The effects of disruption of phosphoglucose isomerase gene on carbon utilisation and cellulase production in Trichoderma reesei Rut-C30

Background

Cellulase and hemicellulase genes in the fungus Trichoderma reesei are repressed by glucose and induced by lactose. Regulation of the cellulase genes is mediated by the repressor CRE1 and the activator XYR1. T. reesei strain Rut-C30 is a hypercellulolytic mutant, obtained from the natural strain QM6a, that has a truncated version of the catabolite repressor gene, cre1. It has been previously shown that bacterial mutants lacking phosphoglucose isomerase (PGI) produce more nucleotide precursors and amino acids. PGI catalyzes the second step of glycolysis, the formation of fructose-6-P from glucose-6-P.

Results

We deleted the gene pgi1, encoding PGI, in the T. reesei strain Rut-C30 and we introduced the cre1 gene in a Δpgi1 mutant. Both Δpgi1 and cre1 ⁺ Δpgi1 mutants showed a pellet-like and growth as well as morphological alterations compared with Rut-C30. None of the mutants grew in media with fructose, galactose, xylose, glycerol or lactose but they grew in media with glucose, with fructose and glucose, with galactose and fructose or with lactose and fructose. No growth was observed in media with xylose and glucose. On glucose, Δpgi1 and cre1 ⁺ Δpgi1 mutants showed higher cellulase activity than Rut-C30 and QM6a, respectively. But in media with lactose, none of the mutants improved the production of the reference strains. The increase in the activity did not correlate with the expression of mRNA of the xylanase regulator gene, xyr1. Δpgi1 mutants were also affected in the extracellular β-galactosidase activity. Levels of mRNA of the glucose 6-phosphate dehydrogenase did not increase in Δpgi1 during growth on glucose.

Conclusions

The ability to grow in media with glucose as the sole carbon source indicated that Trichoderma Δpgi1 mutants were able to use the pentose phosphate pathway. But, they did not increase the expression of gpdh. Morphological characteristics were the result of the pgi1 deletion. Deletion of pgi1 in Rut-C30 increased cellulase production, but only under repressing conditions. This increase resulted partly from the deletion itself and partly from a genetic interaction with the cre1-1 mutation. The lower cellulase activity of these mutants in media with lactose could be attributed to a reduced ability to hydrolyse this sugar but not to an effect on the expression of xyr1.     

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。     

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.     

Different temperature profiles of enzyme secretion by two common strains ofTrichoderma reesei

Summary We have investigated the effects of high and low temperature on the synthesis and secretion of cellulases and other enzymes by two common and readily available strains ofTrichoderma reesei. While some effects were similar in both strains QM9414 and RUT-C30 (a reduction in cellulase production but stimulation of xylanase production at high temperature, and alterations in expression of the cellulase complex at low temperature), some specific differences between the strains were determined, most significantly an enhanced specific secretion rate (secretion/growth) at low growth temperature for QM9414.     

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 Δace1 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 Δace1 strain, indicating that yet another activator regulating cellulase and xylanase promoters was present.     

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.     

碳阻遏因子CRE对匍枝根霉产纤维素酶调控作用的研究

为研究匍枝根霉(Rhizopus stolonifer)TP-02中碳代谢阻遏因子CRE对其产纤维素酶的调控特性,从其基因组DNA中扩增得到CRE全长基因,并利用重叠PCR(overlapping PCR)技术将潮霉素B抗性基因(hygB)插入其中,既破坏cre正常转录又提供了筛选标记。通过电转化将pUCm-T-cre-hygB导入匍枝根霉萌发孢子,经抗性筛选得到△CRE突变株。利用RT-qPCR对此突变株纤维素酶基因转录水平进行研究,发现 eg、bg、cbh1和cbh2 的转录均有所提高,分别为48.75%、26%、5.6%和38.6%。同时,△CRE突变株的纤维素酶在表达水平上也均高于原菌,其中内切葡聚糖苷酶酶活提高了58.62%。CRE的破坏在一定程度上减弱了碳阻遏效应,其对纤维素酶的调控具有特异性。其中,对内切酶的调控最为显著。此外,△CRE突变株在3%糖浓度下仍高产纤维素酶,这为后续酶系优化及产业化生产提供了一定的依据。     

