Tricholongins BI and BII, 19-residue peptaibols from Trichoderma longibrachiatum. Solution structure from two-dimensional NMR spectroscopy

Two nonadecapeptides, tricholongins BI and BII, which display antifungal and antibacterial activities, have been isolated from in vitro cultures of the fungus Trichoderma longibrachiatum. The peptides were separated by reversed-phase HPLC; their amino acid compositions were determined by gas chromatography and their sequences by positive-ion fast-atom-bombardment mass spectrometry and high-field NMR. These linear peptides, containing mainly hydrophobic L-amino acids, 8-9 2-aminoisobutyric acid residues and exhibiting an acetylated N-terminal residue and an amino alcohol C-terminal leucinol belong to the peptaibol class. The methanol solution structure of tricholongins BI and BII has been investigated using both one- and two-dimensional NMR techniques. The total 1H-NMR and 13C-NMR assignments are given. By a combination of the 3JNH,C alpha H coupling constant values, temperature coefficients of the NH and CO groups, amide hydrogen/deuterium-exchange rate measurements and NOE data, a secondary structure for tricholongins in solution has been proposed. Both peptides adopt a similar alpha-helical conformation with a hinge around Pro13 resulting from two 3(10) bonds. The results suggest that the N-terminus contains mixed alpha/3(10) bonds. The membrane permeability modifications induced by tricholongins have been assayed by the use of liposomes composed of egg phosphatidylcholine with 20-30% cholesterol. The peptide-induced leakage of an entrapped fluorescent probe has been followed by fluorescence spectroscopy. In a concentration range of 0.13-0.31 microM, tricholongins induce the leakage of 50% of the entrapped material in 20 min.     

A novel NAD-dependent dehydrogenase,highly specific for 1,5-anhydro-D-glucitol,from Trichoderma longibrachiatum strain 11-3

A novel NAD-dependent dehydrogenase highly specific for 1,5-anhydro-D-glucitol (1,5-AG) was found in the cell extract of an imperfect fungus, Trichoderma longibrachiatum strain 11-3. This fungus used 1,5-AG as a sole carbon source for growth and transformed 1,5-AG into glucose. 1,5-AG dehydrogenase (AGH) was purified to homogeneity, as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). The molecular mass of the purified enzyme was estimated to be 36 and 141 kDa by SDS-PAGE and by gel filtration, respectively, suggesting that the enzyme was homotetrameric. The enzyme was highly specific for 1,5-AG and did not exhibit activity with any sugar or sugar alcohol tested in this study other than 1,5-AG. A linear relationship between the initial rate of the enzyme reaction and the concentration of 1,5-AG at the physiological level was observed. The presence of glucose in abundance did not interfere with the relationship. The optimum temperature for the enzyme reaction was 50 degrees C, and the enzyme was stable at temperatures up to 70 degrees C. These results suggested that AGH is a novel enzyme and is useful for specifically diagnosing diabetes mellitus.     

Identification of peptaibols from Trichoderma virens and cloning of a peptaibol synthetase

The fungus Trichoderma virens is a ubiquitous soil saprophyte that has been applied as a biological control agent to protect plants from fungal pathogens. One mechanism of biocontrol is mycoparasitism, and T. virens produces antifungal compounds to assist in killing its fungal targets. Peptide synthetases produce a wide variety of peptide secondary metabolites in bacteria and fungi. Many of these are known to possess antibiotic activities. Peptaibols form a class of antibiotics known for their high alpha-aminoisobutyric acid content and their synthesis as a mixture of isoforms ranging from 7 to 20 amino acids in length. Here we report preliminary characterization of a 62.8-kb continuous open reading frame encoding a peptaibol synthetase from T. virens. The predicted protein structure consists of 18 peptide synthetase modules with additional modifying domains at the N- and C-termini. T. virens was shown to produce a mixture of peptaibols, with the largest peptides being 18 residues. Mutation of the gene eliminated production of all peptaibol isoforms. Identification of the gene responsible for peptaibol production will facilitate studies of the structure and function of peptaibol antibiotics and their contribution to biocontrol activity.     

