Production of a Chlorosis-Inducing, Host-Specific, Low-Molecular Weight Toxin by Isolates of Pyrenophora tritici-repentis Cause of Tan Spot of Wheat

An extraction procedure was developed to isolate toxin from cell-free culture filtrates of Pyrenophora tritici-repentis, cause of tan spot disease of wheat (Triticum aestivum). Designated Ptrtoxin, this low-molecular weight toxin (MW 800–1800) induces the characteristic chlororis associated with tan spot disease when inoculated to healthy wheat leaves and differentially inhibits the elongation of wheat seedling coleoptiles. The sensitivity of seven wheat, one barley, and non-host (corn) cultivars to Ptr-toxin corresponds with reported field reactions to the pathogen. Seven isolates of P. triticirepentis from wheat in Oklahoma and four from smooth bromegrass Bromus inermis, an alternative host of P. tritici-repentis), in North Dakota were evaluated for production of Ptr-toxin in vitro. Results indicate that Ptr-toxin may be involved in the expression of disease symptoms in tan spot of wheat, but is not the sole determinant of P. tritici-repentis pathogenicity. Instead, toxin production may contribute to the virulence of individual isolates of the pathogen. Isolates from the alternative host, smooth bromegrass, appear at least as toxigenic as those from wheat, with the exception of one which appeared more toxigenic than four of the wheat isolates tested. Possible relationships of Ptr-toxin to high-molecular weight toxins reported to be produced by P. triticirepentis in vitro (Ptr-necrosis-toxin) are not understood.     

Fusarin C production by North American isolates of Fusarium moniliforme.

A liquid culture medium was developed to screen North American isolates of Fusarium moniliforme Sheldon and Fusarium subglutinans (Wollenw. and Reink.) Nelson, Toussoun, and Marasas for their ability to produce fusarin C. Parameters which were important for the optimal biosynthesis of fusarin C included pH (3.0 to 4.0), aeration, and sugar concentration (30 to 40%). Of seven sugars tested, sucrose and glucose were the best carbohydrate sources for mycotoxin production, resulting in levels of fusarin C of greater than 60 ppm (greater than 60 micrograms/g) in liquid culture (28 degrees C; 7 days). A time-course study of fusarin C production was done over a 21-day period, during which time pH values, glucose concentrations, nitrogen levels, and fungal biomass were determined. Of the two Fusarium spp. studied, 13 of 16 isolates of F. moniliforme produced fusarin C in liquid medium (14 of 16 in corn), while none of the 15 isolates of F. subglutinans studied was found to produce the compound. Levels of fusarin C produced by Fusarium sp. isolates growing on corn ranged from 18.7 to 332.0 micrograms/g.     

Fusarin C production by North American isolates of Fusarium moniliforme

A liquid culture medium was developed to screen North American isolates of Fusarium moniliforme Sheldon and Fusarium subglutinans (Wollenw. and Reink.) Nelson, Toussoun, and Marasas for their ability to produce fusarin C. Parameters which were important for the optimal biosynthesis of fusarin C included pH (3.0 to 4.0), aeration, and sugar concentration (30 to 40%). Of seven sugars tested, sucrose and glucose were the best carbohydrate sources for mycotoxin production, resulting in levels of fusarin C of greater than 60 ppm (greater than 60 micrograms/g) in liquid culture (28 degrees C; 7 days). A time-course study of fusarin C production was done over a 21-day period, during which time pH values, glucose concentrations, nitrogen levels, and fungal biomass were determined. Of the two Fusarium spp. studied, 13 of 16 isolates of F. moniliforme produced fusarin C in liquid medium (14 of 16 in corn), while none of the 15 isolates of F. subglutinans studied was found to produce the compound. Levels of fusarin C produced by Fusarium sp. isolates growing on corn ranged from 18.7 to 332.0 micrograms/g.     

