Mycotoxigenic Fusarium and deoxynivalenol production repress chitinase gene expression in the biocontrol agent Trichoderma atroviride P1

Mycotoxin contamination associated with head blight of wheat and other grains caused by Fusarium culmorum and F. graminearum is a chronic threat to crop, human, and animal health throughout the world. One of the most important toxins in terms of human exposure is deoxynivalenol (DON) (formerly called vomitoxin), an inhibitor of protein synthesis with a broad spectrum of toxigenicity against animals. Certain Fusarium toxins have additional antimicrobial activity, and the phytotoxin fusaric acid has recently been shown to modulate fungus-bacterium interactions that affect plant health (Duffy and Défago, Phytopathology 87:1250-1257, 1997). The potential impact of DON on Fusarium competition with other microorganisms has not been described previously. Any competitive advantage conferred by DON would complicate efforts to control Fusarium during its saprophytic growth on crop residues that are left after harvest and constitute the primary inoculum reservoir for outbreaks in subsequent plantings. We examined the effect of the DON mycotoxin on ecological interactions between pathogenic Fusarium and Trichoderma atroviride strain P1, a competitor fungus with biocontrol activity against a wide range of plant diseases. Expression of the Trichoderma chitinase genes, ech42 and nag1, which contribute to biocontrol activity, was monitored in vitro and on crop residues of two maize cultivars by using goxA reporter gene fusions. We found that DON-producing F. culmorum and F. graminearum strains repressed expression of nag1-gox. DON-negative wild-type Fusarium strains and a DON-negative mutant with an insertional disruption in the tricothecene biosynthetic gene, tri5, had no effect on antagonist gene expression. The role of DON as the principal repressor above other pathogen factors was confirmed. Exposure of Trichoderma to synthetic DON or to a non-DON-producing Fusarium mutant resulted in the same level of nag1-gox repression as the level observed with DON-producing FUSARIUM: DON repression was specific for nag1-gox and had no effect, either positive or negative, on expression of another key chitinase gene, ech42. This is the first demonstration that a target pathogen down-regulates genes in a fungal biocontrol agent, and our results provide evidence that mycotoxins have a novel ecological function as factors in Fusarium competitiveness.     

Improvement of the Fungal Biocontrol Agent Trichoderma atroviride To Enhance both Antagonism and Induction of Plant Systemic Disease Resistance

Biocontrol agents generally do not perform well enough under field conditions to compete with chemical fungicides. We determined whether transgenic strain SJ3-4 of Trichoderma atroviride, which expresses the Aspergillus niger glucose oxidase-encoding gene, goxA, under a homologous chitinase (nag1) promoter had increased capabilities as a fungal biocontrol agent. The transgenic strain differed only slightly from the wild-type in sporulation or the growth rate. goxA expression occurred immediately after contact with the plant pathogen, and the glucose oxidase formed was secreted. SJ3-4 had significantly less N-acetylglucosaminidase and endochitinase activities than its nontransformed parent. Glucose oxidase-containing culture filtrates exhibited threefold-greater inhibition of germination of spores of Botrytis cinerea. The transgenic strain also more quickly overgrew and lysed the plant pathogens Rhizoctonia solani and Pythium ultimum. In planta, SJ3-4 had no detectable improved effect against low inoculum levels of these pathogens. Beans planted in heavily infested soil and treated with conidia of the transgenic Trichoderma strain germinated, but beans treated with wild-type spores did not germinate. SJ3-4 also was more effective in inducing systemic resistance in plants. Beans with SJ3-4 root protection were highly resistant to leaf lesions caused by the foliar pathogen B. cinerea. This work demonstrates that heterologous genes driven by pathogen-inducible promoters can increase the biocontrol and systemic resistance-inducing properties of fungal biocontrol agents, such as Trichoderma spp., and that these microbes can be used as vectors to provide plants with useful molecules (e.g., glucose oxidase) that can increase their resistance to pathogens.     