Antimicrobial activity of ergokonin A from Trichoderma longibrachiatum

AIMS: Natural fungal products were screened for antifungal compounds. The mode of action of one of the hits found and the taxonomy of the producing organism were analysed. METHODS AND RESULTS: An extract from a Trichoderma species showed a more potent activity in an agar-based assay against the null mutant fks1::HIS strain than against the wild-type strain, suggesting that it could contain a glucan synthesis inhibitor. The active component was identified as the known compound ergokonin A. The compound exhibited activity against Candida and Aspergillus species, but was inactive against Cryptococcus species. It induced alterations in the hyphal morphology of Aspergillus fumigatus. The identification of the producing isolate was confirmed by sequencing of the rDNA internal transcribed spacers and comparison with the sequences of other Trichoderma species. The analysis showed that the producing fungus had a high homology with other strains classified as Trichoderma longibrachiatum and its teleomorph Hypocrea schweinitzii. CONCLUSIONS: The antifungal activity spectrum of ergokonin A and the morphology alterations induced on A. fumigatus are consistent with glucan synthesis as the target for ergokonin A. The production of ergokonin A is not uncommon, but is probably restricted to Trichoderma species. SIGNIFICANCE AND IMPACT OF THE STUDY: The discovery that ergokonin A could be an inhibitor of glucan synthesis, having a structure very different to other inhibitors, increases the likelihood that orally active agents with this fungal-specific mode of action may be developed.     

长枝木霉eg1基因的克隆及表达

从长枝木霉3.1029基因组中克隆了内切葡聚糖酶EGI基因,该基因全长1 566 bp,由3个外显子2个内含子组成,编码461个氨基酸,编码蛋白的N端为22aa组成的信号肽。采用重叠PCR法获得无内含子的内切葡聚糖酶基因eg1,构建成pYE-Leg1重组质粒;同时将其成熟肽编码序列插入酿酒酵母分泌型表达载体pYEα中,构建成pYEα-Leg1重组质粒;分别转化酿酒酵母。重组转化子经β-半乳糖诱导,检测表达产物的酶活,结果表明,pYE-Leg1转化子无明显胞外酶活;而pYEα-Leg1转化子在刚果红平板上可产生明显的水解圈,酶活检测显示pYEα载体可有效地将该基因在酿酒酵母中表达并分泌到胞外,发酵液中的酶活在培养96 h达到最高1.16 U/mL,最适酶解温度为50℃,最适pH值为5.6。以上研究将为利用酿酒酵母生产胞外纤维素酶提供依据。     

Properties of hemicellulases of the enzyme complex from Trichoderma longibrachiatum

Six xylan-hydrolyzing enzymes have been isolated from the preparations Celloviridin G20x and Xybeten-Xyl, obtained earlier based on the strain 1 Trichoderma longibrachiatum (Trichoderma reesei) TW-1. The enzymes isolated were represented by three xylanases (XYLs), XYL I (20 kDa, pI 5.5), XYL II (21 kDa, pI 9.5), XYL III (30 kDa, pI 9.1); endoglucanase I (EG I), an enzyme exhibiting xylanase activity (57 kDa, pI 4.6); and two exodepolymerases, β-xylosidase (β-XYL; 80 kDa, pI 4.5) and α-L-arabinofuranosidase I (α-L-AF I; 55 kDa, pI 7.4). The substrate specificity of the enzymes isolated was determined. XYL II exhibited maximum specific xylanase activity (190 U/mg). The content of the enzymes in the preparation was assessed. Maximum contributions to the total xylanase activities of preparations Celloviridin G20x and Xybeten-Xyl were made by EG I and XYL II, respectively. Effects of temperature and pH on the enzyme activities, their stabilities under various conditions, and the kinetics of exhaustive hydrolysis of glucuronoxylan and arabinoxylan were studied. Combinations of endodepolymerases (XYL I, XYL II, XYL III, or EG I) and exodepolymerases (α-L-AF I or β-XYL) produced synergistic effects on arabinoxylan cleavage. The reverse was the case when endodepolymerases, such as XYL I or EG I, were combined with α-L-AF I.     

Partial purification, characterization and regulation of cellulolytic enzymes from Trichoderma longibrachiatum

A net purification of 9·46-, 18·6- and 16·7-fold for filter paper (FP) hydrolytic activity, carboxymethyl (CM) cellulase and β-glucosidase, respectively was achieved through ion exchange and gel chromatographies. The purified enzyme preparation showed an optimal pH of 5·0 for CM cellulase and 5·5 for the other two components. The enzyme activities increased up to 60°–65°C for the three enzyme components and they were stable at 30° or 40°C and pH 4·5 to 5·0 after 20–30 min treatment. The four enzyme components, that is, two FP activities (unadsorbed and adsorbed), a CM cellulase and a β-glucosidase, had K_m values of 47·6 mg, 33·3 mg, 4·0 mg and 0·18 mmol/l with V _max of 4, 1·28, 66·5 and 1·28 units per mg protein. The molecular weights as determined with SDS-PAGE were found to be 44000, 38000, 55000 and 63000 for the above four enzyme components in the same sequence. A distinct type of synergistic action was observed between these components by their action on dewaxed cotton. Glycerol at 1% strongly repressed the formation of all the cellulolytic enzymes. The role of proteolytic enzymes in in vitro inactivation of cellulases was not apparent.     

