Growth and sporulation stoichiometry and kinetics of Coniothyrium minitans on agar media

Coniothyrium minitans was cultivated on agar media with different concentrations of starch, urea, and trace elements. By means of elemental balances, the stoichiometry of growth and sporulation was established. C. minitans produced byproducts on all media, especially in the medium with high urea concentrations, where 30% of the starch was converted into byproducts. Simple empirical models were used to describe the kinetics of growth, sporulation, CO(2) production, and substrate consumption on all media. Total biomass and mycelium could be described reasonably well with the logistic law. Starch, urea, and oxygen consumption and CO(2) production could be described as a function of total biomass by the linear-growth model of Pirt. There were almost no differences between media for the estimates of yield coefficients and maintenance coefficients. Only at high urea concentrations were maintenance coefficients much higher. Similar to substrate consumption and CO(2) production, the kinetics of sporulation could be described as a function of mycelium production with the linear-growth model. It is shown that sporulation of C. minitans is growth-associated. Based on kinetics, the process costs for producing spores are roughly calculated. In addition, it is shown that fermentor costs represent the majority of production costs.     

Nutritional Requirements of the Nematophagous Fungus Hirsutella rhossiliensis

Six natural media were examined for growth and sporulation of six isolates of the nematophagous fungus Hirsutella rhossiliensis , using solid and/or liquid culture. Twenty carbohydrates, 19 nitrogen (N) compounds, and nine vitamins were also tested for their effects on growth, sporulation, and spore germination of a further three isolates (ATCC46487, OWVT-1 and JA16-1). Variations in nutritional requirements existed among the fungal isolates. In general, V-8 juice agar (VA), cornmeal agar and potato dextrose agar were good media for growth, and malt extract agar, VA and yeast dextrose agar were good for sporulation of all six isolates. Glycogen was the best and sucrose, inulin, D- ( + ) - trehalose and soluble starch were also good carbon (C) sources for growth and spore germination of the three isolates ATCC46487, OWVT-1 and JA16-1 in both liquid and solid culture. None of the isolates utilized D- ( + )xylose as a C source. L- sorbose, D- ribose, citric acid and D- fructose were poor for growth of all isolates. The best C source for sporulation was D- ( + )-trehalose for ATCC46487, D- sorbitol for OWVT-1 and D- ( + )-cellobiose for JA16-1. Casein was the best N source for growth of ATCC46487 and OWVT-1, while peptone was best for JA16-1. L- asparagine, L- proline, and peptone were also good for growth of all three isolates. L - cystine was not utilized by H. rhossiliensis and DL- methionine inhibited growth of all isolates. Spore germination of all isolates was well supported by most N compounds examined but was inhibited by L- cystine. No significant difference in sporulation of ATCC46487 was observed among the N sources. DL- threonine was the best N source for spore production by OWVT-1 and L- phenylalanine was best for JA16-1. Vitamins generally enhanced fungal growth and sporulation, with thiamine having the greatest influence. Excluding some vitamins individually from the medium containing all other test vitamins sometimes increased growth and/or sporulation of certain isolates.     

盾壳霉产生几丁质酶的条件研究

本实验采用摇瓶培养研究了盾壳霉(Coniothyrium minitans)产生几丁质酶的条件。改良的天然马铃薯葡萄糖培养基(mPDB)较合成培养基(SMCS)更适宜作为盾壳霉产生几丁质酶的基础培养基。添加9种不同碳源试验表明葡萄糖较适宜于盾壳霉产几丁质酶;氮源试验表明硝酸钾是产酶的较适宜氮源。盾壳霉形成几丁质酶的培养时间以15 d为佳,培养的适宜pH值为6.5。     

Production of macrosphelide A by the mycoparasite Coniothyrium minitans

Coniothyrium minitans, a mycoparasite of sclerotia of Sclerotinia sclerotiorum and Sclerotium cepivorum, produced four closely related metabolites inhibitory to fungal growth. The major metabolite, identified as macrosphelide A, had IG(50) values (the concentration of metabolite to inhibit growth by 50%) of 46.6 and 2.9 microgram ml(-1) against S. sclerotiorum and S. cepivorum, respectively. This is the first report of both antifungal activity due to macrosphelide A as well as isolation of macrosphelide A from C. minitans.     

