生防枯草芽孢杆菌B29菌株抗菌物质的初步研究

通过检测生防枯草芽孢杆菌除菌上清液对黄瓜枯萎病菌Fusarium oxysporium f．cumerinum菌丝生长和分生孢子萌发的抑制作用,初步研究了生防枯草芽孢杆菌B29菌株抗菌物质的活性。结果表明,枯草芽孢杆菌B29菌株分泌的抗菌物质不仅抑制病原菌的生长;并可抑制尖孢镰刀菌孢子的萌发,使分生孢子萌发畸形。研究确定了该菌株抗菌物质产生的最佳条件：培养温度30℃;培养基初始pH值7.5;装液量为250ml三角瓶装液75ml培养基;培养时间120h。经30%~70%硫酸铵沉淀获得的抗菌粗提物对60℃处理具有稳定性（活性达97.8%）;对蛋白酶K具有部分耐受性,对胰蛋白酶和胃蛋白酶较敏感。     

Comparison between gene expression of conidia and germinating phase in Trichophyton rubrum

Trichophyton rubrum is a dominating superficial dermatophyte, whose conidial germination is correlated to pathopoiesis and a highly important developmental process. To investigate the changes of physiology, biochemistry and cytology during the germination, we selected 3364 function identified ESTs from T. rubrum cDNA library to construct cDNA microarrays, and compared the gene expression levels of conidia and germinating phase. Data analysis indicated that 335 genes were up-regulated during the germination, which mainly encoded translated, modified proteins and structural proteins.The constituents of cell wall and cell membrane were synthetized abundantly, suggesting that they are the foundation of cell morphogenesis. The ingredients of the two-component signal transduction system were up-regulated, presuming that they were important for the conidial germination. Genes of various metabolic pathways were expressed prosperously, especially the genes that participated in glycolysis and oxidative phosphorylation were up-regulated on the whole, demonstrating that in the environment with sufficient oxygen and glucose, conidia obtained energy through aerobic respiration.This paper provides important clues which are helpful to understanding the changes in gene expression, signal conduction and metabolism characteristics during T. rubrum conidial germination, and possess significant meaning to the study of other superficial dermatophytes.     

Paenibacillus polymyxa SQR-21 systemically affects root exudates of watermelon to decrease the conidial germination of Fusarium oxysporum f.sp. niveum

Paenibacillus polymyxa SQR-21 has been identified as a potential agent for the biocontrol of Fusarium wilt in watermelon, which is caused by the pathogenic fungus Fusarium oxysporum f.sp. niveum (FON). In the present study, the effects of root exudates from watermelon plants inoculated or non-inoculated with either SQR-21 or FON on conidial germination of FON were investigated. Compared to the control, conidial germination was decreased with root exudates from SQR-21-inoculated plants, but conidial germination was enhanced by root exudates from FON-inoculated plants. Maximal germination was found with root exudates from FON-inoculated plants after 30 d, which was 1.35 times more germination than the control. A split-root system was designed to verify that the alterations of the exudation pattern in SQR-21- inoculated or FON-inoculated watermelon roots were not only local, but also systemic. Cinnamic acid was found in the watermelon root exudates. An assay to test the effects of cinnamic acid on conidial germination of FON revealed that the stimulation of conidial germination was observed from cinnamic acid concentrations ranging from 0 to 30 μg/ml. In conclusion, both of SQR-21 and FON systemically affects watermelon root exudates. These results will help to the better understanding of the plant-microbe communication and will guide to improve the biocontrol strategies against Fusarium wilt of watermelon plants.     

The influence of sucrose and wheat root exudates on the germination and growth of conidia ofFusarium culmorum (W.G.S.M.) Sacc

Summary It is shown in these studies that the germination of the conidia ofFusarium culmorum (W.G.Sm.) Sacc. is influenced by both constitutive and exogenous factors. In a dense suspension, selfinhibited spores are induced to germinate by dilution with distilled water and by suspending in either sucrose solution or wheat root exudates. The exudates not only stimulate conidial germination but also promote subsequent growth of the fungus. The significance of this in pathogenesis is discussed.     