Rubratoxin production by penicillium rubrum when grown in a synthetic medium containing different sources of carbon and nitrogen

A sterile mineral salts broth was fortified with different additives, inoculated with conidia ofPenicillium rubrum P-13, and incubated quiescently for 14 days or with shaking for 3 to 5 days. Maximal fungal growth and rubratoxin production occurred when the broth contained 20% sucrose. Broth with 10% glucose, 10% fructose, 5% maltose, or 1% asparagine supported formation of substantial amounts of rubratoxin (52.9–78.5 mg/100 ml). When the broth was fortified with glucose plus lysine, arginine aspartic acid, cystine, ammonium citrate, or ammonium phosphate, moderate amounts (27.5–39.5 mg/100 ml) of rubratoxin and mycelium (0.1–1.5 g/100 ml) were produced. Presence in the broth of 5% galactose or starch resulted in accumulation of small amounts (22.2 and 24.6 mg/100 ml, respectively) of rubratoxin and mold tissue (0.70 and 0.5 g/ 100 ml, respectively). Whereas some toxin was recovered from mineral salts broth fortified with lactose or ribose, toxin was not recovered when the mold grew in broth containing mannitol or fumarate. With the exception of gluconate which supported some growth and toxin formation and ethanol which permitted formation of small amounts of toxin, other carbon sources resulted in little or no fungal growth and no toxin formation. Yields of rubratoxin decreased with an increase in amount of agitation or length of incubation ofP. rubrum cultures. Mold growth increased and toxin formation decreased with an increase in volume of culture.     

Impact of carbon sources on growth and oxalate synthesis by the phytopathogenic fungus <Emphasis Type="Italic">Sclerotinia sclerotiorum</Emphasis>

The impact of various supplemental carbon sources (oxalate, glyoxylate, glycolate, pyruvate, formate, malate, acetate, and succinate) on growth and oxalate formation (i.e., oxalogenesis) by Sclerotinia sclerotiorum was studied. With isolates D-E7, 105, W-B10, and Arg-L of S. sclerotiorum, growth in an undefined broth medium (0.1% soytone; pH 5) with 25 mM glucose and 25 mM supplemental carbon source was increased by the addition of malate and succinate. Oxalate accumulation occurred in the presence of glucose and a supplemental carbon source, with malate, acetate, and succinate supporting the most oxalate synthesis. With S. sclerotiorum Arg-L, oxalate-to-biomass ratios, an indicator of oxalogenic potential, were dissimilar when the organism was grown in the presence of different carbon sources. The highest oxalate-to-biomass ratios were observed with pyruvate, formate, malate, acetate, and succinate. Time-course studies with acetate-supplemented cultures revealed that acetate and glucose consumption by S. sclerotiorum D-E7 coincided with oxalogenesis and culture acidification. By day 5 of incubation, oxalogenesis was halted when cultures reached a pH of 3 and were devoid of acetate. In succinate-supplemented cultures, oxalogenesis essentially paralleled glucose and succinate utilization over the 9-day incubation period; during this time period, culture pH declined but never fell below 4. Overall, these results indicate that carbon sources can regulate the accumulation of oxalate, a key pathogenicity determinant for S. sclerotiorum.     

Isolation of Solanapyrones A, B and C from Culture Filture and Spore Germination Fluids of Ascochyta rabiei and Aspects of Phytotoxin Action

Nine isolates of the fungus Ascochyta rabiei have been assayed for their ability to produce solanapyrone toxins. All isolates formed solanapyrone A, B and C which were secreted into the culture medium. Pronounced production of the toxins only occurred after onset of sporulation. The identification of the fungal products was achieved by cochromatography (TLC, HPLC), ¹H-NMR (solanapyrone A and B) and mass spectrometry (solanapyrone B). Work with A. rabiei isolate X showed that cultivation in chickpea seed extract medium in a surface culture provided best conditions for maximal toxin production. The accumulation of solanapyrones over the growth cycle was monitored. Germinating spores produced solanapyrones C and B whereas solanapyrone A was formed from the 6th day of the culture period on. Application of a mixture of solanapyrones A, B and C to leaflets of intact plants from an A. rabiei resistant cultivar (ILC 3279) and a susceptible cultivar (ILC 1929) led to characteristic changes in leaf morphology which had earlier been obsevad in susceptible plants following infection with spores of A. rabiei. Attempts to demonstrate the occurrence of toxins in the infected leaf were unsuccessful. Application of solanapyrones to solanapyrones to chickpea cell suspension cultures (derived from both cultivars) led to pronounced losses in viability and to plasmolysis of cells.     