Antagonism of Pythium blight of zucchini by Hypocrea jecorina does not require cellulase gene expression but is improved by carbon catabolite derepression

Toward a better understanding of the biochemical events that lead to biocontrol of plant pathogenic fungi by Hypocrea/Trichoderma spp., we investigated the importance of carbon catabolite (de)repression and cellulase formation in the antagonization of Pythium ultimum by Hypocrea jecorina (Trichoderma reesei) on agar plates and in planta. Hypocrea jecorina QM9414 could antagonize and overgrow P. ultimum but not Rhizoctonia solani in plate confrontation tests, and provided significant protection of zucchini plants against P. ultimum blight in planta. A carbon catabolite derepressed cre1 mutant of H. jecorina antagonized P. ultimum on plates more actively and increased the survival rates of P. ultimum-inoculated zucchini plants in comparison with strain QM9414. A H. jecorina mutant impaired in cellulase induction could also antagonize P. ultimum on plates and provided the same level of protection of zucchini plants against P. ultimum as strain QM9414 did. We conclude that cellulase formation is dispensable for biocontrol of P. ultimum, whereas carbon catabolite derepression increases the antagonistic ability by apparently acting on other target genes.     

Differential expression of cellulases and xylanases by <Emphasis Type="Italic">Cellulomonas flavigena</Emphasis> grown on different carbon sources

The diversity of cellulases and xylanases secreted by Cellulomonas flavigena cultured on sugar cane bagasse, Solka-floc, xylan, or glucose was explored by two-dimensional gel electrophoresis. C. flavigena produced the largest variety of cellulases and xylanases on sugar cane bagasse. Multiple extracellular proteins were expressed with these growth substrates, and a limited set of them coincided in all substrates. Thirteen proteins with carboxymethyl cellulase or xylanase activity were liquid chromatography/mass spectrometry sequenced. Proteins SP4 and SP18 were identified as products of celA and celB genes, respectively, while SP20 and SP33 were isoforms of the bifunctional cellulase/xylanase Cxo recently sequenced and characterized in C. flavigena. The rest of the detected proteins were unknown enzymes with either carboxymethyl cellulase or xylanase activities. All proteins aligned with glycosyl hydrolases listed in National Center for Biotechnology Information database, mainly with cellulase and xylanase enzymes. One of these unknown enzymes, protein SP6, was cross-induced by sugar cane bagasse, Solka-floc, and xylan. The differences in the expression maps of the presently induced cultures revealed that C. flavigena produces and secretes multiple enzymes to use a wide range of lignocellulosic substrates as carbon sources. The expression of these proteins depends on the nature of the cellulosic substrate.     

Double Mutants of Cellulomonas biazotea for Production of Cellulases and Hemicellulases following Growth on Straw of a Perennial Grass

Summary Deoxyglucose-resistant mutants of Cellulomonas biazotea secreted elevated levels of cellulases and xylanases. The production of β-glucosidase in the constitutive mutant was increased 5-fold over its parent strain. This mutant showed an approximately 1.6-fold enhanced productivity of extracellular endo-glucanase following growth on Leptochloa fusca over the mutant parent. Extracellular production of xylanase, filter-paper cellulase (FPase) and endo-glucanase (CMCase) were also altered in the mutant. Maximum volumetric productivities for xylanase, β-xylosidase, FPase, β-glucosidase and endo-glucosidase were 451, 98, 80, 95, and 143 IU l⁻¹ h⁻¹ which were significantly more than their respective values from the parental strains. The enzyme preparation of the mutants exhibited improved saccharification of kallar grass straw.     

A high cellulase-producing mutant strain of Trichoderma reesei

A mutant strain with increased production of cellulolytic enzymes was induced from the good cellulase producer Trichoderma reesei QM 9414. Cellulase activities of the mutant in fermenter cultivations were increased two- to three-fold and β-glucosidase activity up to six-fold when compared to the corresponding activities produced by QM 9414.