Comparison between gene expression of conidia and germinating phase in Trichophyton rubrum

Trichophyton rubrum is a dominating superficial dermatophyte, whose conidial germination is correlated to pathopoiesis and a highly important developmental process. To investigate the changes of physiology, biochemistry and cytology during the germination, we selected 3364 function identified ESTs from T. rubrum cDNA library to construct cDNA microarrays, and compared the gene expression levels of conidia and germinating phase. Data analysis indicated that 335 genes were up-regulated during the germination, which mainly encoded translated, modified proteins and structural proteins. The constituents of cell wall and cell membrane were synthetized abundantly, suggesting that they are the foundation of cell morphogenesis. The ingredients of the two-component signal transduction system were up-regulated, presuming that they were important for the conidial germination. Genes of various metabolic pathways were expressed prosperously, especially the genes that participated in glycolysis and oxidative phosphorylation were up-regulated on the whole, demonstrating that in the environment with sufficient oxygen and glucose, conidia obtained energy through aerobic respiration. This paper provides important clues which are helpful to understanding the changes in gene expression, signal conduction and metabolism characteristics during T. rubrum conidial germination, and possess significant meaning to the study of other superficial dermatophytes. Supported by the National High Technology Research and Development Program of China (Grant No. 2001AA223021) and National Key Technologies R&D Programme (Grant No. 2002BA711A14)     

Factors influencing pathogenicity of Fusarium tumidum on gorse (Ulex europaeus)

Factors promoting pathogenicity of Fusarium tumidum on gorse (Ulex europaeus) were determined to develop a novel strategy for delivering this potential mycoherbicide using insects as vectors of inoculum. Fusarium tumidum sprayed as a suspension of 1×10⁶ conidia mL^?1 on at least 50% of a gorse plant reduced shoot dry weight by 45% (P<0.05). A minimum of 910 viable conidia were required to cause a lesion on leaves. The leaves and flowers were more susceptible to infection than stems, spines and pods. Generally, wounding of gorse leaves and stem increased F. tumidum infection, most likely through releasing nutrients that enhanced conidial germination and hyphal growth. We showed in a separate experiment that conidial germination (93%) and germ tube length (407 µm) were greater when incubated in 0.2% gorse extract solution for 24 h than in water (62% germination, germ tube length 42 µm). Inoculation of gorse with a F. tumidum conidial suspension supplemented with 0.2% gorse extract resulted in a shoot dry weight reduction (P=0.012) equivalent to that of plants that were wounded and inoculated. It is concluded that wounding of older tissues (which mimics insect damage) is required to facilitate F. tumidum infection of mature gorse plants.     

链孢粘帚霉几丁质酶的诱导及其抗真菌活性研究

链孢粘帚霉HL-1-1菌株在不同培养条件下产几丁质酶活性不同,核盘菌菌核对其几丁质酶的诱导作用高于几丁质;首次用菌核配制培养基成功诱导了几丁质酶的产生,其产酶的最适初始pH值为4.5,最适培养时间为6d。几丁质酶对10种病原菌都有不同的抑制作用,对小麦雪腐病、葡萄白腐病、玉米黄斑病及斑点落叶病等病原菌的孢子萌发具有明显的抑制作用;该几丁质酶还能明显抑制核盘菌和立枯丝核菌的菌核萌发。     

Aviglycine and propargylglycine inhibit conidial germination and mycelial growth of <Emphasis Type="Italic">Fusarium oxysporum</Emphasis>f. sp. <Emphasis Type="Italic">luffae</Emphasis>