Cylindrospermopsin is not degraded by co-occurring natural bacterial communities during a 40-day study

Biodegradation of cylindrospermopsin produced by Aphanizomenon ovalisporum UAM 290 was studied. In the 40-day degradation experiment conducted, bacterial communities from two waterbodies with and without previous exposure to the toxin were used. Further, and in order to study the potential effect of other organic substrates on the degradation of cylindrospermopsin, three different sources of cylindrospermopsin were used: toxic extracts obtained by methanolic extraction and by ultrasonication in water with 5% formic acid and 0.9% NaCl and toxin naturally present in the spent media of an Aphanizomenon ovalisporum culture. Despite active growth of the bacterial population and consumption of DOC in presence of the toxic extracts, no degradation of cylindrospermopsin could be observed during the 40-day period. Considering that cylindrospermopsin is abundant in the extracellular fraction and that photodegradation in the field seems to be limited, a lack of efficient biodegradation as observed in our study could be of greatest importance and further explain the accumulation of this toxin in the dissolved fraction of the waterbodies investigated.     

Esterase electrophoretic analysis to distinguish isolates between Bipolaris spp. and Drechslera tritici-repentis from wheat

Diseases caused in wheat by Bipolaris sorokiniana and Drechslera tritici-repentis have led to considerable yield and production losses. In wheat seeds another isolate has recently been identified, resembling Bipolaris bicolor. The objective of the present trial was to differentiate and identify isolates of these fungi based on electrophoretic analyses and morphology. Esterase electrophoresis enabled the differentiation between Drechslera sp. and Bipolaris sp. isolates. In relation to morphology, conidia from D. tritici-repentis isolates were significantly longer than the isolates of B. sorokiniana. Bipolaris bicolor isolates, on the other hand, presented wider conidia than those of D. tritici-repentis and B. sorokiniana.     

Isozyme polymorphisms within <Emphasis Type="Italic">Pyrenophora tritici-repentis</Emphasis> population in Argentina

Tan spot caused by Pyrenophora tritici-repentis is an economically important disease of wheat (Triticum aestivum L.) in Argentina. The success of local breeding programs for resistance to the disease depends to a large extent on the genetic variation within the pathogen population. To assay this variability, 155 isolates of P. tritici-repentis obtained from leaves of wheat and Festuca sp. of different localities were assayed and compared for isozyme polymorphisms. Isozyme analysis was performed with polyacrilamide gel electrophoresis in the systems estearase, phosphatase and peroxidase. Variation in the number and relative mobility of the bands by each system was detected in this collection of isolates. Intraspecific polymorphisms were identified in the three systems assayed. The cluster analysis based in bands patterns defined 86 electromorph types among the 155 isolates evaluated according with the Jaccard’s coefficient (CCC = 095). The isozymes patterns were not correlated with the geographic and/or wheat cultivars origin of the P. tritici-repentis isolates.     

