The fungicide tridemorph as a selective herbicide for the control of Holcus lanatus in ryegrass and of Bonus sterilis in barly

The potential of the fungicide tridemorph selectively to control established plants of Holcus lanatus L. in ryegrass (Lolium perenne L) and Bromus sterilis L. in barley (Hordeum vulgare L.) was examined in glasshouse trails. A dose of 4.2 kg ha^?1 tridemorph gave selectively between H. lanatus and ryegrass similar to, but more costly than, that which would be provided by 1.2 kg ha^?1 asulam. B sterilis was more sensitive to tridemorph than was barley. Two additives, glycerol and the oil-surfactant mixture ‘PF’ enhanced this selectivity when tridemorph was applied at 2.1 kg ha^?1.     

Resistance to inhibitors of sterol biosynthesis in field isolates or laboratory strains of the eyespot pathogen Pseudocercosporella herpotrichoides

Strains of Pseudocercosporella herpotrichoides collected in France on winter wheat give either fast-growing mycelial colonies with regular margins or slow-growing mycelial colonies with irregular margins. Most of the fastgrowing isolates were sensitive to triadimenol (EC₅₀ below 2mg litre^?1), but some of them were resistant to this inhibitor of sterol C-14 demethylation. In contrast, all the slow-growing strains were highly resistant to triadimenol (EC₅₀ greater than 100 mg litre^?1). This resistance was also expressed in inhibition of germ-tube elongation. Positive cross-resistance was observed between most of the inhibitors of sterol C-14 demethylation, with the exception of some imidazole derivatives (clotrimazole, prochloraz). All the fast-growing strains were tolerant to fenpropimorph and fenpropidin whereas the slow-growing ones were susceptible; the reverse was true with piperalin and tridemorph. All the field isolates were inhibited to the same extent by the inhibitors of squalene-epoxidase, nafifine and terbinafine. Two types of mutant resistant to triadimenol have been induced under laboratory conditions from sensitive fast-growing strains. The most common mutants were resistant to all the inhibitors of sterol C–14 demethylation and also in some conditions to fenpropimorph, tridemorph and the inhibitors of squalene-epoxidase. The other mutants were characterised by a reduced spectrum of cross-resistance between triadimenol and the other inhibitors of sterol biosynthesis. The field isolates and laboratory mutants resistant to triadimenol and propiconazole were also resistant to each of the four enantiomers of these two fungicides.     

On a difference in the antifungal activity of tridemorph and its formulated product Calixin

The antifungal effects of tridemorph and its formulated product Calixin were compared in vitro on Ustilago maydis, Saccharomyces cerevisiae, Torulopsis candida, Botrytis allii, and Cladosporium cucumerinum. MIC values for both products were about the same. In liquid media the products were somewhat more effective than on solid media. T. candida proved sensitive only at pH 5, but the other organisms were as sensitive at pH 7 as at pH 5. Whereas tridemorph even at high concentrations did not affect oxygen consumption of these organisms, Calixin at concentrations slightly above the MIC values appeared to inhibit respiration. This effect of Calixin could be explained by the presence of Nekanil LN in the formulation. This compound inhibited both growth and respiration of the organisms at high concentrations; however, in the simultaneous presence of tridemorph a synergistic effect on oxygen consumption was observed.     

Effects of pyroquilon on the infection process of Monilinia laxa causing peach twig blight

The capacity of Monilinia laxa (Aderh. et Ruhl.) Honey to induce peach twig blight was lost in an albino mutant and in a wild-type strain of the pathogen treated with pyroquilon, a melanin biosynthesis inhibitor. Pyroquilon (10 ù ml^?1) inhibited melanin biosynthesis but did not inhibit mycelial growth of the pathogen or the albino mutant in vitro. These observations indicate that the compound interferes in some manner with the infection process of host cells.     

