Variability in Sensitivity to Polyoxin B of Isolates of Alternaria mali and Decreased Fitness of Polyoxin resistant Isolates

The 540 monoconidial isolates of Altemaria mali were obtained in 1983 from apple orchards at Seoul, Suweon, Cheongju, Kochang, Daegu, and Jinju in Korea. The sensitivity of A. mali to polyoxin B greatly varied among isolates and locations. Most of isolates were sensitive to polyoxin B, but 11 isolates showed a high level of resistance, particularly from Kochang and Daegu where polyoxin B had been applied frequently. Conidial germination and mycelial growth of resistant isolates were not inhibited at higher concentrations of polyoxin B compared to the sensitive ones. The polyoxin-resistant isolates were not resistant to the fungicides iprodione and polydong and showed a reduced activity for conidial formation and mycelial growth. The isolates of A. mali with resistance to polyoxin B appear to have decreased fitness in nature.     

Primary cutaneous cryptococcosis

Cottonseed protein agar and a modified Tween-albumin casein hydrolysate (TAC) medium were compared for the yeast phase conversion of Blastomyces dermatitidis strains including fresh isolates as well as strains maintained in long-term storage. It was found that both media converted all the B. dermatitidis (mycelial phase) strains studied to yeast phase in three days. The TAC medium has the added advantage that it is clear and the growth can be recognized earlier than in the opaque cottonseed agar medium. The conversion in most cases was more than 95% and the morphology of the yeast cells was uniformly typical with broad base budding. There was a striking difference between the sensitivity of the yeast and mycelial phases of B. dermatitidis strains. The yeast phase was usually more sensitive to Amphotericin B than the mycelial phase of B. dermatitidis. Similarly, the yeast phases of four out of six strains were more sensitive to ketoconazole than their respective mycelial phases, while two strains showed identical sensitivity in cottonseed agar. The yeast phase organism was more susceptible to Amphotericin B when cottonseed medium was used whereas the yeast phase showed more susceptibility to ketoconazole in TAC medium. Since the sensitivity among the various strains differed, it is necessary to determine the antifungal susceptibility of the pathogenic phase of the organism for initiating proper therapy and monitoring effectiveness.Dr. Rose actively participated in this research; expired February 2, 1984.     

Inhibition of germ tube formation, filamentation and ergosterol biosynthesis inCandida albicans treated with 6-amino-2-n-pentylthiobenzothiazole

Three representativeCandida albicans strains were selected out of 26 clinical isolates and strains from culture collections on the basis of their high level of conversion to germ tubes and mycelial form at mycelium-promoting culture conditions, and on their different sensitivity to 6-amino-2-n-pentylthiobenzothiazole (APB). When these strains were treated with APB at mycelium-promoting culture conditions, a concentration-dependent decrease in the proportion of germ tubes and hyphae was observed, while the proportion of the yeast form increased. When non-saponifiable lipids were extracted from these cultures and analyzed, a concentration-dependent decrease in ergosterol and an increase in 4-methylated sterols was observed. However, the sensitivity of sterol biosynthesis did not directly relate to the sensitivity of the morphological conversion, and was exhibited at higher concentrations of APB. On the basis of these results it is suggested that the inhibition of germ tube formation and filamentation is not a consequence of inhibition of ergosterol biosynthesis in APB-treatedC. albicans.     

An Improved Growth Medium to Assess Mycelial Compatibility Groups in Sclerotium rolfsii