Cultivation of Pasteurella haemolytica in a Casein Hydrolysate Medium

The growth of Pasteurella haemolytica strain H44L was studied under aerobic conditions in a medium of acid-hydrolyzed casein, supplementary cysteine, inorganic salts, vitamins, and a carbon source. The concentration of casein hydrolysate necessary for optimal growth was 1.5 or 2.0%, depending upon the carbon source employed. Essential vitamins were calcium pantothenate, nicotinamide, and thiamine. Concentrations as low as 0.01 mug/ml of thiamine monophosphate or thiamine pyrophosphate supported maximal growth, but thiamine hydrochloride or thiamine nitrate were active only at the unusually high levels of 10 to 20 mug/ml. The best carbon sources were d-galactose or sucrose. Maximal growth resulted from an inoculum containing fewer than 10 cells per milliliter of medium. Cellular yields averaged 6 x 10 to 7 x 10 cells per milliliter for the test organism and five other strains of P. haemolytica isolated from cases of bovine respiratory diseases.     

Effect of nutrients on the growth of a new alpine strain of Haematococcus (Chlorophyceae) from New Zealand

The microalga Haematococcus lacustris is a source of astaxanthin used widely in aquaculture, pharmaceutical, and cosmetic industries. A new strain of Haematococcus (LCR‐26C‐1f) isolated from the New Zealand alpine zone was evaluated in this study. The influence of vitamins, micronutrients, various carbon and nitrogen sources were investigated to maximize biomass production in batch cultures using shake flasks. Supplementation of vitamins consisting of thiamine, biotin, and cyanocobalamin improved the cell density by 40% over the vitamin‐free medium. Out of the individual vitamins tested, thiamine was shown to be necessary to maintain high cell densities. The best nitrogen source tested was nitrate in the form of sodium nitrate_, at a 40 mM concentration. Heterotrophic growth yielded much lower cell densities compared to autotrophic growth. The micronutrients iron and manganese were essential for growth. However, the best growth was obtained using a micronutrient mix that included iron, copper, cobalt, zinc, manganese and molybdenum.     

Production of B-group vitamins by two Rhizobium strains in chemically defined media

Twenty-eight strains of Rhizobium spp. were tested for their ability to grow in chemically-defined medium lacking growth factors. Two strains, R. meliloti GR4B and Rhizobium spp. ( Acacia ) GRH28, were selected, on the basis of their good growth under the conditions imposed, for further quantification of the production of water-soluble vitamins (thiamine, niacin, riboflavin, pantothenic acid and biotin) in chemically defined media amended with different compounds (mannitol, glucose or sodium succinate) as sole carbon sources. Qualitative and quantitative production of vitamins in chemically-defined media was significantly affected by the use of C sources of a different nature and the age of the cultures. Strain GRH28 produced all the vitamins analysed, and high biological levels of biotin (14 ng ml^–1 culture) were detected after 6 d of culture in mineral medium amended with mannitol. Pantothenic acid was the vitamin detected in the highest amounts (up to 1 μg ml^–1 of culture) in culture supernatant fluids of strain GR4B grown for 6 d with succinate as sole carbon source.     

Tetanus toxin production in soy-based medium: nutritional studies and scale-up into small fermentors

AIMS: To further improve the soy-based medium, devoid of animal and dairy products, for a production of tetanus toxin by nutritional studies and to scale-up the Clostridium tetani process into small fermentors. METHODS AND RESULTS: Optimum production of tetanus toxin did not require addition of pantothenic acid, thiamine, riboflavin, pyridoxine, biotin and uracil, growth factors used by previous investigators. Furthermore, l-tyrosine and l-cysteine could be eliminated from our soy-based medium without effect. Seven carbon sources were compared with glucose in the soy-based medium, but none was found to be superior to glucose. The process was successfully scaled-up into 250-ml bottles, 1-l bottles and 1-l fermentors. CONCLUSIONS: Quite remarkably, when comparing the tetanus production process in our soy-based medium with the traditional animal/dairy-containing media, our medium does not require addition of expensive vitamins, uracil or carbon sources other than glucose. Furthermore, the l-tyrosine and l-cysteine components could be eliminated, making the medium (Hy-Soy, glucose, powdered iron and inorganic salts) much more simple and economical. The successful scale-up from test tubes into 1-l fermentors allows us to predict that further scale-up into large fermentors will be successful. SIGNIFICANCE AND IMPACT OF THE STUDY: Toxoid preparations made from toxin produced with animal and dairy products can contain undesirable contaminants such as the prion causing bovine spongiform encephalopathy (BSE; mad cow's disease) or antigenic peptides that stimulate anaphylactic reactions and other undesirable immune reactions in immunized hosts. Our vegetable-based process avoids such unfortunate possibilities. The medium, having been made simpler and less expensive, and shown to be scaleable from test tubes into small fermentors, should be excellent for large scale production of tetanus toxin.     