Effect of certain fasciolicides on malate dehydrogenase activity of Fasciola hepatica: A possible biochemical mode of action of hexachlorophene and oxyclozanide

The effect of nitroxynil, rafoxanide, diamphenethide, oxyclozanide and hexachlorophene on the malate dehydrogenase activity of homogenates of Fasciola hepatica was investigated. The ratio of oxaloacetate reduction to malate oxidation in homogenates of F. hepatica was 6.2:1. Nitroxynil, rafoxanide and diamphenethide had no inhibitory effect on malate dehydrogenase at 10^?3 M . Oxyclozanide at 10^?3 M inhibited malate oxidation by 100% and oxaloacetate reduction by 81%, while 10^?3 M hexachlorophene inhibited activity in both directions by 100%. The inhibition quotient (K₁ of bovine liver/K_i of F. hepatica) was 7.8 for oxyclozanide and 5.4 for hexachlorophene. No inhibition was seen with 2,4-dinitrophenol at 10^?3 M . Rapid death resulted in vitro with 10^?4 M oxyclozanide and 10^?5 M hexachlorophene. Oxaloacetate reduction was inhibited 61% and malate oxidation 91% with oxyclozanide and 71 and 100% respectively with hexachlorophene. Slow death was also seen at 10^?6 M concentration with both products although there was only 30% inhibition of malate dehydrogenase. Both products act as non-competitive inhibitors of malate dehydrogenase and this inhibition is more marked against the mitochondrial subcellular fraction than the cytoplasmic fraction.     

On the antifungal mode of action of tridemorph

Tridemorph (2,6-dimethyl-N-tridecylmorpholine) was active against representative of nearly all taxonomic groups of fungi; gram-positive bacteria were also sensitive although gram-negative were not. Tridemorph, 3–10 μg/ml, inhibited the multiplication of sporidia of Ustilago maydis more strongly than the increase of dry weight. The treated sporidia appeared swollen, multicellular, and sometimes branched. Unsaturated lipophilic compounds like α-tocopherol and trilinolein alleviated the toxicity of tridemorph to Botrytis allii and U. maydis. Protein and RNA syntheses were inhibited slightly. DNA synthesis was rather strongly affected already after 2 hr. Lipid synthesis was first inhibited but later stimulated. At an early stage (2 hr) treated cells differed already from control cells by a higher content of free fatty acids. Tridemorph also inhibited sterol biosynthesis. The antimicrobial spectrum, the characteristic morphology of treated cells of U. maydis, the observations on cross-resistance, the alleviating effect of unsaturated lipophilic compounds, and the alterations in neutral lipid pattern suggest strong similarity of the mode of action of tridemorph with that of the known inhibitors of sterol biosynthesis.     

Effects of sterol biosynthesis inhibitor fungicides in the phytopathogenic fungus,Nectria haematococca: ergosterol depletion versus precursor or abnormal sterol accumulation as the mechanism of fungitoxicity

The relative importance of the depletion of ergosterol versus the accumulation of precursor or abnormal sterols in the mechanism of fungal growth inhibition by sterol biosynthesis inhibitor fungicides is incompletely understood. In order to investigate this problem further, the degree of inhibition of the growth of Nectria haematococca by fungicides with different enzymatic targets in the sterol biosynthetic pathway was determined and compared with their effects on the sterol profile. The sensitivity of N. haematococca was highest towards fenpropimorph, followed by tebuconazole, terbinafine, fenpropidin and tridemorph. Terbinafine, a squalene epoxidase inhibitor, induced a very large accumulation of squalene without very significant inhibition of ergosterol biosynthesis and growth. The fungus appeared able to tolerate large amounts of squalene. In the case of tebuconazole, a sterol 14α-demethylase inhibitor, it seemed that the accumulation of C4 mono- and dimethyl sterols was responsible for fungitoxicity. Fenpropimorph and fenpropidin seemed to be good inhibitors of both sterol Δ¹⁴-reductase and Δ⁸→Δ⁷-isomerase, whereas tridemorph was a better inhibitor of Δ⁸→Δ⁷-isomerase than of the Δ¹⁴-reductase. Large accumulations of Δ^8,14- or Δ⁸-sterols and correspondingly large decreases in the ergosterol content are both implicated in the fungitoxicity of these compounds in N. haematococca. © 1998 Society of Chemical Industry     

The effect of three fungicides,specific for the control of rice blast disease,on the growth and melanin biosynthesis by Pyricularia oryzae cav.