Mycelial compatibility is assayed mainly by pairing mycelial plugs of field isolates on Petri dishes with agar media. Although methodologically simple, mycelial compatibility testing requires an artificial growth medium that permits the identification of compatible and incompatible interactions. In this work, several growth media were studied to assess consistently mycelial interactions between Sclerotium rolfsii isolates. A modification of Patterson’s medium with an increment of 25% glucose from the original concentration at a rate of 23.4 g/l and amended with 180 μl/l of red food colouring was the most effective combination for enhancing the size, density and distinctiveness of the aversion zone between incompatible isolates. This medium allowed the unequivocal identification of compatible and incompatible reactions of a set of five S. rolfsii isolates, which could be determined quickly after 5 days of incubation in the dark at 25°C. This new formulation improved significantly and consistently the assessment of the aversion zone reaction that was visible as a red line on the colony reverse as compared to that assessed using previous media formulations, for which the visualization of aversion zones was scarcely discernible. The utility of the improved growth medium was validated by microscopic observations of the contact area of hyphal pairings between isolates of S. rolfsii in microscope slide cultures.     

The validity of in vitro screening methods in the search for fungal antagonists of Sclerotinia sclerotiorum causing wilt of sunflower

A multi‐test screening system identified 63 fungal isolates with high in vitro biocontrol activity against Sclerotinia sclerotiorum. A bioassay method was developed, using sunflower seedlings growing in an unsterilized loam mixture. Twenty‐six isolates were tested in a series of five bioassay tests and a significant correlation (P < 0.01) was found between sclerotial infection in vitro and the number of healthy plants in vivo. Conversely, activity in an in vitro mycelial overgrowth test was not significantly correlated with activity in vivo. However, some isolates showing only mycelial activity still exerted significant disease control in both the bioassays at Littlehampton and in three additional bioassays at Sittingbourne. Only one isolate not previously reported showed significant activity in both sets of bioassays and the lack of consistency in disease control activity by all other isolates, and biocontrol agents in general, was deemed a major barrier to their use.     

Armillaria jezoensis,a new symbiont ofGaleola septentrionalis (Orchidaceae) in Hokkaido

NineArmillaria isolates obtained from the roots ofGaleola septentrionalis in Hokkaido were identified asA. jezoensis by means of mating tests. Cultures of these isolates were similar in colony morphology, mycelial growth and rhizomorph formation on each of malt extract-dextrose agar (MDA), potato-dextrose agar (PDA), andG. septentrionalis root extractdextrose agar (GDA) media, showing better mycelial growth and rhizomorph formation on GDA medium.     

Influence of iturin A on mycelial weight and aflatoxin production byAspergillus flavus andAspergillus parasiticus in shake culture

Iturin A, a peptidolipid produced byBacillus subtilis, inhibits growth of a large number of fungi. In this study, the effects of iturin A were evaluated on nine isolates ofA. flavus and seven isolates ofA. parasiticus in liquid shake culture. The mycelial dry weight of theA. flavus isolates was not significantly influenced by iturin A, however, there was a significant reduction in mycelial dry weight for two of theA. parasiticus isolates. Aflatoxin production was significantly reduced in five of theA. flavus isolates and three of the six aflatoxigenicA. parasiticus isolates. For the other seven isolates, aflatoxin levels were either unchanged or significantly increased in the presence of iturin A. These results indicate that iturin A does not consistently reduce growth or aflatoxin production of these fungi in pure culture.     

Characteristics of 17Paracoccidioides brasiliensis isolates

We have studied the physiological and morphological features of 17 isolates ofParacoccidioides brasiliensis in order to define their phenotypes. The isolates were cultured at room temperature on potato dextrose agar (PDA, Difco) slants for mycelial growth and in 1% dextrose brain heart infusion agar (BHIA, Difco) at 37°C for the study of yeast forms. Most mycelial and yeast forms grew well between pH 5.6–9.4. In their response to osmotic pressure the isolates were separated in three groups: intolerant, intermediate and tolerant. They also varied in carbohydrate assimilation tests, which indicated important metabolic variation. No clear differences were observed in phenol oxidase tests, KNO₃, starch, casein and arbutin assimilation tests. Only 1 of the isolates, Bt-19, had gelatinase activity. No correlation was observed between the above differences and virulence. Two patterns of growth were observed in the mycelial cultures, glabrous and cottonous, the latter being correlated with increased virulence for ddY mice. Most yeast forms grew as cerebriform colonies, but Pb-HC and Bt-19 colonies had a cobblestone-like surface.     