Mechanisms of coal solubilization by the deuteromycetes Trichoderma atroviride and Fusarium oxysporum

Three different mechanisms can be envisaged that are used by fungi to solubilize coal: the production of alkaline substances, the extrusion of chelators and, of special interest in the scope of biotechnology, the action of enzymes. Whether these mechanisms are operating separately or in various combinations has not yet been finally assessed. The two deuteromycetes Fusarium oxysporum and Trichoderma atroviride solubilize coal by synergistic effects of various different mechanisms depending on the cell metabolism. F. oxysporum seems to solubilize coal by increasing the pH of the mycelial surroundings and by the action of chelators induced during growth in glutamate-containing media (without involvement of enzymes). T. atroviride, on the other hand, appears to use, in addition to an alkaline pH and a high chelator activity, at least two classes of enzyme activity to attack coal: hydrolytic activity for coal solubilization and ligninolytic activity for degradation of humic acids. Received: 3 February 1998 / Received revision: 31 August 1998 / Accepted: 3 September 1998     

Overexpression and characterization of a novel chitinase from Trichoderma atroviride strain P1

We describe the overexpression and characterization of a new 30 kDa family 18 chitinase (Ech30) from Trichoderma atroviride strain P1. Sequence alignments indicate that the active site architecture of Ech30 resembles that of endochitinases such as hevamine from the rubber tree (Hevea brasiliensis). The ech30 gene was overexpressed in Escherichia coli without its signal peptide and with an N-terminal His-tag. The enzyme was produced as inclusion bodies, from which active chitinase could be recovered using a simple refolding procedure. The enzyme displayed an acidic pH-optimum (pH 4.5-5.0), probably due to the presence of a conserved Asn residue near the catalytic glutamate, which is characteristic for acidic family 18 chitinases. Studies with oligomers of N-acetylglucosamine [(GlcNAc)(n)], 4-methylumbelliferyl (4-MU) labelled GlcNAc oligomers and beta-chitin reveal enzymatic properties typical of an endochitinase: 1) low activity towards short substrates (kinetic parameters for the hydrolysis of 4-MU-(GlcNAc)2 were K(m), 149+/-29 microM and k(cat), 0.0048+/-0.0005 s(-1)), and 2) production of relatively large amounts of trimers and tetramers during degradation of beta-chitin. Detailed studies with GlcNAc oligomers indicated that Ech30 has as many as seven subsites for sugar binding. As expected for a family 18 chitinase, catalysis proceeded with retention of the beta-anomeric configuration.     

Enzyme Diffusion from Trichoderma atroviride (= T. harzianum P1) to Rhizoctonia solani Is a Prerequisite for Triggering of Trichoderma ech42 Gene Expression before Mycoparasitic Contact

A plate confrontation experiment is commonly used to study the mechanism by which Trichoderma spp. antagonize and parasitize other fungi. Previous work with chitinase gene expression (ech42) during the precontact period of this process in which cellophane and dialysis membranes separated Trichoderma harzianum and its host Rhizoctonia solani resulted in essentially opposite results. Here, we show that cellophane membranes are permeable to proteins up to at least 90 kDa in size but that dialysis membranes are not. ech42 was expressed during the precontact stage of the confrontation between Trichoderma atroviride and its host only if the cellophane was placed between the two fungi. These results are consistent with enzyme diffusion from T. atroviride to R. solani generating the trigger of ech42 gene expression.     