Immunochemical analysis of trichothecenes produced by various fusaria

The production of type A trichothecene mycotoxins by 19 Fusaria, including 12Fusarium sporotrichioides, 4F. chlamydosporum and 3F. graminearum at 15°C and 25°C over a 35-day period was analyzed by ELISA using antibodies cross-reactive with most type A trichothecenes after conversion to T-2 tetraol tetraacetate. The toxin production peaked at 20–25 days of incubation with maximum yield between 4–6 mg type A trichothecene/ml of culture medium for 5F. sporotrichioides cultures and between 1 to 2 mg/ml for 6F. sporotrichioides cultures. OneF. sporotrichioides produced 700 µg type A trichothecenes/ml of culture medium. Detectable type A trichothecene was also found in the culture extracts ofF. chlamydosporum andF. graminearum, but the yield was very low (less than 100 µg/ml). Quantitative determination of individual trichothecenes was achieved by separation of different toxin in HPLC and followed by ELISA analysis. Eight to 10 immunoreactive peaks, corresponding to various type A trichothecenes, were detected in all the fungal extracts. T-2 tetraol (T-2-4ol), 4-acetyl-T-2 tetraol (4-Ac-T-2-4ol), neosolaniol (NEOS), diacetoxyscirpenol (DAS), HT-2 and T-2 toxin accounted for more than 85% of the total toxins. In general, low temperature was preferred for total type A trichothecene production. More T-2-4ol, 4-Ac-T-2-4ol, HT-2 and DAS were produced at 25°C. In contrast, more T-2 toxin and NEOS were produced at 15°C. Transformation of T-2 toxin and NEOS to polar metabolites such as T-2-4ol, 4-acetyl-T-2-4ol and HT-2 by various strains were observed at both temperatures after 25 days incubation.     

Optimization of growth and jaceosidin production in callus and cell suspension cultures of Saussurea medusa

Calli cultures derived from the leaves of Saussurea medusa were selected on the basis of colour into three callus, A, B and C, which suggested different levels of metabolite accumulation. An improved reversed phase high performance liquid chromatographic method provided selective determination of the jaceosidin content of these samples. The jaceosidin concentration in callus B was higher than that of the callus A and C. By using 12-day old culture and 9-day old inoculum, jaceosidin yield of 72.91 mg l^–1was obtained from cell line B in cell suspension cultures. The influence of some factors affecting jaceosidin formation, i.e. temperature, light, inoculum size, type of media, phytohormones, nitrogen and carbon source etc. were also examined. Light irradiation and combination of 3% (w/v) sucrose with 1% glucose brought about a marked increase of jaceosidin production. The effect of blue light on jaceosidin was markedly superior to other kinds of monochromatic light (red and far-red) or white light. Analysis of growth and jaceosidin content of callus cultures and cell suspension cultures demonstrated that the production of jaceosidin was growth-dependent in both cell solid culture and cell suspension culture.     

Slowly utilized carbon sources enhance botulinic specific toxicity by co-culture of Clostridium argentinense with the non-pathogen Pseudomonas mendocina

The growth and botulinic toxin production of Clostridium argentinense G 89 HT in co-culture with Pseudomonas mendocina were studied using two culture systems with carbon sources of rapid and slow utilization. Growth with glucose in homogeneous co-culture presented a dual-phase progression, with the toxin produced in the slow-growing phase. The extended 50 h growth period of the second phase at low specific growth rate was attributed to the combined metabolization of glucose and a complex carbon source of the alginate type produced by P. mendocina under strongly reducing conditions. With dextrin, the co-culture grew at the lower specific growth rate (μ = 0.03 h⁻¹) for a period lasting 80 h. This fully enhanced the production of toxin with a specific toxicity 2.5 times higher than with glucose in a homogeneous system and 10.7 higher than that of C. argentinense G 89 HT single culture. The heterogeneous co-culture obtained with a dialysis membrane physically separating both bacteria (thereby eliminating the metabolic interaction) produced the lowest levels of growth and toxin of all the cases analyzed.     

Improvement of artemisinin accumulation in hairy root cultures of Artemisia annua L by fungal elicitor

The effect of fungal elicitor, derived from mycelial extracts of Penicillium chysogenum 3446, on artemisinin production in hairy root cultures of Artemisia annua L was studied. Various concentrations of elicitor were added to the culture medium after 18 days. Time course experiments were carried out using a defined concentration of elicitor after 18 days. Various ages of hairy root cultures were elicited using a defined concentration of elicitor for 3 days. Artemisinin production in 21-day hairy root cultures treated with 0.3 mg total sugar/ml medium elicitor for 3 days reached to 549.1 mg/l.     

