里氏木霉组成型表达siRNA干扰cre1基因对纤维素酶表达的调控作用

使用组成型siRNA干扰载体对里氏木霉碳阻遏抑制因子CRE1进行siRNA干扰以研究其对里氏木霉纤维素酶基因表达的调控作用。根据里氏木霉cre1基因序列设计siRNA干扰片段。利用里氏木霉组成型表达载体将干扰片段分别构建至里氏木霉cre1干扰载体并将其转化里氏木霉QM9414。分别在48和144 h对各转化子进行纤维素酶酶活力测试(CMC酶活力测试和滤纸酶活力测试)及利用qPCR检测相关基因的表达。在诱导144 h时转化子的两种酶活力平均约比出发菌株高出1倍。qPCR检测cre1基因的表达结果表明,转化子的cre1表达量比出发菌株平均降低约50%,而ace1基因表达量变化不大。其他纤维素酶相关基因的表达水平也均高于出发菌株。通过组成型表达siRNA干扰里氏木霉cre1基因可以明显调控纤维素酶基因的表达,为研究纤维素酶的基因表达与调控提供参考。     

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。     

内切葡聚糖酶高产菌株的诱变选育

【目的】建立里氏木霉(Trichoderma reesei)高产突变菌株的快速筛选方法,选育出高产内切葡聚糖酶的突变株。【方法】对里氏木霉T306菌株的初筛培养基进行优化,建立快速筛选方法;通过紫外诱变手段选育内切葡聚糖酶高产突变菌株,并对突变菌株的产酶培养基进行优化。【结果】在初筛培养基中添加浓度为0.1%(W/V)的乳糖、蛋白胨及脱氧胆酸钠有利于菌株的筛选。诱变后筛选出菌落形态发生明显变化的内切葡聚糖酶高产突变株0516,其羧甲基纤维素酶活力(CMC酶)较出发菌株提高了38.9%。其产酶培养基经优化后,得到最适碳、氮源分别为:乳糖1.50%、硫酸铵0.14%、尿素0.05%、蛋白胨0.10%,优化后CMC酶活力达64.2 U/mL,较优化前提高了2.3倍。【结论】建立了里氏木霉高产突变菌株的快速筛选方法,通过紫外诱变育种获得了产内切葡聚糖酶能力高且遗传稳定的突变株0516。     

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。     

里氏木霉VPS13基因缺失对菌丝分支、生孢和纤维素酶产量的影响

【目的】丝状真菌里氏木霉是纤维素酶生产的主要工业真菌。纤维素酶分泌过程中的蛋白运输途径是控制大量纤维素酶成功输出的重要环节,因此,研究蛋白分泌途径的特定靶标基因功能将有助于鉴定纤维素酶运输分泌过程的关键调控因子。本研究借助基因敲除方法将里氏木霉液泡蛋白分选相关基因VPS13缺失,分析了该基因缺失对菌株生长、生孢尤其是纤维素酶分泌的影响。【方法】利用Double-joint PCR技术和同源重组策略构建里氏木霉VPS13基因缺失突变株,通过菌丝培养、显微观察、生孢检测、蛋白与酶活测定,系统比较VPS13基因敲除前后菌株的生长特征、菌丝形态、孢子形成、蛋白分泌以及纤维素酶活等。【结果】成功获得两株VPS13基因缺失株。与出发菌株相比,该基因突变后菌丝蔓延速率明显减慢,但菌体生物量在对数生长期后显著增多。通过显微观察,发现该基因缺失株菌丝更加密集,分支明显增多。此外,该基因缺失也导致菌株生孢延迟。纤维素底物平板分析发现VPS13基因缺失株菌落周围透明圈更加清晰,且透明圈圈径比是出发菌株的4倍,说明降解纤维素的能力有明显提高。进一步的液体发酵实验结果显示,该基因缺失导致蛋白产量及纤维素酶活力分别提高16.4%和21.9%。【结论】里氏木霉VPS13基因在菌丝生长、生孢、蛋白分泌等不同生物学过程中具有功能多样性,且该基因在菌种改良上可以作为提高纤维素酶产量的重要靶点。     