Purification and characterization of two xylanases from Trichoderma longibrachiatum.

Two endoxylanases were purified from the culture medium of Trichoderma longibrachiatum. Both enzymes were highly basic, and lacked activity on carboxymethyl-cellulose. An enzyme of 21.5 kDa (xylanase A) had a specific activity of 510 U/mg protein, a Km of 0.15 mg soluble xylan/ml, possessed transglycosidase activity and generated xylobiose and xylotriose as the major endproducts from xylan or xylose oligomers. A larger enzyme of 33 kDa (xylanase B) had a specific activity of 131 U/mg protein, a Km of 0.19 mg soluble xylan/ml, lacked detectable transglycosidase activity and generated xylobiose and xylose as major endproducts from xylan and xylose oligomers. Xylotriose was the smallest oligomer attacked by both enzymes. In addition, xylotriose inhibited hydrolysis of xylopentanose by both enzymes, while xylobiose appeared to inhibit xylanase B, but not xylanase A.     

Properties of hemicellulases of the enzyme complex from Trichoderma longibrachiatum

Six xylan-hydrolyzing enzymes have been isolated from the preparations Celloviridin G20x and Xybeten-Xyl, obtained previously based on the strain Trichoderma longibrachiatum (Trichoderma reesei) TW-1. The enzymes isolated were represented by three xylanases (XYLs), XYL I (20 kDa, pi 5.5), XYL II (21 kDa, pI 9.5), XYL III (30 kDa, pI 9.1); endoglucanase I (EG I), an enzyme exhibiting xylanase activity (57 kDa, pI 4.6); and two exodepolymerases, beta-xylosidase (beta-XYL; 80 kDa, pI 4.5) and alpha-L-arabinofuranosidase I (alpha-L-AF I; 55 kDa, pI 7.4). The substrate specificity of the enzymes isolated was determined. XYL II exhibited maximum specific xylanase activity (190 U/mg). The content of the enzymes in the preparation was assessed. Maximum contributions to the total xylanase activities of the preparations Celloviridin G20x and Xy-beten-Xyl were made by EG I and XYL II, respectively. Effects of temperature and pH on the enzyme activities, their stabilities under various conditions, and the kinetics of exhaustive hydrolysis of glucuronoxylan and arabinoxylan were studied. Combinations of endodepolymerases (XYL I, XYL II, XYL III, or EG I) and exodepolymerases (alpha-L-AF I or beta-XYL) produced synergistic effects on arabinoxylan cleavage. The reverse was the case when endodepolymerases, such as XYL I or EG I, were combined with alpha-L-AF I.     

长梗木霉β-葡萄糖苷酶基因的克隆及表达

【目的】以实验室筛选获得的一株长梗木霉GM2(Trichoderma longibrachiatum)为材料,克隆出其β-葡萄糖苷酶(β-Glucosidase)基因bgl并在大肠杆菌和酵母中进行表达。【方法】利用同源克隆扩增出其β-葡萄糖苷酶基因bgl全长序列,分别亚克隆到质粒pET-32a(+)和pPICZα-B中,构建其原核表达载体pET32a(+)-bglI和真核表达载体pPICZα-B-bgl。【结果】bgl基因序列全长2 369 bp,含两个内含子,编码744个氨基酸。在大肠杆菌BL21(DE3)中表达bgl,重组蛋白以包涵体形式存在,上清液中没有β-葡萄糖苷酶的酶活。将载体pPICZα-B-bgl电转化入毕赤酵母GS115,得到78 kD左右重组蛋白,与预测大小相符。按9%接种量接入50 mL YP培养基(初始pH 5.5),30°C振荡培养96 h,添加终浓度1%的甲醇诱导后β-葡萄糖苷酶酶活达60 U/mL。重组酶bgl催化水杨苷水解反应的最适pH为5.0,最适温度为70°C;另外,此bgl在pH 3.0 10.0和40°C 60°C范围内具有比较好的稳定性。【结论】长梗木霉GM2的β-葡萄糖苷酶在P.pastoris中获得可溶性表达,并证明有一定的活性。     