棘孢木霉（Trichoderma asperellum）几丁质酶基因的克隆与生物信息学分析

几丁质酶作为木霉菌防治植物病虫害的主要因子,在生物防治和环境保护等领域发挥着重要的作用.为了研究棘孢木霉（Trichoderma asperellum）的生防机制并获得与其相关的功能基因,本研究通过RT-PCR、3′-RACE及5′-TAIL- PCR技术克隆了T. asperellum 1个几丁质酶基因Tachi1,对该基因进行了生物信息学分析,并利用毕赤酵母表达系统进行表达验证. Tachi1的DNA序列长1 635 bp,含有3个内含子,包含1 275 bp的开放阅读框,编码424个氨基酸;Tachi1属于糖基水解酶18家族内切几丁质酶,包含SIGGW底物结合位点和FDGIDXDWE活性中心位点,信号肽长度为22个氨基酸,成熟肽分子量为44 kD,二级结构以α-螺旋 、β-折叠和无规则卷曲为结构元件,三级结构为(α/β)8的圆桶形结构. 转Tachi1基因酵母工程菌可高效分泌表达几丁质酶Tachi1,甲醇诱导培养8 d几丁质酶酶活可达9.25 U/mL.     

香蕉几丁质酶基因家族的鉴定及在枯萎病侵染时的表达分析

几丁质酶(CHi,Chitinase)是一种能够催化真菌细胞壁中几丁质水解的病程相关蛋白,在植物与真菌互作中起着重要的作用。本研究以拟南芥几丁质酶基因的蛋白序列为查询序列,在香蕉A基因组数据库中进行BLASTp比对,鉴定出23个香蕉几丁质酶(MaCHi,Musa chitinase)基因家族成员。根据其染色体上的位置,分别命名为MaCHi01～MaCHi23。系统进化树分析表明23个MaCHis可分为糖苷水解酶18(GH18,glycosyl hydrolase 18)和糖苷水解酶19(GH19,glycosyl hydrolase 19)2个亚家族。转录组数据分析表明接种尖孢镰刀菌古巴专化型热带4号生理小种(Foc TR4,Fusarium oxysporum f. sp. cubense tropical race 4)后MaCHi05、MaCHi06、MaCHi07、MaCHi11、MaCHi19和MaCHi20基因在感病品种巴西蕉中显著下调或不表达,在抗病品种GCTCV-119中显著上调。利用RT-qPCR技术对MaCHi05、MaCHi06、MaCHi07、MaCHi11和M...     

木霉几丁质酶基因克隆及植物转化载体构建

利用PCR技术从绿色木霉LTR-2(Trichoderma virede)基因组DNA中扩增到一段序列,测序结果表明,该编码基因片段大小为 1 508 bp,其中包括一个 1 459 bp的开放阅读框,起始密码子位于 45 bp,终止密码子位于 1 501 bp,共编码氨基酸 424 个.在Genbank中进行序列比对,发现该序列同已发表的Trichoderma viride 42 ku几丁质酶氨基酸序列具有99%的同源性.将该片段同pCAMBIA1300中的35S启动子和35S-polyA终止子连接后,插入载体pCAMBIA1302多克隆位点中,构建成植物转化载体,最后将构建好的载体pCHI1302-42通过转化导入根癌农杆菌LBA4404中,为进一步构建转基因植物奠定了基础.     

Enhancement of Biocontrol Activities and Cyclic Lipopeptides Production by Chemical Mutagenesis of Bacillus subtilis XF-1, a Biocontrol Agent of Plasmodiophora brassicae and Fusarium solani

Bacillus subtilis XF-1 has been used as a biocontrol agent of clubroot disease of crucifers infected by Plasmodiophora brassicae, an obligate pathogen. In order to maximize the growth inhibition of the pathogen, random mutagenesis using N-methyl-N′-nitro-N-nitrosoguanidine was applied to strain XF-1. The efficacy of 226 selected mutants was assessed against the growth of an indicator fungal pathogen: Fusarium solani using agar plate assay and the disruptive effects on the resting spores of P. brassicae. Four mutants exhibited inhibition activity significantly higher than the wild type. The cell extracts of these mutants and the XF-1 were subjected to matrix-assisted laser desorption ionization-time of flight mass spectra analysis, and three families of cyclic lipopeptides (CLPs) fengycin, surfactin and iturin were identified from the parental strain and the screened mutants. However, the relative contents and compound diversity changed after mutagenesis, and there was slight variation in the surfactin and fengycin. Notably, only 5 iturin components were discovered from the wild strain XF-1, but 13 were obtained from the mutant strains, and the relative CLPs contents of all mutant strains increased substantially. The results suggested that CLPs might be one of main biocontrol mechanisms of the clubroot disease by XF-1. The 4 mutants are far more effective than the parental strain, and they would be promising biocontrol candidates not only against P. brassicae but probably other plant diseases caused by fungi.     