里氏木霉中小分子RNA对纤维素酶表达调控的作用

目的:通过过表达小分子RNA和抑制小分子RNA功能,研究小分子RNA对里氏木霉QM9414纤维素酶表达的影响。方法:利用含里氏木霉强启动子Ppdc的质粒p-Ppdc'-Tcbh1,分别构建过表达载体和Tough Decoy(Tu D)序列,对里氏木霉QM9414的3个小分子RNA(mil R5、mil R7和mil R10)进行过表达和抑制,过表达和抑制后的小分子RNA表达量通过荧光定量PCR检测,最终测定转化菌株的滤纸酶活,研究过表达和抑制小分子RNA后对纤维素酶表达的影响。结果:过表达载体能提高小分子RNA的表达量,过表达重组菌株OE-mil R7的滤纸酶活明显提高;Tu D序列表达载体可抑制小分子RNA的功能,抑制小分子RNA的重组菌株Tu D7酶活略有下降。结论:mil R7可能参与纤维素酶表达调控,为对里氏木霉的产纤维素酶能力进行改造提供了新的靶点。     

N-糖链加工影响里氏木霉形态发生并提高木质纤维素降解能力（英文）

【背景】烟曲霉α-1,2-甘露糖苷酶Msd S在高尔基体中将N-糖链Man8Glc NAc2加工为成熟分泌糖蛋白的糖型Man6Glc NAc2,有研究表明Msd S与烟曲霉的形态发生、细胞壁合成及蛋白质分泌密切相关;与烟曲霉不同的是,里氏木霉的成熟分泌糖蛋白上的N-糖链结构为Man8Glc NAc2,细胞却能正常生长,说明丝状真菌N-糖链的加工具有物种特异性,但其生物学意义不明。【目的】为研究N-糖链加工对里氏木霉细胞生长及蛋白质分泌的影响,本研究将烟曲霉Msd S转入里氏木霉中以改变其成熟分泌糖蛋白的糖型。【方法】构建带有烟曲霉msd S基因的重组质粒并转入里氏木霉中,获得msd S表达菌株Tr-Msd S,分析Tr-Msd S菌株的生长表型、N-糖组、蛋白质分泌途径和纤维素酶活性的变化。【结果】在里氏木霉msd S表达菌株Tr-Msd S中,分泌糖蛋白的主要糖型由出发株的Man8Glc NAc2转变为Man6Glc NAc2,细胞壁组分发生变化,但细胞壁完整性未受影响;与出发株相比,Tr-Msd S菌株产孢、出芽及分枝增多;另外,Msd S的表达还影响蛋白质分泌,在50°C时降解纤维素和β-葡聚糖的能力分别提高9.9%和32.2%。【结论】研究结果表明,N-糖链的加工可影响里氏木霉蛋白质,尤其是纤维素酶的分泌,干扰N-糖链加工可能是提高里氏木酶纤维素酶产量的新策略。     

里氏木霉双基因同步缺失菌株的构建与甘露聚糖酶表达研究

在里氏木霉中建立了一个快速的双基因位点同步同源重组新方法,较好解决了里氏木霉基因逐个敲除周期长等问题。研究以里氏木霉自身甘露聚糖酶基因（man5A）为重组表达的报告基因,通过一步转化,将该基因定点整合入纤维二糖水解酶Ⅰ（cbh1）基因位点,同时缺失主要的两个纤维素酶基因（cbh1、cbh2）,得到重组工程菌Man12。将重组工程菌Man12与出发菌株Tu6Δku70进行摇瓶发酵,结果显示,重组菌株的甘露聚糖酶产量比出发菌株提高10倍,而纤维素酶产量降低了60%,胞外总蛋白分泌水平降低了40%。Real-time PCR检测甘露聚糖酶基因（man5A）的转录水平,发现重组菌株较出发菌株提高了25倍。在里氏木霉中首次报道了通过一步转化实现两个基因同步定点整合的方法,对利用基因工程手段构建高效表达重组蛋白的里氏木霉工程菌株具有一定的指导意义。     

