Regulation of cellulase gene expression in the filamentous fungus Trichoderma reesei.

Basic features of regulation of expression of the genes encoding the cellulases of the filamentous fungus Trichoderma reesei QM9414, the genes cbh1 and cbh2 encoding cellobiohydrolases and the genes egl1, egl2 and egl5 encoding endoglucanases, were studied at the mRNA level. The cellulase genes were coordinately expressed under all conditions studied, with the steady-state mRNA levels of cbh1 being the highest. Solka floc cellulose and the disaccharide sophorose induced expression to almost the same level. Moderate expression was observed when cellobiose or lactose was used as the carbon source. It was found that glycerol and sorbitol do not promote expression but, unlike glucose, do not inhibit it either, because the addition of 1 to 2 mM sophorose to glycerol or sorbitol cultures provokes high cellulase expression levels. These carbon sources thus provide a useful means to study cellulase regulation without significantly affecting the growth of the fungus. RNA slot blot experiments showed that no expression could be observed on glucose-containing medium and that high glucose levels abolish the inducing effect of sophorose. The results clearly show that distinct and clear-cut mechanisms of induction and glucose repression regulate cellulase expression in an actively growing fungus. However, derepression of cellulase expression occurs without apparent addition of an inducer once glucose has been depleted from the medium. This expression seems not to arise simply from starvation, since the lack of carbon or nitrogen as such is not sufficient to trigger significant expression.     

Inhibition of Trichoderma reesei cellulase by sugars and solvents

Inhibition of Trichoderma reesei cellulase by sugars (glucose, delta-gluconolactone, and cellobiose) and solvents (ethanol, butanol, and acetone) was studied using cellulose azure. Glucose, cellobiose, ethanol, and butanol were noncompetitive inhibitors, delta-gluconolactone was a mixed inhibitor, and acetone was a noncompetitive activator. Converting cellobiose to glucose reduces the effective inhibitor binding constant by 6 times and converting cellobiose to ethanol reduces it by 16 times.     

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.     

Shear inactivation of cellulase of Trichoderma reesei

Inactivation of the cellulase of Trichoderma reesei (EC 3.2.1.4) by shear, is of sufficient magnitude to merit consideration in the design of equipment for the enzymatic hydrolysis of cellulose. The inac inactivation constant, k_d, is a function of the flow rate of the enzyme solution through a fine capillary tube. k_d increased slowly at low shear stress, and much more rapidly when the shear stress was greater than 15 dynes cm^?2.     

里氏木霉纤维素酶的分离纯化及酶学性质

通过(NH4)2SO4分级沉淀、HiPrep 26/10 Desalting凝胶色谱脱盐、Source 15 Q阴离子交换色谱技术,里氏木霉(Rut C-30)纤维素酶主要组分得以初步分开,再经过Source 15 S阳离子交换色谱、HiPrep Sephacryl S-100 HR凝胶过滤色谱、Superdex 75 PrepGrade凝胶过滤色谱进一步分离纯化,得到2个纯化的内切葡聚糖酶组分EGⅡ、EGⅠ和一个外切葡聚糖酶组分CBHⅠ;经过SDS-PAGE电泳鉴定为电泳纯,测得相对分子质量分别为5.22×104,5.62×104和6.90×104。EGⅡ的最适反应pH是5.6,最适反应温度为65℃;EGⅠ的最适反应pH是4.4,最适反应温度为55℃;以羧甲基纤维素(CMC)为底物时,EGⅠ、EGⅡ的米氏常数(Km)分别为2.20 mg/mL、3.38 mg/mL。CBHⅠ的最适反应pH是5.8,最适反应温度为60℃,以对硝基苯基-β-D-纤维二糖苷(PNPC)为底物时,米氏常数(Km)为0.12 mg/mL。     

ACEI of Trichoderma reesei is a repressor of cellulase and xylanase expression

We characterized the effect of deletion of the Trichoderma reesei (Hypocrea jecorina) ace1 gene encoding the novel cellulase regulator ACEI that was isolated based on its ability to bind to and activate in vivo in Saccharomyces cerevisiae the promoter of the main cellulase gene, cbh1. Deletion of ace1 resulted in an increase in the expression of all the main cellulase genes and two xylanase genes in sophorose- and cellulose-induced cultures, indicating that ACEI acts as a repressor of cellulase and xylanase expression. Growth of the strain with a deletion of the ace1 gene on different carbon sources was analyzed. On cellulose-based medium, on which cellulases are needed for growth, the Deltaace1 strain grew better than the host strain due to the increased cellulase production. On culture media containing sorbitol as the sole carbon source, the growth of the strain with a deletion of the ace1 gene was severely impaired, suggesting that ACEI regulates expression of other genes in addition to cellulase and xylanase genes. A strain with a deletion of the ace1 gene and with a deletion of the ace2 gene coding for the cellulase and xylanase activator ACEII expressed cellulases and xylanases similar to the Deltaace1 strain, indicating that yet another activator regulating cellulase and xylanase promoters was present.     

