤维素酶的影响提供了新的证据。     

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。     

黑曲霉与里氏木霉固态混合发酵产β-葡萄糖苷酶

对黑曲霉NL02与里氏木霉RUT-C30固态混合发酵产β-葡萄糖苷酶的发酵培养基进行优化,研究培养基含水率、C源、N源、接种量、温度和2种菌种不同延长接种时间与接种比例对β-葡萄糖苷酶活力的影响。研究表明：麸皮17.5 g、玉米芯7.5 g、（NH4）2SO4 0.40 g、尿素0.37 g、黑曲霉孢子接入量为107个接种到250 mL三角瓶中,温度30 ℃、摇床转速100 r/min时,里氏木霉以105个孢子与黑曲霉同时接入,每克干曲所得β-葡萄糖苷酶的活力为132.45 IU,较黑曲霉单独培养时的104.35 IU提高了26.94%。     

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。     

Cellulase production and activity by Trichoderma sp. A-001

Trichoderma species A-001 was grown on various carbon and nitrogen sources supplemented with surfactants on shake cultures. Although the degree of growth was variable, the organism grew on all carbon substrates. Large amounts of the cellulase enzyme components were released into the growth medium during growth on filter paper. In the filter paper containing medium, the organism produced 167 U/ml of carboxymethylcellulase (CMCase), 18 U/ml of filter paper activity (FPase) and 49 U/ml of beta-glucosidase activity (BGDase). Wheat straw and grass were better carbon sources than cotton or barley husks. Nitrogen in the form of KNO₃ was better than NH₄Cl or urea in facilitating the production of cellulase. Of the surfactants used, Tween-80 at 0.2% concentration in the medium increased the production of cellulase several-fold. All the cellulase components were optimally active in the assay at pH 5.5 and 60°C. CMCase and FPase lost 20–33% of their activities when kept at 60°C for 4 h before assaying. On the other hand, BGDase was moderately stable; it lost only 37% of its activity when maintained at 70°C for 4 h.     

应用固定化里氏木霉糖化玉米秆纤维素的研究

采用多孔聚酯材料固定里氏木霉（TrichodermareeseiRutC30）菌丝细胞,将固定化细胞在生长限制条件下重复分批培养,使纤维酶的合成与玉米秆纤维原料的酶解糖化耦合在一个反应器中同时进行。在30℃、初始pH4.8、摇瓶转速150r／min的条件下,连续重复进行12次分批培养试验。每批玉米秆用量为60g／L,培养周期4．5d,共54d。培养液中含滤纸酶活力平均为0.70IU／ml,还原糖26．41g／L,糖化率达到理论值的89.11％。固定化菌丝形态正常,菌量保持在10g／L左右。在间歇添料条件下,玉米秆原料的总量可提高到120g／L,7d后还原糖浓度达52.81g／L,糖化率为89．20％。利用固定化里氏木霉同时产酶和糖化植物纤维原料,工艺简便、成本低廉、易于连续自动化操作,是一条有效利用可再生纤维素资源的新途径。     

Secretome characteristics of pelletized Trichoderma reesei and cellulase production

Trichoderma reesei is an important cellulase producer and its secondary mycelial phase is responsible for cellulase expression and secretion in submerged fermentation. Little is known regarding the effects of fungal morphology on cellulase production by Trichoderma sp. In this study we aimed to extend the understanding of cellulase production by T. reesei, especially correlating cellulase productivity with pellet morphology and with its secretome characteristics. We found that T. reesei was more likely to form pellets in malt extract broth than in potato dextrose broth. CaCO(3) helped in formation of fine pellets in malt extract broth. 10(9) spores/ml resulted in formation of pellets with the size of 0.13 ± 0.047 mm. LC/MS spectrometry analysis indicated that the secretomes from pellet was different from that of mycelial mat under the same fermentation conditions. Optimization tests showed that lactose, xylose and Pluronic F68 are important for efficient production of cellulases with FPU activity in the pellets fermentation. This is the first report on the artificial formation of pellets by Trichoderma sp. as well as correlation between physiological characteristic of the pellets and cellulase production by T. reesei. The findings from this study can be used for improvement of cellulase productivity.     

纤维素酶液体发酵最佳培养基的确定

用响应面法对里氏木霉WX—112液体发酵产纤维素酶的培养基进行了优化。首先用快速登高路径逼近最大产酶区域,然后根据快速登高法的实验结果进行响应面实验。运用逐步回归分析法,获得滤纸酶活与豆饼粉、麸皮、KH2PO4、微晶纤维素粉（Avicel）的最优回归方程,且分析了各因子间的交互效应。最后,通过岭脊分析确定了滤纸酶活达最大值10．53IU／mL时的最佳组合条件：豆饼粉3．18％、麸皮2．95％、KH2PO4 0．25％、Avicel 3．79％。     

Effect of different carbon sources on cellulase production by Hypocrea jecorina (Trichoderma reesei) strains

The ascomycete Hypocrea jecorina, an industrial (hemi)cellulase producer, can efficiently degrade plant polysaccharides. At present, the biology underlying cellulase hyperproduction of T. reesei, and the conditions for the enzyme induction, are not completely understood. In the current study, three different strains of T. reesei, including QM6a (wild-type), and mutants QM9414 and RUT-C30, were grown on 7 soluble and 7 insoluble carbon sources, with the later group including 4 pure polysaccharides and 3 lignocelluloses. Time course experiments showed that maximum cellulase activity of QM6a and QM9414 strains, for the majority of tested carbon sources, occurred at 120 hrs, while RUT-C30 had the greatest cellulase activity around 72 hrs. Maximum cellulase production was observed to be 0.035, 0.42 and 0.33 µmol glucose equivalents using microcrystalline celluloses for QM6a, QM9414, and RUTC-30, respectively. Increased cellulase production was positively correlated in QM9414 and negatively correlated in RUT-C30 with ability to grow on microcrystalline cellulose.     