高效转化法定向进化里氏木霉的纤维素酶

优化了根癌农杆菌介导的里氏木霉的转化方法,得出转化的最适条件:共培养pH 5.3、共培养温度24℃、乙酰丁香酮浓度200μmol/L、根癌农杆菌OD660值0.8、里氏木霉孢子预萌发时间3 h。此时转化率为13 000个转化子(以107个里氏木霉孢子计),是未优化条件下的27倍以上。利用此高效转化法,结合强化纤维二糖水解酶基因II表达的操作,从324个转化子中筛选到了1株优良的里氏木霉转化子C10,发酵5 d后,纤维二糖水解酶活力达(122.44±5.91)U/m L,是初始菌株的5.4倍;滤纸酶活力达(28.92±2.45)IU/m L,是初始菌株的4.3倍。与初始菌株所产纤维素酶相比,转化子C10所产纤维素酶降解玉米秸秆和稻草的能力有明显的提高。本研究为里氏木霉的基因工程改造及其纤维素酶的定向进化提供了有价值的实验数据。     

里氏木霉Set2通过调控转录因子Ypr1的表达进而控制sorbicillinoids的生物合成

【目的】Sorbicillinoids是里氏木霉合成的一类重要的天然活性物质,具有抗肿瘤、抗氧化及抗病毒等多种生物活性。本研究主要是为了阐明TrSet2在里氏木霉sorbicillinoids合成调控过程中的生物学功能及其作用机制。【方法】基于生物信息分析技术鉴定里氏木霉TrSet2编码基因。采用基因敲除和过表达手段,分别构建Trset2基因敲除和过表达菌株并评估其sorbicillinoids合成能力。同时在Trset2基因敲除菌株中,过表达转录激活因子Ypr1,明确TrSet2和Ypr1之间的调控关系。【结果】Trset2基因敲除菌株完全丧失了合成sorbicillinoids的能力。相反,过表达Trset2导致sorbicillinoids合成的水平显著增加。进一步研究发现,在Trset2基因敲除菌株中过表达转录激活因子Ypr1逆转了其不能合成sorbicillinoids的表型。【结论】本研究明确了TrSet2在里氏木霉合成sorbicillinoids过程中的正向调控作用,其作用机制是通过控制转录因子Ypr1的表达水平实现的。这为基于调控机理控制里氏木霉发酵过程中sorbic...     

里氏木霉翻转酶DRS2对木质纤维素降解酶基因表达及分泌的影响

[目的]本研究以工业生产菌株里氏木霉为研究对象,鉴定翻转酶基因drs2对其纤维素酶表达及分泌的影响.[方法]首先通过BLAST序列比对,从里氏木霉中鉴定出翻转酶基因drs2,并通过同源重组的方法在里氏木霉中构建了drs2基因的敲除菌株△drs2.对△drs2菌株及其对照株在不同碳源上的生长发育、蛋白分泌、纤维素酶及半纤...     

Saccharification of used paper with different cellulases

Various used paper materials have been exposed to the action of cellulases from Penicillium funiculosum, Trichoderma reesei, Trichoderma viride and Aspergillus niger. A 2 h incubation period showed cellulase from T. viride the most active except for office paper that was maximally degraded by A. niger cellulase. Cellulase mixtures increased saccharification while sequential treatment with cellulases from T. reesei and P. funiculosum increased biodegradation at values between 15% and 190%. The maximum increase of saccharification (190%) was obtained when T. reesei cellulase initiated the sequential treatment of newspaper relative to the sole action of P. funiculosum cellulase on this non-pretreated and pretreated material.     

The glucose repressor genecre1 ofTrichoderma: Isolation and expression of a full-length and a truncated mutant form

Thecre1 genes of the filamentous fungiTrichoderma reesei andT. harzianum were isolated and characterized. The deduced CREI proteins are 46% identical to the product of the glucose repressor genecreA ofAspergillus nidulans, encoding a DNA-binding protein with zinc fingers of the C₂H₂ type. Thecre1 promoters contain several sequence elements that are identical to the previously identified binding sites forA. nidulans CREA. Steady-state mRNA levels forcre1 of theT. reesei strain QM9414 varied depending on the carbon source, being low on glucose-containing media. These observations suggest thatcre1 expression may be autoregulated. TheT. reesei strain Rut-C30, a hyperproducer of cellulolytic enzymes, was found to express a truncated form of thecre1 gene (cre1-1) with an ORF corresponding to a protein of 95 amino acids with only one zinc finger. Unlike QM9414 the strain Rut-C30 produced cellulase mRNAs on glucose-containing medium and transformation of the full-lengthcre1 gene into this strain caused glucose repression ofcbh1 expression, demonstrating thatcre1 regulates cellulase expression.     