Carbendazim resistance and dimethachlone sensitivity of field isolates of Sclerotinia sclerotiorum from oilseed rape in Henan Province,China

Sclerotinia stem rot caused by Sclerotinia sclerotiorum is one of the most important diseases in oilseed rape‐growing areas of China. To determine the frequency of resistance of field isolates of S. sclerotiorum to carbendazim and dimethachlone, a total of 556 isolates from 10 different regions of Henan Province were obtained between 2015 and 2016. The frequency of isolates with a high‐resistance phenotype and a moderate‐resistance phenotype to carbendazim was 69.2% and 10.8%, respectively. However, S. sclerotiorum isolates resistant to dimethachlone were not detected. The baseline sensitivity of S. sclerotiorum to dimethachlone was distributed as a unimodal curve with a mean EC₅₀ value of 0.39 ± 0.09 μg ml^?1 for the inhibition of mycelial growth. Four dimethachlone‐resistant mutants were obtained from 20 wild‐type isolates induced by exposure to increasing concentrations of the fungicide in vitro. The mutants showed high levels of resistance to dimethachlone, with resistance factors that ranged from 179 to 323. Positive cross‐resistance occurred between dimethachlone and procymidone, iprodione, and fludioxonil; however, no cross‐resistance was observed for carbendazim and boscalid. The fitness of the dimethachlone‐resistant mutants was significantly lower than that of the wild‐type isolates, as measured by mycelial growth, hyphal dry weight, sclerotium number and dry weight, and pathogenicity. Additionally, based on osmotic tests, the inhibition of mycelial growth caused by NaCl applied at different concentrations was significantly higher for the dimethachlone‐resistant mutants than for their wild‐type parents.     

A preliminary study on the effects of salicylic and jasmonic acids on Ganoderma boninense growth,mycelial hydrophobicity,and media pH under in vitro assays

Potato dextrose agar amended with salicylic acid (SA) suppressed growth of all Ganoderma boninense isolates. However, mycelial growth inhibitory effects varied with times, SA concentrations and G. boninense isolates. At 150 ppm of SA or higher, growth suppression diminished with time and mycelial growth recovery was observed. In contrast, jasmonic acid (JA) unexpectedly improved growth of G. boninense. At 21 day-after-inoculation, pH changes and hydrophobicity for the melanised mycelia were lower compared to non-melanised mycelia. The degree of inhibitory or promotional effects on the growth of G. boninense and the level of G. boninense mycelial hydrophobicity by SA and JA were isolate-dependent.     

Change in medium components and colony morphology due to mycelial growth of ectomycorrhizal fungusTricholoma bakamatsutake

Mycelia ofTricholoma bakamatsutake isolate No. 4 grew at temperatures ranging from 10 to 30°C, and the optimum was around 25°C. In well-buffered media of initial pH 5.0 and 6.0, No. 4 mycelia secreted gluconic acid and lowered medium pH. Mycelial growth then accelerated slightly; and with the exhaustion of glucose, growth and secretion of gluconic acid stopped. In 10 different media of initial pH 4.0–7.0, No. 4 mycelia showed higher gluconic acid secretion with higher initial pH. No. 4 mycelial grew best in pH 5.0 media, in which gluconic acid secretion was low. Mycelia of 29 isolates including No. 4 grew better in the media in which less glucose, total carbon and total nitrogen remained, and almost all isolates secreted gluconic acid. Most of the 29 isolates showed irregular colony shapes with rough mycelial fronts, brown pigmentation and aerial hypha on colony surfaces, and brown pigmentation of media under colonies. Dissimilarities were calculated with coded morphological characters on colonies, and similarity between isolates was found not to correlate with proximity of origin. Chlamydospores were observed on every colony of the 29 isolates. Chlamydospores were present on colonies of No. 4, reaching to 2 mm from the mycelial front, where brown pigmentation had not yet developed, and the numbers of chlamydospores incresed with mycelial aging.     