Characterization of Sclerotinia and mycoparasite Coniothyrium minitans interaction by microscale co-culture

Aims:  To characterize the interaction of Sclerotinia sclerotiorum and S. minor with strains of the mycoparasite and commercial biocontrol agent Coniothyrium minitans using novel perfusion chamber gasket co-culture.
Methods and Results:  Sclerotinia were cultured in perfusion chamber gaskets and then flooded with Coniothyrium conidia. After germination, Coniothyrium failed to show any form of directed growth, making contact with Sclerotinia hyphae in a random manner. In turn, some Coniothyrium hyphae coiled round Sclerotinia counterparts and although no intracellular growth was observed, Coniothyrium proliferated, while the hyphae of Sclerotinia became vacuolated and lost the cytoplasm. When co-cultures of Sclerotinia with Coniothyrium were flooded with FITC-lectins, small difference in fluorescence between the fungi was found with FITC-Con A suggesting that cell walls of both the species exposed mannose. In contrast, Coniothyrium fluoresced poorly in comparison with Sclerotinia when FITC-wheat germ agglutinin was used, indicating a marked paucity of N -acetylglucosamine exposure by cell walls of Coniothyrium, hence reduced exposure to chitinolytic enzyme action.
Conclusions, Significance and Impact of the Study:  The approach employed supported direct sequential microscopic observation of Coniothyrium and Sclerotinia as well as the utilization of representative fluorescent moieties to characterize relative carbohydrate cell wall exposure.     

Production, Survival and Evaluation of Liquid Culture-produced Inocula of Coniothyrium minitans Against Sclerotinia sclerotiorum

Growth of Coniothyrium minitans on potato dextrose broth was compared with that on an inexpensive molasses-yeast liquid medium at 18-22°C in static culture. Biomass and conidial production were, in general, similar, although the rate of biomass production was quicker and conidial production was slightly greater per unit volume of medium in the molasses-yeast medium. Air-dried biomass from molasses-yeast liquid culture containing mycelia, pycnidia and conidia of C. minitans was mixed (12%, w/w) with kaolin to give a kaolin-biomass dust. The ability of C. minitans to survive and subsequently infect and reduce the viability of sclerotia of Sclerotinia sclerotiorum from this kaolin-biomass dust was found to be little affected by storage for 48 weeks between 4 and 15°C but was decreased by higher storage temperatures. The kaolin-biomass dust preparation did not differ from a standard maizemeal-perlite inoculum of C. minitans in its ability to infect sclerotia of S. sclerotiorum or reduce their viability or carpogenic germination in glasshouse and field pot bioassays. Further, when either inoculum was applied once to glasshouse soil naturally infested with S. sclerotiorum prior to planting three successive crops of lettuce, the pattern of disease control, reduction of sclerotial numbers/ plot, infection of sclerotia, reduction of sclerotial viability and survival in soil were similar for both inocula. The potential for the commercial development of liquid-culture-produced inocula of C. minitans is discussed.     

Optimization of submerged culture condition for the production of mycelial biomass and exopolysaccharides by Agrocybe cylindracea

The optimization of submerged culture conditions and nutritional requirements was studied for the production of exopolysaccharide (EPS) from Agrocybe cylindracea ASI-9002 using the statistically based experimental design in a shake flask culture. Both maximum mycelial biomass and EPS were observed at 25 degrees C. The optimal initial pH for the production of mycelial biomass and EPS were found to be pH 4.0 and pH 6.0, respectively. Subsequently, optimum concentration of each medium component was determined using the orthogonal matrix method. The optimal combination of the media constituents for mycelial growth was as follows: maltose 80 g/l, Martone A-1 6 g/l, MgSO4 x 7H2O 1.4 g/l, and CaCl2 1.1 g/l; for EPS production: maltose 60 g/l, Martone A-1 6 g/l, MgSO4 x 7H2O 0.9 g/l, and CaCl2 1.1 g/l. Under the optimal culture condition, the maximum EPS concentration achieved in a 5-l stirred-tank bioreactor indicated 3.0 g/l, which is about three times higher than that at the basal medium.     

Validation of a model for process development and scale-up of packed-bed solid-state bioreactors.