里氏木霉Trichoderma reesei产纤维素酶的发酵培养基碳氮源优化

研究C、N源对里氏木霉(Trichoderma reesei)生产纤维素酶的影响,采用单因素实验方法和中心复合方法对发酵培养基进行优化。单因素实验表明:黄豆饼粉、玉米芯、玉米浆对纤维素酶的影响显著。通过响应面优化,得到最优培养基C、N源的组成:黄豆饼粉32.21 g/L,玉米芯42.29 g/L,玉米浆4.45 g/L。优化条件下,摇瓶发酵7 d的比酶活达到(10.65±0.50)U/mL。     

Induction of cellulase formation in Trichoderma reesei by cellobiono-1,5-lacton

Induction of synthesis of cellulolytic enzymes in Trichoderma reesei QM 9414 by cellobiono-1,5-lactone (CBL) has been investigated in a replacement system lacking additional carbon source. CBL induced cellulase secretion optimally at pH 5 and a concentration of 70 g/ml. Higher concentrations lead to lower induction. De novo induction of cellulases was proven by the inhibitory effect of cycloheximide addition. Induction by CBL was shown to act synergistically on induction by sophorose, as it decreased the concentration of sophorose required for maximal induction. Maximal endo--1,4-glucanase activities induced by either sophorose or CBL were comparable. The CBL-induced cellulase system contained all the major cellulolytic enzymes of T. reesei, i.e. cellobiohydrolase I and II, and endoglucanase I, as shown by SDS-PAGE, Western blotting and detection with specific mono- and polyclonal antibodies. No differences were seen in the types of individual enzymes formed upon induction by either sophorose or CBL. No other hydrolytic enzymes appear to be induced by CBL (i.e. amylase, laminarinase, xylanase).Abbreviations SDS-PAGE polyacrylamide gel electrophoresis in the presence of sodium-dodecylsulfate - CBL cellobiono-1,5-lacton - CBH cellobiohydrolase - EG endoglucanase - IgG immunoglobulin G     

沉默里氏木霉组蛋白赖氨酸甲基转移酶基因对纤维素酶表达的影响

【背景】里氏木霉(Trichoderma reesei)是一种比其他真菌小很多的多细胞真核微生物,在工业上受到广泛应用,而里氏木霉QM9414是目前研究最多基因产纤维素酶丰富的突变菌株。【目的】构建里氏木霉中组蛋白赖氨酸甲基化酶(Histone Lysine Methyltransferase)基因hkmt的siRNA沉默载体和过表达载体来降低或者增强hkmt在里氏木霉QM9414中的表达量,以分析其对里氏木霉纤维素代谢的调控作用。【方法】根据里氏木霉hkmt序列设计siRNA沉默片段并用反转录的方法获得过表达hkmt片段。将沉默片段和过表达片段克隆至里氏木霉组成型表达载体中,构建沉默hkmt的载体和过表达hkmt的载体,并将其转化里氏木霉QM9414。通过荧光显微镜观察重组菌的菌丝生长情况,此外对各重组菌进行纤维素酶的滤纸酶活性(Filter Paper Enzyme Activity,FPA)和羧甲基纤维素钠酶活性(Carboxymethyl Cellulose Enzyme Activity,CMCA)的测试;利用荧光定量PCR的方法检测hkmt、纤维素酶基因cbh1、egl1及木聚糖酶激活因子xyr1的表达量变化。【结果】通过使用荧光显微镜观察,发现沉默、过表达hkmt重组菌的菌丝形态均与出发菌株无明显差异。荧光定量PCR测定结果表明,沉默载体和过表达载体可以分别沉默和促进hkmt的表达。沉默hkmt重组菌株中FPA和CMC酶活力相比出发菌平均升高2.5倍。此外,纤维素酶相关基因和激活因子在沉默hkmt重组菌中的表达量均有所增加,但是在过表达hkmt重组菌株中以上相应指标均呈现相反的趋势。【结论】组蛋白赖氨酸甲基转移酶基因表达产物负调控里氏木霉产纤维素酶基因的表达,这为提高里氏木霉产纤维素酶水平提供了参考,并为里氏木霉产纤维素酶的表观遗传调控研究提供了新的证据。     

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。     

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.     