Inhibitory effects of condiments and herbal drugs on the growth and toxin production of toxigenic fungi

The effects of thirteen kinds of powdered herbal drugs and seven kinds of commercial dry condiments on the growth and toxin production ofAspergillus parasiticus, A. flavus,A. ochraceus, andA. versicolor were observed by introducing these substances into culture media for mycotoxin production.Of the twenty samples tested, cinnamon bark completely inhibited the fungal growth, while the others only inhibited the toxin production.The inhibitors were easily extracted from the samples with solvents such as hot water, chloroform, or ethanol.The extracts from coptis, philodendron bark, mustard, green tea leaves, and zanthoxylum completely inhibited the aflatoxin production ofA. parasiticus, however, they had little or no inhibitory effect againstA. flavus.     

Identification of novel tan spot resistance loci beyond the known host-selective toxin insensitivity genes in wheat

Tan spot, caused by Pyrenophora tritici-repentis, is a destructive foliar disease of wheat causing significant yield reduction in major wheat growing areas throughout the world. The objective of this study was to identify quantitative trait loci (QTL) conferring resistance to tan spot in the synthetic hexaploid wheat (SHW) line TA4152-60. A doubled haploid (DH) mapping population derived from TA4152-60 × ND495 was inoculated with conidia produced by isolates of each of four virulent races of P. tritici-repentis found in North America. QTL analysis revealed a total of five genomic regions significantly associated with tan spot resistance, all of which were contributed by the SHW line. Among them, two novel QTLs located on chromosome arms 2AS and 5BL conferred resistance to all isolates tested. Another novel QTL on chromosome arm 5AL conferred resistance to isolates of races 1, 2 and 5, and a QTL specific to a race 3 isolate was detected on chromosome arm 4AL. None of these QTLs corresponded to known host selective toxin (HST) insensitivity loci, but a second QTL on chromosome arm 5BL conferred resistance to the Ptr ToxA producing isolates of races 1 and 2 and corresponded to the Tsn1 (Ptr ToxA sensitivity) locus. This indicates that the wheat-P. tritici-repentis pathosystem is much more complex than previously thought and that selecting for toxin insensitivity alone will not necessarily lead to tan spot resistance. The markers associated with the QTLs identified in this work will be useful for deploying the SHW line as a tan spot resistance source in wheat breeding. Mention of trade names or commercial products in this article is solely for the purpose of providing specific information and does not imply recommendation or endorsement by the U.S. Department of Agriculture.     

Evaluation of the Anti-Terminator Q933 Gene as a Marker for Escherichia coli O157:H7 with High Shiga Toxin Production

The anti-terminator Q933 gene of the bacteriophage 933W was evaluated as a marker for Escherichia coli O157:H7 strains with high Shiga toxin production. In total, 262 environmental strains of E. coli O157:H7 isolated from feces of beef cattle and the digestive tract of houseflies were screened for the Q933 and Q21 (anti-terminator Q21 of bacteriophage 21) genes by polymerase chain reaction. Nine (3.4%) isolates tested positive for Q933 alone, 161 (61.5%) were positive for the Q21 gene alone, and 92 (35.1%) isolates carried both Q alleles. Results from the enzyme-linked immunosorbent assay show that the isolates with Q933 alone produced significantly more Shiga toxin than the remaining isolates. The difference was even greater after the induction of the toxin production by a short exposure of cells to ultraviolet light. These data suggest that Q933 is a promising indicator for environmental E. coli O157:H7 with high production of Shiga toxins and, therefore, for potentially clinically relevant strains.     