Tricyclazole (EL 291), 4,5-dihydro-4-methyltetrazolo [1,5-a] quinazolin-5-one (PP 389), and pyroquilon (CGA 49104) were studied to determine the effects on growth and melanin biosynthesis by Pyricularia oryzae in vitro. The three fungicides were essentially devoid of toxicity to P. oryzae at concentrations up to 50 ug ml^?1 but each selectively inhibited melanin biosynthesis at much lower concentrations. Inhibition of melanin biosynthesis resulted in the accumulation of 2-hydroxyjuglone and flaviolin. The study indicated that the three compounds act by a similar mechanism in P. oryzae..     

Potential inhibitors against <Emphasis Type="Italic">Sclerotinia sclerotiorum</Emphasis>, produced by the fungus <Emphasis Type="Italic">Myrothecium</Emphasis> sp. associated with the marine sponge <Emphasis Type="Italic">Axinella</Emphasis> sp.

Sclerotinia sclerotiorum is a worldwide ascomycete fungal plant pathogen, which causes enormous yield losses on major economic crops such as crucifers, grain legumes and several other plant families. The objective of this research was to isolate and characterise some bioactive products from cultures of fungi associated with the marine sponge Axinella sp. In total, nine fungal isolates were obtained from the marine sponge Axinella sp. collected from the South China Sea. A group of test strains, including two G⁺ strains (Bacillus subtilis and Staphylococcus aureus), two G⁻ strains (Escherichia coli and Pseudomonas aeruginosa) and three fungi including two plant pathogenic fungi Sclerotinia sclerotiorum and Magnaporthe grisea and Saccharomyces cerevisiae, were employed as the indicator organisms for bioactivity screening. Using antagonistic tests and bioactive screening of the ethyl acetate (EtOAc) extracts of the corresponding cultures, fungal isolate JS9 showed the stronger efficacy against the test indicator strains, especially the indicator fungal pathogens. Isolate JS9 was further identified as Myrothecium sp. by a combination of morphological features and 18S rDNA BLAST on GenBank. Two macrocyclic trichothecenes, roridin A (compound 1) and roridin D (compound 2) were purified by tracking the activity of the EtOAc extract fractions and characterised with spectral analyses including MS, ¹H-NMR, ¹³C-NMR and disortionless enhancement by polarization transfer (DEPT). In vitro antifungal tests showed that the two macrocyclic trichothecenes were bioactive against S. cerevisiae, M. grisea and S. sclerotiorum with minimal inhibitory concentrations of 31.25, 125 and 31.25 μg ml⁻¹ for roridin A, and 62.5, 250 and 31.25 μg ml⁻¹ for roridin D, respectively. The present investigation demonstrated that two antifungal trichothecenes including roridin A and roridin D produced by the fungus Myrothecium sp. isolated from the marine sponge Axinella sp. could be potential inhibitors against the plant pathogen S. sclerotiorum. Lian Wu Xie and Shu Mei Jiang contributed equally to this work.     

Effect of atrazine on growth, production of aflatoxin, and fatty acid and sterol biosynthesis by Aspergillus spp.

The effects of atrazine were studied on growth, production of aflatoxin, and fatty acid and sterol biosynthesis by four isolates of Aspergillus in vitro. There was little effect of atrazine on Aspergillus spp. at concentrations up to 20 μg ml^?1 but at 40 μg ml^?1 or above, growth, production of aflatoxin, and fatty acid and sterol biosynthesis were remarkably reduced. Palmitic, stearic and linoleic acid synthesis were inhibited in three of the isolates tested at 60 μg ml^?1. At 100 μg ml^?1, except ergosterol, the cholesterol and 5, 7-ergostadienol synthesis was totally inhibited in all isolates. Effet de l'atrazine sur la croissance, la production d'aflatoxine, et la biosynthèse d'acides gras et de stérols par Aspergillus spp. Chez quatre isolats d'Aspergillus, les effets de l'atrazine sur la croissance, la production d'aflatoxine, et la biosynthèse d'acides gras et de stérols ont étéétudiés in vitro. Jusqu'à des concentrations de 20 μg ml^?1, l'atrazine n'a eu que peu d'effets, mais à 40 μg ml^?1 et au-dessus, la croissance, la production d'aflatoxine, et la biosynthèse d'acides gras et de stérols ont été nettement réduites. Les synthèses d'acides palmitique, stéarique et linoléique ont été inhibées chez trois des isolats, à 60 μg ml^?1. A 100 μg ml^?1, mis à part l'ergostérol, les synthèses de cholestérol et de 5, 7-ergostanediol ont été totalement inhibées chez tous les isolats. Die Wirkung von Atrazin aufdas Wachslum, die Bildung von Aflatoxin und die Fettsäuren- und Sterol-Biosynthese von Aspergillus spp. Bei vier Isolaten von Aspergillus wurde in vitro die Wirkung auf das Wachstum sowie auf die Bildung von Aflatoxin, Fettsäuren und Sterolen untersucht. Bei Atrazin-Konzentrationen bis zu 20 μg ml^?1 war keine Wirkung zu beobachten, aber ab 40 μg ml^?1 wurden das Wachstum und die Bildung von Aflatoxin, Fettsäuren und Sterolen deutlich herabgesetzt. Bei 60 μg ml^?1 war bei drei Isolaten die Bildung von Palmitin-, Stearin- und Linolensäure gehemmt. Bei 100 μg ml^?1 war bei alien Isolaten die Bildung von Cholesterol und 5, 7-Ergostadienol, aber nicht Ergosterol, unterbunden.     