We have validated our previously described model for scale-up of packed-bed solid-state fermenters (Weber et al., 1999) with experiments in an adiabatic 15-dm(3) packed-bed reactor, using the fungi Coniothyrium minitans and Aspergillus oryzae. Effects of temperature on respiration, growth, and sporulation of the biocontrol fungus C. minitans on hemp impregnated with a liquid medium were determined in independent experiments, and the first two effects were translated into a kinetic model, which was incorporated in the material and energy balances of the packed-bed model. Predicted temperatures corresponded well with experimental results. As predicted, large amounts of water were lost due to evaporative cooling. With hemp as support no shrinkage was observed, and temperatures could be adequately controlled, both with C. minitans and A. oryzae. In experiments with grains, strong shrinkage of the grains was expected and observed. Nevertheless, cultivation of C. minitans on oats succeeded because this fungus did not form a tight hyphal network between the grains. However, cultivation of A. oryzae failed because shrinkage combined with the strong hyphal network formed by this fungus resulted in channeling, local overheating of the bed, and very inhomogeneous growth of the fungus. For cultivation of C. minitans on oats and for cultivation of A. oryzae on wheat and hemp, no kinetic models were available. Nevertheless, the enthalpy and water balances gave accurate temperature predictions when online measurements of oxygen consumption were used as input. The current model can be improved by incorporation of (1) gas-solids water and heat transfer kinetics to account for deviations from equilibrium observed with fast-growing fungi such as A. oryzae, and (2) the dynamic response of the fungus to changes in temperature, which were neglected in the isothermal kinetic experiments.     

香菇菌丝深层培养的碳、氮源和生长因子

本文分别设计了生长刺激因子、碳、氮源试验基本培养基。结果表明在深层培养时,废糖蜜、粗制蔗糖、玉米浆、酵母粉、麸皮浸汁中含有刺激香菇菌丝生长的物质。而各种维生素(包括 B_1)、氨基酸、有机酸、植物生长激素等均无明显的作用。在上述生长因子的促进下,香菇菌丝可利用无机或有机氮源。无机氮源以 NH_4NO_3,最好,其次为(NH_3)H_2PO_4、NH)4Cl 等。有机氮源以玉米浆、酵母粉最好。碳源以玉米淀粉最好。本文并介绍了一种廉价的、良好的香菇菌丝液体培养配方,可以稳定地培养出细小均匀的菌丝球、生长丰满稠密的液体菌种。     

L-arginine is essential for conidiation in the filamentous fungus Coniothyrium minitans

Conidiation is important in the life cycles of mitosporic fungi for survival and transmission. A full-length cDNA of one gene named CMCPS1 encoding L-arginine-specific carbamoyl-phosphate synthase was obtained from Coniothyrium minitans, a sclerotial parasite of the plant pathogenic fungus Sclerotinia sclerotiorum. T-DNA insertional disruption of CMCPS1 resulted in conidiation deficiency of mutant ZS-1T2029, and this was confirmed with the RNAi technique. The phenotype was restored by complementation with L-arginine, and the effect of L-arginine on conidiation may be mediated by nitric oxide, which is catalyzed by nitric oxide synthase (NOS). Conidiation of ZS-1T2029 was restored by sodium nitroprussiate, a NO donor; and conidiation of wild type strain ZS-1 could be suppressed by L-NAME, an inhibitor of NOS. The highest amount of NO in mycelia was detected at an early stage of conidiation (72 hpi) in liquid shake culture medium. Staining with the NO-sensitive fluorescent probe, DAF-FM DA, gave strong fluorescent signals in primordia and young pycnidia. This work presents the first report that L-arginine is involved in conidiation of C. minitans, and the possibility of L-arginine-derived nitric oxide-mediated conidiation among fungi and possible modes of action are discussed.     

Pre-germinated conidia of Coniothyrium minitans enhances the foliar biological control of Sclerotinia sclerotiorum

The relatively slow germination rate of Coniothyrium minitans limits its control efficiency against Sclerotinia sclerotiorum. Pre-germinated conidia of C. minitans enhanced its efficiency significantly: in foliar experiments with oilseed rape, hyphal extension of S. sclerotiorum was inhibited by 68%, while formation of sclerotia was completely inhibited when pre-germinated conidia were applied.     

Optimization of a liquid medium for beauvericin production in <Emphasis Type="Italic">Fusarium redolens</Emphasis> Dzf2 mycelial culture

Beauvericin (BEA) is a proven and potent antibiotic compound useful for bio-control and a potential antifungal and anticancer agent for human. This study was to evaluate and optimize the nutrient medium for BEA production in mycelial liquid culture of a high BEA-producing fungus Fusarium redolens Dzf2 isolated from a medicinal plant. Among various organic and inorganic carbon and nitrogen sources, glucose and peptone were found the most favorable for the F. redolens Dzf2 mycelial growth and BEA production. Through a Plackett-Burman screening test on a basal medium, glucose, peptone, and medium pH were identified as the significant factors for mycelial growth and BEA production. These factors were optimized through central composite design of experiments and response surface methodology, as 49.0 g/L glucose, 13.0 g/L peptone and pH 6.6, yielding 198 mg/L BEA (versus 156 mg/L in the basal medium). The BEA yield was further increased to 234 mg/L by feeding 10 g/L glucose to the culture during exponential phase. The results show that F. redolens Dzf2 mycelial fermentation is a feasible and promising process for production of BEA.     