Influence of Growth Stage on Fusarium Head Blight and Deoxynivalenol Production in Wheat

Fusarium head blight is a major concern for wheat production worldwide. The fungi that cause the disease may infect head tissues from flowering to late stages of kernel development, but a better understanding of the influence of the time of infection on grain weight reduction and mycotoxin accumulation resulting from the infection process is needed. We investigated the influence of wheat reproductive stage at the time of inoculation on disease and grain quality parameters, especially production of deoxynivalenol (DON) in mature grains. Heads of Norm wheat were spray inoculated with a macroconidial suspension of a DON‐producing isolate of Fusarium graminearum at each of six reproductive stages from flowering to hard dough. Plants were incubated in a mist chamber for 48 h and then moved to the greenhouse until maturity. Norm wheat was susceptible at all stages inoculated but the highest grain weight reduction and DON accumulation occurred in plants inoculated past flowering to late milk stages. However, high incidences of kernel infection and significant levels of DON accumulation resulted from inoculations as late as the hard dough stage, even though there was no corresponding reduction in grain weight compared to non‐inoculated plants. The occurrence of commercially significant levels of DON in plump, high‐yielding wheat may result from infections that occur during favourable environments well after the flowering stages. Late infection and DON production should therefore be a future research focus for wheat breeding and integrated management of FHB and an important consideration for grading systems that employ the presence of visibly damaged kernels as a means of estimating DON content of wheat.     

Atdad1的超量表达抑制烟草细胞凋亡

以Atdad1基因保守区为探针进行Northern杂交,检测到烟草也存在dad1的同源基因,并且在叶和花中表达量较大,而随着叶片的衰老,dad1的表达量明显降低。进一步以过量表达Atdad1基因的烟草悬浮细胞为材料,研究Atdad1基因与细胞凋亡的关系。结果发现48℃热激4h或75ng／mL放线菌素D处理48h均可诱导正常细胞产生凋亡(产生DNA ladder),而相同处理条件下过量表达Atdad1基因的烟草悬浮细胞并没有发生凋亡(无DNA ladder),说明转基因细胞具有一定抵抗凋亡的能力。同时检测到野生型非转基因悬浮细胞凋亡的诱导产生过程中,dad1基因表达量逐步降低。上述结果提供了较直接的证据表明在烟草细胞中dad1基因可能参与了细胞凋亡的负调控。     

Trichoderma atroviride G-protein alpha-subunit gene tga1 is involved in mycoparasitic coiling and conidiation

The soil fungus Trichoderma atroviride, a mycoparasite, responds to a number of external stimuli. In the presence of a fungal host, T. atroviride produces hydrolytic enzymes and coils around the host hyphae. In response to light or nutrient depletion, asexual sporulation is induced. In a biomimetic assay, different lectins induce coiling around nylon fibers; coiling in the absence of lectins can be induced by applying cyclic AMP (cAMP) or the heterotrimeric G-protein activator mastoparan. We isolated a T. atroviride G-protein alpha-subunit (Galpha) gene (tgal) belonging to the fungal subfamily with the highest similarity to the Galpha1 class. Generated transgenic lines that overexpress Galpha show very delayed sporulation and coil at a higher frequency. Furthermore, transgenic lines that express an activated mutant protein with no GTPase activity do not sporulate and coil at a higher frequency. Lines that express an antisense version of the gene are hypersporulating and coil at a much lower frequency in the biomimetic assay. The loss of Tgal in these mutants correlates with the loss of GTPase activity stimulated by the peptide toxin Mas-7. The application of Mas-7 to growing mycelial colonies raises intracellular cAMP levels, suggesting that Tgal can activate adenylyl cyclase. In contrast, cAMP levels and cAMP-dependent protein kinase activity drop when diffusible host signals are encountered and the mycoparasitism-related genes ech42 and prb1 are highly expressed. Mycoparasitic signaling is unlikely to be a linear pathway from host signals to increased cAMP levels. Our results demonstrate that the product of the tga1 gene is involved in both coiling and conidiation.     