Trichoderma harzianum and its Metabolite 6-Pentyl-alpha-pyrone Suppress Fusaric Acid Produced by Fusarium moniliforme

The interaction of the pathogen Fusarium moniliforme and two antagonistic Trichoderma harzianum isolates was studied especially with respect to their secondary metabolites fusaric acid (FA) and 6‐pentyl‐alpha‐pyrone (6PAP). Among 10 isolates of F. moniliforme screened for FA production on maize kernels, the isolate 8 accumulated the highest amount of FA (678 μg/g). Mycelial growth and production of FA by isolate 8, determined in different liquid media revealed that the highest biomass and FA were produced in Czapek Dox Broth (CDB) followed by Richard’s solution. The amount of FA per gram mycelial dry weight reached its maximum in CDB and Richard’s solution after 14 days of incubation. Mycelial growth and conidia production of both Trichoderma isolates (T16 and T23) were retarded by increasing concentrations of FA in agar medium. At FA concentration of 300 mg/ml the radial mycelial growth of the isolates T16 and T23 were retarded by 32.5% and 45%, respectively. Conidia production was diminished in a similar extent as mycelial growth. Both T. harzianum isolates were capable to degrade FA in potato dextrose broth medium, particularly when lower doses of FA were present. In the presence of 50 mg/ml FA in the culture medium, the isolates T23 and T16 reduced FA by 51.4% and 88.4%, respectively, 9 days post‐inoculation. The antifungal metabolite 6PAP, isolated from T. harzianum T23 cultures, was introduced at different concentrations into 2‐day‐old cultures of F. moniliforme. After further 5 days of incubation of F. moniliforme in the presence of 6PAP, the FA contents per gram mycelial dry weight were significantly decreased compared to control cultures where 6PAP was absent. Dosages of 300 and 400 mg/l of 6PAP in the cultures retarded FA accumulations by 62.5% and 77.2%, respectively. The current results, however, provided the first evidence for activity of 6PAP, as a Trichoderma secondary metabolite, on degrading/synthesis suppression of the Fusarium toxin FA.     

Relationships between fungal uptake of ammonium, fungal growth and nitrogen availability in ectomycorrhizal Pinus sylvestris seedlings

 Nitrogen deposition and intentional forest fertilisation with nitrogen are known to affect the species composition of ectomycorrhizal fungal communities. To learn more about the mechanisms responsible for these effects, the relations between fungal growth, nitrogen uptake and nitrogen availability were studied in ectomycorrhizal fungi in axenic cultures and in symbiosis with pine seedlings. Effects of different levels of inorganic nitrogen (NH₄) on the mycelial growth of four isolates of Paxillus involutus and two isolates of Suillus bovinus were assessed. With pine seedlings, fungal uptake of ¹⁵N-labelled NH₄ was studied in short-term incubation experiments (72 h) in microcosms and in long-term incubation experiments (3 months) in pot cultures. For P. involutus growing in symbiosis with pine seedlings, isolates with higher NH₄ uptake were affected more negatively at high levels of nitrogen availability than isolates with lower uptake. More NH₄ was allocated to shoots of seedlings colonised by a high-uptake isolate, indicating transfer of a larger fraction of assimilated NH₄ to the host than with isolates showing lower NH₄ uptake rates. Thus low rates of N uptake and N transfer to the host may enable EM fungi avoid stress induced by elevated levels of nitrogen. Seedlings colonised by S. bovinus transferred a larger fraction of the ¹⁵N label to the shoots than seedlings colonised by P. involutus. Seedling shoot growth probably constituted a greater carbon sink in pot cultures than in microcosms, since the mycelial growth of P. involutus was more sensitive to high NH₄ in pots. There was no homology in mycelial growth rate between pure culture and growth in symbiosis, but N uptake in pure culture corresponded to that during growth in symbiosis. No relationship was found between deposition of antropogenic nitrogen at the sites of origin of the P. involutus isolates and their mycelial growth or uptake of inorganic nitrogen. Accepted: 18 September 1998     