Stimulatory effect of oxidized cellulose on cellulase formation by Trichoderma reesei

Crystalline cellulase has been electrochemically oxidized to yield preparations containing various different percentages of oxidized end-groups. These celluloses have been used as carbon sources for growth and cellulase production by Trichoderma reesei . A low content of oxidized end groups in the celluloses (0.1–0.65%) stimulated cellulase production but not growth, whereas higher contents (> 1%) where inhibitory to both. The cellulolytic enzyme system secreted under stimulated conditions contained the same proportion of individual cellulase enzymes (cellobiohydrolase I and II, endoglucanase I) as the control, indicating a general stimulatory effect of oxidized cellulose. Activity of cellulases against oxidized celluloses in vitro was not stimulated, and only slightly inhibitory at high degrees of oxidation. The data support a potential role of cellulose oxidation in regulating cellulase formation by T. reesei .     

Regulation of the cellulolytic system in Trichoderma reesei by sophorose: induction of cellulase and repression of beta-glucosidase.

Sophorose has two regulatory roles in the production of cellulase enzymes in Trichoderma reesei: beta-glucosidase repression and cellulase induction. Sophorose also is hydrolyzed by the mycelial-associated beta-glucosidase. Repression of beta-glucosidase reduces sophorose hydrolysis and thus may increase cellulase induction.     

Adsorption of Trichoderma reesei CBHI cellulase on silanized silica

Adsorption kinetics and surfactant-mediated elution of Trichoderma reesei CBHI cellulase were recorded in situ, at hydrophobic, silanized silica. Experiments were performed at different solution concentrations, ranging from 0.001 to 0.98 mg/mL. Adsorbed enzyme was partially elutable upon rinsing, with the amount of adsorbed mass remaining being highest at intermediate concentrations. In addition, the resistance to elution with buffer was generally lower at higher concentrations, and the resistance to elution with surfactant was generally lower at intermediate concentrations. These observations are tentatively explained with reference to a mechanism allowing for adsorption of associated monomers of CBHI as well as free monomers.     

Reversibility and competition in the adsorption of Trichoderma reesei cellulase components

Adsorption reversibility and competition between fractionated components of the Trichoderma reesei cellulase system were studied. Specific endoglucanase (EGI), nonspecific endoglucanases (EGII, EGIII), and cellobio-hydrolase (CBHI) were previously grouped according to their hydrolytic function. At 5 degrees C, direct evidence of exchange between adsorbed and free enzyme was obtained for each component using [(3)H] and [(14)C] radiolabeled tracers. No release of bound enzymes was detected upon dilution of the free enzyme solution. In simultaneous adsorption of enzyme pairs, CBHI was shown to predominate adsorption. Endoglucanase EGI was preferentially adsorbed over EGII and EGIII. Sequential adsorption studies have shown that interaction between enzyme components largely determines the degree of their adsorption. Evidence suggests that both common and distinct adsorption sites exist and that their occupation depends on which components are involved. Predominance in adsorption by any one of the enzyme components is decreased at 50 degrees C. Light microscopy and monitoring of sugar production during cellulose hydrolysis provided evidence that reduction in the ionic strength decreases the adsorption predominance of CBHI and enhances the synergism between the cellulase components.     

Improvement of cellulase activity in Trichoderma reesei by heterologous expression of a beta-glucosidase gene from Penicillium decumbens

Trichoderma reesei is a well-known cellulase producer and widely applied in enzyme industry. To increase its ability to efficiently decompose cellulose, the beta-glucosidase activity of its enzyme cocktail needs to be enhanced. In this study, a beta-glucosidase I coding sequence from Penicillium decumbens was ligated with the cellobiohydrolase I (cbh1) promoter of T. reesei and introduced into the genome of T. reesei strain Rut-C30 by Agrobacterium-mediated transformation. In comparison to that from the parent strain, the beta-glucosidase activity of the enzyme complexes from two selected transformants increased 6- to 8-fold and their filter paper activity (FPAs) was enhanced by 30% on average. The transformant's saccharifying ability towards pretreated cornstalk was also significantly enhanced. To further confirm the effect of heterologous beta-glucosidase on the cellulase activity of T. reesei, the heterologously expressed pBGL1 was purified and added to the enzyme complex produced by T. reesei Rut-C30. Supplementation of the Rut-C30 enzyme complex with pBGL1 brought about 80% increase of glucose yield during the saccharification of pretreated cornstalk. Our results indicated that the heterologous expression of a beta-glucosidase gene in T. reesei might produce balanced cellulase preparation.