长梗木霉纤维素酶基因的克隆及序列分析

从富含纤维素环境筛选获得一株纤维素降解菌株FU05,通过形态学特征及ITS序列分析确定其为长梗木霉(Trichoderma longibrachiatum)。PCR扩增获得该菌株的bgl2、cbh2和eg1。序列分析表明,这3种纤维素酶基因与GenBank上其他木霉同种纤维素酶基因具有较高同源性:bgl2基因与里氏木霉bgl2基因(AB003110)同源性达91%;cbh2基因与康宁木霉cbh2基因(DQ504304)同源性达99%;eg1基因与长梗木霉eg1基因(X60652)同源性达95%。3种纤维素酶基因编码的相应氨基酸序列与其他木霉纤维素酶的氨基酸序列相似性也非常高。对上述纤维素酶基因编码的相应蛋白进行PROSITE motif search,对其N端糖基化位点、纤维素结合区、糖基水解酶家族特征结构区等进行了定位。     

The production and characterisation of trichotoxin peptaibols, by Trichoderma asperellum

Trichoderma spp. are regularly found as a constituent of the mycoflora of many soils and are noted for their antagonistic activity against bacteria and other fungi. This latter property is the basis for the widespread interest in their use in the biological control of soil-borne fungal plant pathogens. This antagonism is partly based on their ability to produce an impressive inventory of secondary metabolites. An important group of bioactive metabolites produced by Trichoderma spp. are the non-ribosomal peptides (NRPs), especially the peptaibols. A virulent antagonistic strain, T. asperellum, which had been used in biological control strategies in Malaysia and previously examined for mycolytic enzyme production, has been studied for its potential for peptaibol production. The present research demonstrated the ability of T. asperellum to produce at least two metabolites which were identified as acid trichotoxin 1704E (Ac-Aib-Gly-Aib-Leu-Aib-Gln-Aib-Aib-Aib-Ala-Ala-Aib-Pro-Leu-Aib-Iva-Glu-Vol) and neutral trichotoxin 1717A (Ac-Aib-Gly-Aib-Leu-Aib-Gln-Aib-Aib-Aib-Ala-Aib-Aib-Pro-Leu-Aib-Iva-Gln-Vol). Addition of free Aib to the culture medium enhanced the production of trichotoxins. Biological activity of these substances was investigated against Bacillus stearothermophilus. The general characteristics of peptaibols, also found in the trichotoxins, include the presence of high proportions of the uncommon amino acid Aib, the protection of the N- and C-termini by an acetyl group and reduction of the C-terminus to 2-amino alcohols, respectively, amphipathy and microheterogeneity.     

Biological effects of Trichoderma harzianum peptaibols on mammalian cells

Trichoderma species isolated from water-damaged buildings were screened for toxicity by using boar sperm cells as indicator cells. The crude methanolic cell extract from Trichoderma harzianum strain ES39 inhibited the boar sperm cell motility at a low exposure concentration (50% effective concentration, 1 to 5 microg [dry weight] ml of extended boar semen(-1)). The same exposure concentration depleted the boar sperm cells of NADH(2). Inspection of the exposed boar sperm cells by transmission electron microscopy revealed damage to the plasma membrane. By using the black lipid membrane technique, it was shown that the semipurified metabolites (eluted from a SepPak C(18) cartridge) of T. harzianum strain ES39 induced voltage-dependent conductivity. The high-performance liquid chromatography-purified metabolites of T. harzianum strain ES39 dissipated the mitochondrial membrane potential (Deltapsi(m)) of human lung epithelial carcinoma cells (cell line A549). The semipurified metabolites (eluted from a SepPak C(18) cartridge) of T. harzianum strain ES39 were analyzed by mass spectrometry (MS). Matrix-assisted laser desorption ionization and nanoflow electrospray ionization MS revealed five major peptaibols, each of which contained 18 residues and had a mass ranging from 1,719 to 1,775 Da. Their partial amino acid sequences were determined by collision-induced dissociation tandem MS.     