Genetic diversity analysis of <Emphasis Type="Italic">Sclerotinia sclerotiorum</Emphasis> causing stem rot in chickpea using RAPD,ITS-RFLP,ITS sequencing and mycelial compatibility grouping

Sclerotinia sclerotiorum is one of the most devastating soil-inhabiting fungal plant pathogens infecting various crop plants including chickpea. Genetic diversity of 24 isolates of S. sclerotiorum representing 10 different states of India was determined by different molecular markers and mycelial compatibility grouping (MCG). The majority of the isolates showed more than 90% genetic similarity. Unweighted paired group method with arithmetic average cluster analysis of DNA profiles generated by 21 RAPD primers grouped the isolates into seven categories showing high magnitude of genetic homogeneity and showed partial correlation with geographical origin of the isolates. Identical ITS-RFLP profiles were generated in all the isolates. Limited variability was observed among the nucleotide sequences of ITS region of the isolates. The phylogenetic tree generated from bootstrap neighbor-joining analysis indicated that 50% of Indian populations were distinct and grouped separately. The isolates were variable in mycelial compatibility and they were grouped into seven MCGs, namely, MCG A, MCG B, MCG C, MCG D, MCG E, MCG F and MCG G.     

Water as a substrate for the development of Paracoccidiodes brasiliensis mycelial form

Two isolates of P. brasiliensis in the mycelial form were studied for their capacity to survive and grow in sterile distilled water (SDW). Inoculum for the experiments consisted of a spectrophotometrically-standardized suspension of washed and homogenized mycelial fragments; these had been obtained from 2-week old cultures grown in a synthetic medium (SM). Series of tubes with SDW and SM were incubated with the above suspension and kept stationary for 6 months at either 4 °C or room temperature (RT). Growth was measured by dry weight (DW) and turbidity (OD) determinations; additionally, CFU and ultrastructural appearance by transmission electron microscope (TEM) were assesed for one of the isolates. In general, cultures in SM at RT, grew exponentially after 2 weeks, becoming stationary for 7 weeks and then, declining abruptly. In SDW, fungal development was slow for 5 months when an increase in mass was recorded. When incubated at 4° C, both SDW and SM cultures required longer time to develop but mass also increased. Morphologically, mycelial elements in SDW at RT exhibited increased lipid vacuoles and glycogen deposits but were otherwise normal up to 6 weeks when they presented the inter-hyphae-hyphae phenomenum. In SDW P. brasiliensis appears to utilize debris from its degenerated fungal partners to continue growing.     

Association between vegetative compatibility and aflatoxin production by <Emphasis Type="Italic">Aspergillus</Emphasis> species during intraspecific competition

Intraspecific competition is the basis for biological control of aflatoxins, but there is little understanding of the mechanism(s) by which competing strains inhibit toxin production. Evidence is presented that demonstrates a relationship between strength of the vegetative compatibility reaction and aflatoxin production in Aspergillus flavus and A. parasiticus using the suspended disk culture method. Combining wild-type aflatoxin-producing isolates belonging to different vegetative compatibility groups (VCGs) resulted in a substantial reduction in aflatoxin yield. Pairs of aflatoxin-producing isolates within the same VCG, but showing weak compatibility reactions using complementary nitrate-nonutilizing mutants, also were associated with reduced levels of aflatoxin B₁. In contrast, pairings of isolates displaying a strong compatibility reaction typically produced high levels of aflatoxins. These results suggest that interactions between vegetatively compatible wild-type isolates of A. flavus and A. parasiticus are cooperative and result in more aflatoxin B₁ than pairings between isolates that are incompatible. Successful hyphal fusions among spore germlings produce a common mycelial network with a larger resource base to support aflatoxin biosynthesis. By comparison, vegetative incompatibility reactions might result in the death of those heterokaryotic cells composed of incompatible nuclei and thereby disrupt the formation of mycelial networks at the expense of aflatoxin biosynthesis. The content of this paper was presented at the 50th Anniversary Meeting of the Mycological Society of Japan, June 3–4, 2006, Chiba, Japan     