First Molecular Characterization of Colletotrichum sp. and Fusarium sp. Isolated from Mangrove in Mexico and the Antagonist Effect of Trichoderma harzianum as an Effective Biocontrol Agent

The aim of this study was to characterize potential fungal species affecting mangrove species in Mexico. The phytopathogens were identified based on morphological and molecular characteristics using internal transcribed spacer (ITS1/ITS4) primers then sequenced and compared with the other related sequences in GenBank (NCBI). Three fungal species were identified as Colletotrichum queenslandicum (Weir and Johnst, 2012) from black mangrove (Avicennia germinans); Colletotrichum ti (Weir and Johnst, 2012) from white mangrove (Laguncularia racemosa) and buttonwood mangrove (Conocarpus erectus); Fusarium equiseti (Corda) from red mangrove (Rhizophora mangle). In addition, C. ti and F. equiseti were identified from mango Mangifera indica L. sampled close by the mangrove area. This study provides first evidence of anthracnose on four mangrove species caused by Colletotrichum and Fusarium species in the “Términos” coastal lagoon in Campeche State southern Mexico. This is the first time that C. queenslandicum and C. ti are reported in Mexico. F. equiseti has not been reported affecting M. indica and R. mangle until the present work. Little is known regarding fungal diseases affecting mangroves in Mexico. These ecosystems are protected by Mexican laws and may be threatened by these pathogenic fungus. This is the first report of the effect of Trichoderma harzianum TRICHO-SIN as an effective biological control against of Colletotrichum and Fusarium species.     

Effect of Carbon Source on Production of Lytic Enzymes by the Sclerotial Parasites Trichoderma atroviride and Coniothyrium minitans

Three isolates of Trichoderma atroviride and two isolates of Coniothyrium minitans known to efficiently degrade sclerotia of Sclerotinia sclerotiorum were cultured on minimal medium with sucrose, carboxymethyl cellulose (CMC), xylan, laminarin, colloidal chitin or powdered sclerotia as carbon source. The activity of endochitinase, endo‐β‐1,3‐glucanase, endoxylanase and endocellulase in culture filtrates was determined after 7 and 15 days of culture using dye‐labelled substrates. The strongest inducers of chitinase were colloidal chitin and sclerotia powder. Chitinase activity appeared to be faster induced in the isolates of T. atroviride than in the isolates of C. minitans, but the maximum level of activity present in culture filtrates of the two species was similar. With CMC and xylan as carbon source, concurrent production of the corresponding enzymes was observed for the Trichoderma isolates. The isolates of C. minitans produced cellulase on xylan but not on CMC, whereas xylanase was produced on both carbon sources. Laminarin induced the formation of glucanases in the three isolates of T. atroviride but not the isolates of C. minitans. However, in the sclerotia‐containing cultures of C. minitans glucanase activity was even higher than in the respective cultures of the Trichoderma isolates. During the 31‐day study period, the pattern of enzyme production in shake cultures containing sclerotia powder was very similar for the isolates of T. atroviride and C. minitans. Glucanase activity generally reached a peak 24 days after inoculation of the flasks, whereas the activity of chitinase, cellulase and xylanase remained fairly constant throughout the experiment.