Studies on the interaction between the biocontrol agent,Serratia plymuthica A30, and blackleg‐causing Dickeya sp. (biovar 3) in potato (Solanum tuberosum)

Interactions between Serratia plymuthica A30 and a blackleg‐causing biovar 3 Dickeya sp. were examined. In a potato slice assay, S. plymuthica A30 inhibited tissue maceration caused by Dickeya sp. IPO2222 when co‐inoculated at a density at least 10 times greater than that of the pathogen. In glasshouse experiments, population dynamics of the antagonist and of the pathogen in planta were studied by dilution plating and confocal laser scanning microscopy (CLSM) using fluorescent protein‐tagged strains. Pathogen‐free minitubers were vacuum‐infiltrated with DsRed‐tagged Dickeya sp. IPO2222 and superficially treated during planting with a water suspension containing GFP‐tagged S. plymuthica A30. A30 reduced the blackleg incidence from 55% to 0%. Both the pathogen and the antagonist colonized the seed potato tubers internally within 1 day post‐inoculation (dpi). Between 1 and 7 dpi, the population of A30 in tubers increased from 10¹ to c. 10³ CFU g^?1 and subsequently remained stable until the end of the experiment (28 dpi). Populations of A30 in stems and roots increased from c. 10² to c. 10⁴ CFU g^?1 between 7 and 28 dpi. Dilution plating and CLSM studies showed that A30 decreased the density of Dickeya sp. populations in plants. Dilution plating combined with microscopy allowed the enumeration of strain A30 and its visualization in the vascular tissues of stem and roots and in the pith of roots, as well as its adherence to and colonization of the root surface. The implications of these finding for the use of S. plymuthica A30 as a biocontrol agent are discussed.     

Cytological and physiological studies of the effects of IBP on Pyricularia oryzae (II): Effects on apical cells of single hyphae

The effects of IBP (S-benzyl O,O-diisopropyl phosphorothioate) on tips of single hyphae of Pyricularia oryzae were investigated by interference contrast microscopy. Labelling hyphae with calcofluor white followed by IBP treatment revealed that elongation of apices of almost all hyphae at the colony margin was inhibited after treatment for 4 h. Successive observations on single hyphae of an IBP-sensitive isolate indicated that apical cells stopped elongating approximately 10 min after the onset of treatment with 2 μg IBP ml^?l. Small vacuoles appeared after 50 min; later they increased in number and size, and coalesced, finally producing a chain-like arrangement of vacuoles in the cytoplasm. When hyphae were treated with 10 μg IBP ml^?1, cessation of elongation and vacuolation occurred earlier than when treated with 2 μg ml^?1. Apical cells of hyphae of an IBP-tolerant isolate appeared unaltered even when treated with 10 μg ml^?1. These results indicate that a major effect of IBP is to inhibit specifically the growth of apical cells of the IBP-sensitive isolate.     