里氏木霉与黑曲霉混合发酵产纤维素酶及其水解特性

研究了利用里氏木霉和黑曲霉混合培养产纤维素酶,以黑曲霉孢子悬浮液的不同活化浓度及不同的活化时间来寻找2个菌种发挥最大协同作用的结合点以及所产纤维素酶的水解特性。以里氏木霉单一培养和黑曲霉单一培养为参照进行对比研究。底物为农林废弃物之一的玉米秸秆,经过蒸气爆破预处理后,用作产酶C源。结果表明:黑曲霉孢子悬浮液活化浓度为10个/mL,活化时间为12 h时,滤纸酶比酶活最高,达3.32 U/mL,高于里氏木霉单一培养的2.25 U/mL,β-葡萄糖苷酶比酶活达1.32 U/mL,高于里氏木霉单一培养的0.57 U/mL。为进一步验证混合菌产纤维素酶的水解效果,利用混合菌产纤维酶的酶液及里氏木霉产纤维素酶的酶液进行酶水解实验,当酶用量为20 U/g绝干纤维素,底物质量浓度为100 g/L条件下水解48 h,混合菌所产酶液酶解得率达70.00%,高于里氏木霉所产酶液的酶解得率63.05%。实验表明里氏木霉与黑曲霉混合培养产酶是可行的,并优于单一菌种培养。     

Optimization of ellagic acid production from ellagitannins by co-culture and correlation between its yield and activities of relevant enzymes

Aspergillus oryzae was co-cultured with Trichoderma reesei using acorn cups extract containing up to 62% ellagitannins as substrate to produce ellagic acid with relatively high levels of ellagitannin acyl hydrolase, cellulase and xylanase. Ellagitannins concentration, initial pH, T. reesei and A. oryzae during the fermentation were identified as important process parameters effecting ellagic acid accumulation and the enzymes syntheses. These parameters were optimized by uniformity design to determine the optimum condition for ellagic acid production. Under optimum operational condition, ellagic acid yield could be arrived at 24%, when the fermentation run lasted 96h with an initial pH of 4.5, an ellagitannins concentration of 4gl(-1), T. reesei of 3ml and A. oryzae of 3ml. Meanwhile, it was found that the three enzymes activities correlated very well with ellagic acid yield, resulting in model with high coefficient of determination (R(2)=0.98). The results indicate that the mixed culture of T. reesei and A. oryzae is an effective approach to produce an enzyme system of degrading ellagitannins for ellagic acid production.     

里氏木霉GXC木聚糖酶的研究*

研究了里氏木霉GXC产木聚糖酶的条件和酶学性质。结果表明,适宜产酶碳源为乳糖、甘露糖、棉子糖、木聚糖和麸皮,氮源为牛肉膏和酵母膏;产酶的最适初始pH为4.0,30℃培养60h。对以麸皮为碳源的培养液进行纯化的酶特性研究表明,木聚糖酶的最适反应温度为50℃,pH为5.5,该酶在pH5.0(7.0和40℃以下相对稳定。Fe3+和Mn2+对木聚糖酶有较大的促进作用,Cu～2+、Fe～2+和Ca～2+ 具有抑制作用。     

Production, purification, and characterization of lipase from thermophilic and alkaliphilic Bacillus coagulans BTS-3

A thermophilic isolate Bacillus coagulans BTS-3 produced an extracellular alkaline lipase, the production of which was substantially enhanced when the type of carbon source, nitrogen source, and the initial pH of culture medium were consecutively optimized. Lipase activity 1.16 U/ml of culture medium was obtained in 48 h at 55 degrees C and pH 8.5 with refined mustard oil as carbon source and a combination of peptone and yeast extract (1:1) as nitrogen sources. The enzyme was purified 40-fold to homogeneity by ammonium sulfate precipitation and DEAE-Sepharose column chromatography. Its molecular weight was 31 kDa on SDS-PAGE. The enzyme showed maximum activity at 55 degrees C and pH 8.5, and was stable between pH 8.0 and 10.5 and at temperatures up to 70 degrees C. The enzyme was found to be inhibited by Al3+, Co2+, Mn2+, and Zn2+ ions while K+, Fe3+, Hg2+, and Mg2+ ions enhanced the enzyme activity; Na+ ions have no effect on enzyme activity. The purified lipase showed a variable specificity/hydrolytic activity towards various 4-nitrophenyl esters.     

Increased endoplasmic reticulum content of a mutant of Trichoderma reesei (RUT-C30) in relation to cellulase synthesis

The structure and content of endoplasmic reticulum (ER) were studied in the shake cultures of two strains of Trichoderma reesei, one wild type (QM6a) and the other a cellulase (EC 3.2.1.4) hyper-producing and catabolite repression resistant mutant (RUT-C30). The results of quantitative electron microscopic and biochemical assays were correlated. At the stage of growth when cellulase secretion was high the ER in RUT-C30 cells was highly developed and more abundant than the ER in QM6a cells. A process regulating ER biogenesis may have been deactivated by mutation in RUT-C30 cells and thus the potential for extracellular enzyme synthesis and secretion has been enhanced.