Two inhibitors, aviglycine and propargylglycine, were tested for their ability to suppress methionine synthesis thus inhibit conidial germination and mycelial growth of Czapek-Dox liquid medium grown Fusarium oxysporum f. sp. luffae μM. The linear inhibition range for mycelial growth was about 7.6–762.9 μM. Although aviglycine did not completely inhibit both conidial germination and mycelial growth, it showed significant inhibitory effect at 1.5 μM. The inhibition range for propargylglycine against conidial germination and mycelial growth were from 0.08 to 8841 μM and from 0.8 to 884.1 μM, respectively. Propargylglycine inhibited conidial germination and mycelial growth at a concentration of 8841 μM. The EC₅₀ values of aviglycine were 1 μM for conidial growth and 122 μM for mycelial growth, and the EC₅₀ values of propargylglycine were 47.7 μM for conidial growth and 55.6 μM for mycelial growth. Supplement of methionine released inhibition of aviglycine or propargylglycine to conidial germination. In addition, a mixture of aviglycine (1.5 μM) and propargylglycine (8841 μM) showed additive inhibitive effect than applied alone on 10 isolates. From these results, both aviglycine and propargylglycine exhibited inhibitory activity, and suggest that they can provide potential tools to design novel fungicide against fungal pathogens.     

Effect of Mannich bases on some plant pathogenic fungi

3-(2-Pyridyl)-3-iminoisatin, 1-piperidinomethyl-3-(2-pyridyl)-3-iminoisatin, and 1-acetyl-3-(2-pyridyl)-3-iminoisatin affect spore germination ofAlternaria alternata, A. carthemi, Curvularia lunata, Fusarium oxysporum f.sp.cieri andF. udum and influence the development of powdery mildew (Erysiphe pisi) on pea under glasshouse condition as well as conidial germination ofE. pisi on excised pea leaves. Spore germination was inhibited in the sequence 1-acetyl-3-(2-pyridyl)-3-iminoisatin > 1-piperidinomethyl-3-(2-pyridyl)-3-iminoisatin > 3-(2-pyridyl)-3-iminoisatin followed the order accordingly. The powdery mildew development and conidial germination ofE. pisi 1-piperidinomethyl-3-(2-pyridyl)-3-iminoisatin > 1-acetyl-3-(2-pyridyl)-3-iminoisatin > 3-(2-pyridyl)-3-iminoisatin. The chemicals were compared with commonly used antifungal fungicides.     

Effect of temperature and sources of carbon and nitrogen on the conidial germination and appresoria formation in Colletotrichum capsici

The effect of temperatures and exogenous supply of different carbon and nitrogen sources on the conidial germination and appresoria formation inC. capsici has been studied. 25 °C was observed to be the best temperature for conidial germination. At 18 °C, conidia germinated only in hanging drops and did not germinate on 2 % agar. Amongst carbon sources, 1-rhamnose supported maximum conidial germination and appresoria formation. Potassium nitrate supported very good conidial germination and appresoria formation. Ammonium nitrate, ammonium sulphate and ammonium chloride were found to be inhibitory. A few aminoacids stimulated conidial germination but dl-alanine, dl-methionine, tyrosine and l-glutamine were found to be inhibitory.     

Soil fungistasis: elevation of the exogenous carbon and nitrogen requirements for spore germination by fungistatic volatiles in soils.

Axenic, washed conidia of Fusarium solani f. sp. phaseoli, Aspergillus flavus, and Verticillium albo-atrum were placed on washed Difco purified agar discs along with an inorganic salt solution containing various levels of carbon and nitrogen substrates. These discs were exposed to volatiles from six soils (pH 5.1-8.6). Fusarium solani macroconidial germination was inhibited mostly by volatiles from soils of pH 5.1, 6.1, 7.0, and 7.5, but high levels of glucose and NH4Cl reversed this inhibition, raising germination to that of no-soil, no-carbon or nitrogen controls. Conidial germination of A. flavus was inhibited mainly by volatiles from high pH (7.0, 7.8, and 8.6) soils, and increased levels of glucose plus an amino acid mixture nullified this inhibition. Volatiles from soils of pH 5.1, 6.1, and 7.5 stimulated A. flavus conidial germination. Assays after the removal of CO2 from the air above soil of pH 5.1 demonstrated that volatiles inhibitory to A. flavus were produced by this soil. Assays indicated that a KOH-soluble compound was a fungistatic soil volatile to F. solani macroconidial germination. The nullification by carbon and nitrogen substrates of F. solani and A. flavus inhibition caused by soil volatiles parallels that for soil fungistasis. Conidial germination of V. albo-atrum was markedly stimulated by volatiles in all soils tested, and was not affected by removal of CO2. Inhibitory soil volatiles may increase the nutritional requirements for spore germination of certain fungi.     