Some environmental factors affect growth and antibiotic production by the mycoparasite Coniothyrium minitans

The effects of temperature and pH on growth and antibiotic production by three isolates of Coniothyrium minitans (Conio, Contans and IVT1), known to produce the macrolide antibiotic macrosphelide A, were examined in modified Czapek Dox broth (MCD). Antibiotic production was determined by incorporating heated (60°C for 5 min) C. minitans spent culture filtrates of MCD (10%, v/v) into potato dextrose broth and assessing the ability of the filtrates to inhibit growth of S. sclerotiorum. All isolates grew over the temperature range of 10–30°C, with the optimum at approximately 15–20°C. Antibiotics were produced by all isolates at 10–30°C. Culture filtrates of MCD from all isolates incorporated into PDB inhibited growth of S. sclerotiorum by >50%, whereas there was a reduction in inhibition at 30°C for Conio and IVT1 but not Contans. All three isolates grew over the pH range of 3–7, with greater biomass production in buffered pH 3–5 than the unbuffered control (pH 4.8) media. Antibiotics were produced by all isolates at pH 3–5. Culture filtrates of MCD from all three isolates grown at pH 3–5 inhibited growth of S. sclerotiorum, with the greatest effect on inhibition observed at pH 3. There were no differences in growth inhibition between isolates at pH 3 and 4, but culture filtrates from Conio grown at pH 5 inhibited S. sclerotiorum more than those of IVT1 grown at the same pH. The significance of these results for biocontrol and optimizing antibiotic production by C. minitans is discussed.     

The identification and deletion of the polyketide synthase-nonribosomal peptide synthase gene responsible for the production of the phytotoxic triticone A/B in the wheat fungal pathogen Pyrenophora tritici-repentis

The economically important necrotrophic fungal pathogen, Pyrenophora tritici-repentis (Ptr), causes tan spot of wheat, a disease typified by foliar necrosis and chlorosis. The culture filtrate of an Australian Ptr isolate, M4, possesses phytotoxic activity and plant bioassay guided discovery led to the purification of necrosis inducing toxins called triticone A and B. High-resolution LC–MS/MS analysis of the culture filtrate identified an additional 37 triticone-like compounds. The biosynthetic gene cluster responsible for triticone production (the Ttc cluster) was identified and deletion of TtcA, a hybrid polyketide synthase (PKS)-nonribosomal peptide synthase (NRPS), abolished production of all triticones. The pathogenicity of mutant (ttcA) strains was not visibly affected in our assays. We hypothesize that triticones possess general antimicrobial activity important for competition in multi-microbial environments.     

Accumulation of Elsinochrome Phytotoxin does not Correlate with Fungal Virulence among Elsinoë fawcettii Isolates in Florida

Citrus scab caused by Elsinoë fawcettii is cosmopolitan in humid citrus-growing areas. We have previously demonstrated that production of non-host selective elsinochrome phytotoxin is a prerequisite for fungal full virulence and lesion formation. In this study we evaluated 71 field-collected isolates from Florida for pathogenicity and toxin production and found most of the isolates to be pathogenic to rough lemon, grapefruit and sour orange and able to produce elsinochromes in axenic culture. Elsinochromes were recovered, for the first time, from leaf lesions infected by 21 isolates, including four isolates that did not produce any measurable toxin in culture. There was no direct correspondence between the level of elsinochrome production in culture and virulence among the isolates. However, Elsinoë isolates failed to produce elsinochromes in culture and in planta were non-pathogenic to citrus hosts tested. Several isolates were non-pathogenic or only moderately virulent to the citrus hosts tested even though they could produce elsinochromes in culture, a phenotype not previously described in Florida.     

Studies on l-Glutamic Acid Fermentation by Microbacterium ammoniaphilum

The present investigation is concerned with the effects of biotin and glucose on glutamic acid fermenation by Microbacterium ammoniaphilum. Both optimal amounts of biotin necessary for maximum growth and maximum accumulation of glutamic acid were determined under the conditoin of various concentration of glucose. As the glucose concentratin was increased, the amounts of biotin required for maximum growth also increased proportionally to the glucose concentrations. The optimal amounts of biotin for maximum accumulation of glutamic acid were smaller than those for maximum growth of cells at any glucose concentration. It is suggested that the process of glutamic acid accumulation is inevitably associated with the process of cell multiplication by both experiments of successive culture of cells grown under the dose of biotin sufficient and deficient for maximum growth.