Cellobiohydrolase II is the main conidial-bound cellulase in Trichoderma reesei and other Trichoderma strains

Monoclonal antibodies have been used to determine the presence of cellobiohydrolases I and II (CBH I and II), and endoglucanase I (EG I) on the surface of conidia from Trichoderma reesei QM 9414 and RUT C-30, and 8 other Trichoderma species. For this purpose, proteins were released from the conidial surface by treatment with a non-ionic detergent (Triton X-100 and -octylglucoside), followed by SDS-PAGE/Western blotting and immunostaining. Both CBH I and II were clearly present, but — unlike in extracellular culture fluids from Trichoderma — CBH II was the predominant cellulase. In T. reesei EG I could not be detected. The higher producer strain T. reesei RUT C-30 exhibited a higher conidial level of CBH II than T. reesei QM 9414. In order to assess the importance of the conidial CBH II level for cellulase induction by cellulose, multiple copies of the chb2 gene were introduced into the T. reesei genome by cotransformation using PyrG as a marker. Stable multicopy transformants secreted the 2- to 4-fold level of CBH II into the culture medium when grown on lactose as a carbon source, but their CBH I secretion was unaltered. Upon growth on cellulose, both CBH I and CBH II secretion was enhanced. Those strain showing highest cellulase activity on cellulose also appeared to contain the highest level of conidial bound CBH II. CBH II was also the predominant conidial cellulase in various other Trichoderma sp. However, roughly the same amount of conidial bound CBH II was detected in all strains, although their cellulase production differed considerably.     

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 cellulases from alkali-treated bagasse in Trichoderma reesei

Summary Most of the mutants of Trichoderma reesei had good cellulase productivity on Avicel but this was low on alkali-treated bagasse, which could be a most promising cellulosic biomass to use as an inexpensive carbon source for cellulase production. Two T. reesei mutants, PC-3-7 and X-31, in which strong cellulase activity is inducible by l-sorbose, were, however, found to produce cellulase on alkali-treated bagasse. They produced about 100 units of CMCase per ml in 5-1 jar fermentor culture with 4% alkali-treated bagasse as carbon source. They also showed higher cellulase productivity than other mutants on other easily saccharified substrates, such as alkali-treated rice straw and Walseth's cellulose.Production of Ethanol from Biomasses Part IV.Production of Ethanol from Biomasses Part IV.     

香菇HMG-box转录因子lelcrp1基因的功能

【目的】研究香菇(Lentinula edodes) HMG-box转录因子LELCRP1 (Lentinula edodes lignocellulase genes regulation protein 1)在木质纤维素降解相关酶基因表达中的功能与作用。【方法】通过double-joint及同源重组方法构建lelcrp1基因RNAi载体,采用根癌农杆菌介导转化的方法转入香菇异核菌株W1菌丝中,筛选得到RNAi转化子,通过Southern杂交检测插入片段在菌株W1基因组中的拷贝数量。采用荧光定量PCR检测RNAi转化子木质纤维素降解酶基因表达水平变化,并在含有3.5μg/mL潮霉素的MYG平板上测定RNAi转化子的菌丝生长速度。【结果】获得了4个lelcrp1基因表达水平与出发菌株W1相比显著下调6–7倍的RNAi转化子。Southern杂交结果显示,lelcrp1基因RNAi片段已成功整合至香菇菌株W1基因组内,并以单拷贝形式存在。对其中2个RNAi转化子的26个木质纤维素降解酶基因表达水平进行分析,发现其中9个纤维素酶基因、1个半纤维素酶基因、2个辅助酶AA9基因和1个锰过氧化物酶基因的表达水平均表现出明显的下调。平板生长试验表明,RNAi转化子菌丝生长速度均显著慢于出发菌株W1。【结论】通过RNAi技术成功抑制了香菇异核菌株中lelcrp1基因表达水平,并导致部分纤维素及木质素酶基因表达水平相应下调,首次发现HMG-box结构域的转录因子能调控木质纤维素降解相关酶基因表达。