Impact of sixteen chemical pesticides on conidial germination of two entomophthoralean fungi: Conidiobolus thromboides and Pandora nouryi

Effects of sixteen chemical pesticides on conidial germination of C. thromboides and P. nouryi were investigated at two concentrations (R and 0.2R, where R=the lowest manufacture's recommended concentration for field use). Of the fungicides tested, propamocarb hydrochloride did not significantly affect conidial germination of C. thromboides, but at R it completely inhibited conidial germination of P. nouryi. At 0.2R of procymidone, iprodione, haloxyfop-methyl and fenoxaprop-p-ethyl, conidia of C. thromboides had some germination after 24 h, although they entirely restricted conidial germination of the fungus at the concentration of R. Tribenuron-methyl, one herbicide, had no adverse effect on conidial germination of C. thromboides and P. nouryi after 6 h at the two concentrations, whereas the other seven herbicides were strongly antagonistic to P. nouryi, except for carfentrazone-ethyl at 0.2R.     

Isolation of a beta-tubulin gene from Fusarium moniliforme that confers cold-sensitive benomyl resistance.

A beta-tubulin gene from a UV-irradiated benomyl-resistant mutant of Fusarium moniliforme was isolated, cloned, and sequenced. The gene encodes a 446-amino-acid polypeptide with homology to other fungal beta-tubulins. RNA blot analysis showed expression of the gene during vegetative growth and conidial germination but no expression during conidiation. A point mutation, which likely confers benomyl resistance, has been identified in the cloned gene; this mutation results in a single amino acid substitution of asparagine for tyrosine at position 50. Expression of benomyl resistance in the mutant was also cold sensitive. Sexual crosses betweeen the mutant and a wild-type strain indicated cosegregation of benomyl resistance and cold sensitivity.     

Toxicity of Xanthene Dyes to Entomopathogenic Fungi

Effects of xanthene dyes on mycelial growth and conidial germination in three species of entomopathogenic fungi, Beauveria bassiana, Metarhizium anispoliae and Paecilomyces fumosoroseus, were evaluated in a variety of assay systems. In a disk-diffusion assay, erythrosin B and phloxine B (but not eosin B) produced zones of inhibition in colonies of all three species under continuous exposure to light at disk-loadings of 100mug. None of the dyes produced zones of inhibition in the absence of light at disk loadings of 100mug. Both erythrosin B and phloxine B inhibited mycelial growth of all three species in the light in a dose-dependent manner. Weaker dose-responses for inhibition of growth in the dark were observed for some fungus/dye combinations. Erythrosin B, tested singly, completely inhibited conidial germination in the light in all eight fungal strains tested at 100mug ml-1 medium, but failed to inhibit conidial germination in any of these strains in the dark at the same concentration of dye. For single strains of each of the three fungi, erythrosin B and phloxine B inhibited conidial germination in a dose-dependent manner in the light with IC50s < 6.2mug dye ml-1 medium for all fungus/dye combinations. Phloxine B was a more potent inhibitor of germination than erythrosin B for all three fungal species. At fixed dosages of erythrosin B and phloxine B, inhibition of conidial germination in all three species increased with time of exposure to light. These results constitute the first quantitative demonstration of photodynamic inhibition of conidial germination in fungi by xanthene dyes.     