Influence of phosphate on rhamnose-containing exopolysaccharide rheology and production by Klebsiella I-714

Physiological conditions enhancing rhamnose-containing polysaccharide synthesis by Klebsiella I-714 were studied in batch culture (0.3-l and 2-l bioreactors). The four carbon sources tested, sucrose, sorbitol, Neosorb and Cerelose, allowed exopolysaccharide production. Larger amounts of polymer were produced when high carbon/nitrogen ratios and complex nitrogen sources were used. Exopolysaccharide synthesis was greatest at 30 °C, which was a suboptimal growth temperature. A reduction in the phosphate content of the medium enhanced rhamnose-containing polysaccharide production. When the initial carbon source concentration was augmented, byproducts other than exopolysaccharide were formed. Rhamnose-containing polysaccharide rheology can be modulated by changing the phosphate content of the medium. Received: 11 April 1997 / Received revision: 19 June 1997 / Accepted: 23 June 1997     

Quantitative recovery of fungal biomass grown on solid κ- carrageenan media

The use of a dissolvable solid matrix, -carrageenan, to quantify biomass grown on solid media was studied. A firm gel was obtained with 2% (w/v) -carrageenan and 20 mM K+ which could be easily dissolved in demineralized water. Direct quantification of Coniothyrium minitans biomass grown on this medium was feasible. No effects of the dissolution on the amount of biomass recovered were detected.     

Influence of culture media and environmental factors on mycelial growth and pycnidial production of Sphaeropsis pyriputrescens

Sphaeropsis pyriputrescens, the causal agent of Sphaeropsis rot of pears and apples, is a recently described species. In this study the effects of culture media, temperature, water potential, pH and light on mycelial growth and pycnidial production of S. pyriputrescens were evaluated. Apple juice agar and pear juice agar were most suitable for mycelial growth of all six isolates tested. Cornmeal agar was not suitable for either mycelial growth or pycnidial production. The fungus grew from -3 to 25 C, with optimum growth at 20 C and no growth at 30 C. The fungus grew at water potential as low as -5.6 MPa on potassium chloride-amended potato-dextrose agar (PDA). Hyphal extension was not observed at -7.3 MPa after 10 d incubation, but growth resumed when the inoculum plugs were placed on PDA. The fungus grew at pH 3.3-6.3 and optimum growth was at pH 3.3-4.2. No mycelial growth was observed at pH above 7.2 after 10 d incubation, but growth resumed when the inoculum plugs were transferred onto PDA. Regardless of medium tested, few pycnidia formed at 20 C in the dark. Pycnidial production was enhanced significantly by fluorescent light, but continuous light appeared to reduce pycnidial production, depending on the medium. Oatmeal agar (OMA) was most suitable for production of pycnidia and conidia. Pycnidia that formed on 3 wk old OMA cultures at 20 C under 12 h light/12 h dark produced abundant conidia, and the technique is recommended for inoculum production.     

Factors Affecting Biological Control of Sclerotinia sclerotiorum by Fungal Antagonists

Studies were conducted to determine the effects of soil moisture (9, 16 or 24% w/w) and temperature (5, 15, 20 or 25°C) on the control of sclerotia of Sclerotinia sclerotiorum by five fungal agents in sterile and natural field soil. All five biocontrol agents were effective in reducing the survival of sclerotia of S. sclerotiorum in sterile soil under dry (9% moisture) or wet (24% moisture) conditions at 20°C, but only Coniothyrium minitans was effective in natural soil. Coniothyrium minitans was the most effective in reducing sclerotial viability at the temperature range of 15–25°C. Trichoderma virens was effective against sclerotia of S. sclerotiorum to a lesser extent than C. minitans , and in non-autoclaved soil, it performed best at 25°C. Although Epicoccum purpurascens , Talaromyces flavus and Trichothecium roseum were effective against sclerotia of S. sclerotiorum in some instances, they were less effective than C. minitans and T. virens . Sclerotia of S. sclerotiorum conditioned for myceliogenic germination were more vulnerable to attack by the biocontrol agents than dormant sclerotia. The implications are discussed with respect to enhancement of biological control of crop diseases caused by S. sclerotiorum in different geographic regions.