Trichoderma longibrachiatum as an antagonist of Botrydiplodia theobromae

The antagonistic potential of Trichoderma longibrachiatum against the pathogen Botrydiplodia theobromae was examined in vitro. Both fungi were paired on 9 cm Petri plates of acidified potato dextrose agar (APDA). Three pairing methods were employed, viz., ‘inoculating antagonist before pathogen’, ‘inoculating pathogen before antagonist’ and ‘simultaneous inoculation of pathogen and antagonist’. Radial growth (cm) of both fungi were later analysed using the GLM Procedure of SAS. Growth inhibition of B. theobromae by T. longibrachiatum in all pairing methods was significantly different from control (P = 0.05, R ² = 0.89). Growth inhibition of the pathogen was best when using ‘inoculation of antagonist before pathogen’. Duration of pairing (DAP) and pairing method are both critical to significant antagonistic impact of T. longibrachiatum on B. theobromae (P > 0.0001). Inhibition mechanism includes competition for space and nutrients. T. longibrachiatum could thus be a promising antagonist of B. theobromae.     

Solution scattering studies of conformation stability of xylanase XYNII from Trichoderma longibrachiatum

Xylanase (endo-1,4-beta-xylanase; EC 3.2.1.8) is an enzyme that catalyzes the hydrolysis reaction of xylan. The structure of the xylanase II (XYNII) molecule from Trichoderma longibrachoatum (formerly Trichoderma reesei) in a solution and at different pH values has been studied by small- and wide-angle scattering of synchrotron radiation (SAXS-WAXS). Analysis of the radius of gyration that characterizes xylanase has confirmed the stability of the above enzyme structure (the radius of gyration varied from 1.65 to 1.74 nm). On the basis of the SAXS data, the low-resolution structure of the xylanase molecule in solution has been reconstructed by using ab initio methods and programs DALAI_GA and DAMMIN. The full SAXS-WAXS data set (0.15 > s > 9.5 nm(-1)) fed to the program GASBOR permitted us to construct a chain-like spatial distribution of a dummy residues model of the xylanase molecule. The shape of the model molecules is similar to that of xylanase molecule in the crystal and shows the characteristic asymmetry that makes the molecule to resemble a right hand.     

beta-Glucosidases from cellulolytic fungi Aspergillus terreus, Geotrichum candidum, and Trichoderma longibrachiatum as typical glycosidases

By ethanol precipitation (v/v) and chromatography on Sephadex SP, DEAE (or DEAE-cellulose), and G-200 beta-glucosidases (EC 3.2.1.21) from the culture filtrates of cellulolytic fungi Aspergillus terreus, Geotrichum candidum, and Trichoderma longibrachiatum grown on the medium with cellulose containing materials were isolated. The enzymes were homogenous as shown by different techniques. The substrate specificities of the obtained enzymes were studied. beta-Glucosidases had higher affinity for p-nitrophenyl-beta-D-glucopyranoside than for cellobiose (Km 1.25, 0.34, 0.20 and 5.4, 2.0, 1.2 mM, respectively) and were able to hydrolyze both laminaribiose and gentiobiose; but they were unable to cleave cotton fiber, carboxymethylcellulose, and other glycans to reducing sugars. They showed transglycosylase activity. Ki values for arylglucosidase activity of beta-glucosidases from A. terreus, G. candidum, and T. longibrachiatum in the presence of either glucose or glucono-1,5-lactone were 12.2, 6.0, 2.1 and 0.20, 0.19, 0.07 mM, respectively. The Mr's were estimated by gel filtration and by sedimentation equilibrium centrifugation to 200,000, 200,000, 350,000, respectively. The isoelectric points of beta-glucosidases were 4.8, 5.9, and 4.2, respectively. The optimum temperatures and pH's were 60, 50, and 50 degrees C and at pH 4.5, 4.5, and 4.8-5.7, respectively. These properties appear to relate beta-glucosidases obtained in the present study to typical glycosidases.     

Cloning,sequence analysis and yeast expression of the egl1 gene from Trichoderma longibrachiatum

A gene (egl1) encoding an endoglucanase (EGL1) from Trichoderma longibrachiatum has been cloned and sequenced. This gene, homologous to the T. reesei egl1 gene, differs from it in the length of the introns (particularly the first one) and encoded protein. A cDNA fragment obtained by the rapid amplification of cDNA ends method, which takes advantage of the polymerase chain reaction, has been expressed in yeast under control of the cyc-gal inducible promoter and yeast clones able to secrete active enzyme have been obtained. Correspondence to: J. A. Pérez-González