玉米大斑病菌钙调磷酸酶A亚基的克隆与特征分析

根据已知病原真菌钙调磷酸酶A亚基(Calcineurin A, CNA)丝苏蛋白磷酸酶保守结构域设计引物, 从玉米大斑病菌cDNA中扩增出CNA基因片段。利用cDNA末端快速克隆(Rapid amplification of cDNA ends, RACE)手段获得该基因全长cDNA序列(GenBank登录号: EF 407562)。Southern杂交结果显示, 该基因在玉米大斑病菌基因组只有1个拷贝。CNA特异性抑制剂Cyclosporin A对玉米大斑病菌分生孢子和附着胞发育有抑制作用, 抑制作用与抑制剂浓度呈正相关, 相同浓度的抑制剂对附着胞形成的抑制作用大于对孢子萌发的抑制。经CsA(5µg/mL)处理后, 玉米大斑病菌分生孢子不能侵入玉米叶片, 初步表明CNA基因参与玉米大斑病菌的致病过程。     

A Sinapic Derivative as an Induced Defence Compound of Date Palm Against Fusarium oxysporum f.sp. albedinis, the Agent Causing Bayoud Disease

A non-constitutive phenolic compound was isolated from date palm ( Phoenix dactylifera L.) roots and calli derived from offshoots. It inhibits greatly conidial germination as well as infectious germ tube growth and must be considered as a phytoalexin. Its accumulation occurred when calli turned brown or when roots were in contact with Fusarium oxysporum f.sp. albedinis , the agent causing the date palm vascular fusariosis'bayoud'. Tentatively, this compound has been identified as sinapoyl-amide by acid and alkaline hydrolysis, dansylation of amines and polyamines and by ninhydrin treatment. The relationship between this methoxy-substituted hydroxycinnamic acidamide and biotic and abiotic stress leading to tissue browning or vascular disease resistance is discussed.     

Effect of relative humidity,temperature and fungicide on germination of conidia of Cercospora canescens caused the Cercospora leaf spot disease in mungbean

The aim of the present investigation was to determine the impact of relative humidity (RH) and temperature on conidial germination, nuclear position and effect of important fungicides on growth and conidial germination of Cercospora canescens. Germination of conidia was observed at RH range 92–100% at 5–35°C. Significant interaction between temperature and RH indicated that higher humidity and high temperature promoted quick germination both in the presence and absence of free moisture. Although in absence of free moisture at 92–95% RH higher temperatures 25–35°C promoted quick evaporation of moisture and no conidial germination. Number of germtube was increased significantly at the optimum temperature 25–30°C and higher humidity (98–100%). But higher temperature 25–35°C with lower RH did not support the conidial germination. This finding is very important for disease forecasting using meteorological data. The spray of Carbendazim as contact fungicide may not be useful since it is not effective against the conidia of C. canescens. Triadimefon did not inhibit the conidia germination but completely inhibited mycelium development at 50 μg/ml. Propriconazole inhibited both conidia germination and mycelial development. Therefore, Propiconazole may be taken as protective as well as curative spray. In non-systemic fungicide, Copper oxychloride gave anticipated result by inhibiting both conidial germination and mycelium development. Therefore, copper oxychloride can be used as protectant fungicides for Cercospora leaf spot caused by C. canescens.     

Persistence of <Emphasis Type="Italic">Isaria fumosorosea</Emphasis> (Hypocreales: Cordycipitaceae) SFP-198 Conidia in Corn Oil-Based Suspension

Long-term persistence of entomopathogenic fungi as biopesticides is a major requirement for successful industrialization. Corn oil carrier was superior in maintaining germination rates of Isaria fumosorosea SFP-198 conidia during exposure to 50°C for 2 h, when compared with other oils, such as soybean oil, cottonseed oil, paraffin oil, and methyl oleate. The corn oil-based conidial suspension (91.6% germination) was also better in this regard than conidial powder (28.4% germination) after 50°C for 8 h. Long-term storage stabilities of corn oil-based conidial suspension and conidial powder at 4 and 25°C for 24 months were investigated, based on the correlation of germination rate with insecticidal activity against greenhouse whiteflies, Trialeurodes vaporariorum. Viability of conidia in corn oil was more than 98.4% for up to 9 months of storage at 25°C, and followed by 23% at 21 months. However, conidial powder had only 34% viability after 3 months of storage at 25°C, after which its viability rapidly decreased. The two conidial preparations stored at 4°C had better viabilities than those at 25°C, showing the same pattern as above. These results indicate that corn oil-based conidial suspension can be used to improve conidial persistence in long-term storage and be further applied to the formulation of other thermo-susceptible biological control agents.