Experimental histoplasmosis in temporarily „hibernating“ hamsters

Summary Although occasional hibernation was observed in golden hamsters kept at low temperatures during the winter months, the periods of hibernation were apparently too short to induce conversion of the yeast cells ofH. capsulatum into the mycelial phase or to prevent conversion into the yeast phase when inoculated in the mycelial phase.As a result of exposure to low temperatures, a heavily disseminated, severe and often fatal histoplasmosis was observed in contrast to slight dissemination in control animals kept at room temperature.In addition to extensive lesions in the organs in the heavily infected hamsters, severe fungemia, accumulations of numerous yeast cells within large cells and histoplasmic phlebitis and pleuritis of a proliferative character were seen.Schaumann bodies did not develop in granulomatous lesions of heavily infected animals kept at low temperatures, nor were they prominent in tissues with heavy accumulations of yeast cells or after inoculation with the mycelial phase.This project was supported in part by Grant E-576 from the National Institutes of Health.     

Relationship between growth rate of Helminthosporium oryzae isolates on calluses of rice cultivars and their disease reaction on rice plants

Rice cultivars showed differential reaction to various isolates of Helminthosporium oryzae, the brown spot pathogen. The calluses obtained from those cultivars behaved in a similar manner to the mycelial growth of pathogenic isolates on them. However, amount of inoculum, size of the callus and period of incubation influenced the reaction of the callus to the fungal isolates.     

Genetic and Phenotypic Diversity among Botrytis cinerea Isolates in Iran

Forty-four Botrytis cinerea isolates from different hosts and geographical regions were studied for colony morphology, mycelial growth rate at different temperatures, pathogenicity and molecular diversity. Botrytis cinerea isolates had temperature optima of 20–25°C and isolates showed variation in growth rate at different temperatures. Two morphological types were identified among tested isolates: mycelial and sclerotial. The pathogenicity of isolates was tested on grapevine leaves, and it was revealed that nine of 44 isolates were non-pathogenic and among them seven were of mycelial type. There was no correlation between mycelium growth rate and pathogenicity. Genetic diversity was investigated using nine arbitrary decaprimers. No relationship was found between molecular clusters and geographical region or sampling time; whereas isolates from the same plant host tended to cluster with each other. Seven of nine non-pathogenic isolates were separated from pathogenic ones.     

Molecular and physiological diversity among Verticillium fungicola var. fungicola

The genetic and physiological variability of Verticillium fungicola var. aleophilum responsible for Agaricus bisporus dry bubble disease in North America is well documented but little is known about the var. fungicola affecting European crops. Variability was assessed within this variety and compared with that reported for the var. aleophilum. Eighteen isolates of V. fungicola var. fungicola and four var. aleophilum isolates were analysed for DNA polymorphism, mycelial growth, response to biochemicals produced by A. bisporus, fungicide resistance, and pathogenicity assessed by direct inoculation on sporophore or casing contamination. RAPD and AFLP markers delineated three French isolates from a homogeneous group containing the other var. fungicola isolates, but no correlation could be drawn between DNA polymorphism and the various traits studied. The var. fungicola isolates were more susceptible than the var. aleophilum isolates to the antibiosis effect of A. bisporus. Only mycelial growth rate at 23 °C could explain the variability in aggressiveness among the European isolates. The putative effect of the post-incubation temperature on contamination during mushroom cultivation was discussed. This work emphasized that, like the American var. aleophilum, the var. fungicola in Europe is genetically homogeneous, but physiological diversity exists, especially in France where it could be related to less standardized cultural practices.