Silencing of Erwinia amylovora sy69 AHL‐quorum sensing by a Bacillus simplex AHL‐inducible aiiA gene encoding a zinc‐dependent N‐acyl‐homoserine lactonase

Quorum sensing in Gram‐negative bacteria is regulated by diffusible signal molecules called N‐acyl‐l ‐homoserine lactones (AHLs). These molecules are degraded by lactonases. In this study, six Bacillus simplex isolates were characterized and identified as a new quorum‐quenching species of Bacillus. An aiiA gene encoding an AHL‐lactonase was identified based on evidence that: (i) it showed high homology with other aiiA genes of Bacillus sp.; (ii) the deduced amino acid sequence contained two conserved regions, ¹⁰⁴SHLHFDH¹¹¹ and ¹⁶⁵TPGHTPGH¹⁷³, characteristic of the metallo‐β‐lactamase superfamily; and (iii) the protein had zinc‐dependent AHL‐degrading activity. Additionally, the expression of the aiiA gene was significantly up‐regulated by 3‐oxo‐AHL. The AHL‐lactonase inhibited multiplication of the 3‐oxo‐C6‐AHL‐producing plant pathogen Erwinia amylovora sy69 both in vitro and in planta. The results provide support for the use of the quorum‐quenching functionality of B. simplex in the integrated control of the devastating fire blight pathogen.     

Chalcone suppresses lignin biosynthesis in illuminated soybean cells

Lignin and its related metabolites play critical roles in plant growth and development. Thus, lignin biosynthesis has attracted interest as a novel target site of plant growth inhibitors. Chalcone has been shown to not only inhibit lignin biosynthesis in plants, but also to suppress the growth of many annual plant species. In order to know the direct effect of chalcone on plant metabolism, the effects of chalcone on the activities of key enzymes in lignin biosynthesis and on the related metabolites were clarified with a time‐course study by using light‐induced suspension cultures of soybean cells. The fresh weight and packed cell volume of the soybean cells were inhibited after 8 h of chalcone treatment. The activities of phenylalanine ammonia lyase (EC 4.3.1.24) and 4‐coumarate: coenzyme A ligase (4CL; EC 6.2.1.12) were largely inhibited 4 h after the treatment with 0.15 mmol L^?1 chalcone. Unlike these two enzymes, the activity of cinnamyl alcohol dehydrogenase (EC 1.1.1.195) was not inhibited until 16 h after the chalcone treatment. The content of the 4CL substrates and lignin in the soybean cells became relatively lower than the control under the light condition within 4 h and 8 h after the chalcone treatment, respectively. These results suggest that the growth suppression of soybean cells is positively associated with the inhibition of lignin biosynthesis by exogenous chalcone.     

四种拟除虫菊酯类杀虫剂对枸杞蚜虫的毒力及对三磷酸腺苷酶和谷胱甘肽S-转移酶活性的影响

为寻找防治枸杞蚜虫的适用药剂,采用玻璃管药膜法,测定了4种拟除虫菊酯类杀虫剂对枸杞蚜虫的毒力及对其三磷酸腺苷酶(ATPase)和谷胱甘肽S-转移酶(GSTs)活性的影响。结果表明:枸杞蚜虫对联苯菊酯最敏感,LC50值为4.34 mg/L;氯菊酯、高效氯氰菊酯和甲氰菊酯的LC50值分别为17.08、40.50和184.84 mg/L。4种杀虫剂对枸杞蚜虫两种ATPase活性均有抑制作用,药剂浓度为1×10-4mol/L时,4种药剂对Na+-K+-ATPase活性的抑制率均高于对Ca2+-M g2+-ATPase的抑制率,其中对Na+-K+-ATPase活性的抑制率从高到低依次为:联苯菊酯高效氯氰菊酯氯菊酯甲氰菊酯,而对Ca2+-M g2+-ATPase的抑制率则是联苯菊酯最高(46.41%),高效氯氰菊酯最低(33.04%)。4种药剂对枸杞蚜虫GSTs活性的影响差异较大:联苯菊酯在低浓度时对GSTs具有诱导作用,高浓度时则表现为一定的抑制作用;不同浓度高效氯氰菊酯和氯菊酯对GSTs活性均表现为抑制作用,抑制率最高达85.02%;而甲氰菊酯处理后GSTs的活性则升高了193.07%~249.96%。     

Effect of propiconazole on growth and sterol biosynthesis by Sclerotium rolfsii

Germination of sclerotia ofSclerotium rolfsii on agar nutrient medium was delayed or slightly inhibited by concentrations of propiconazole between 0.4 and 4.0 μg ml^?1, but was strongly inhibited by 8 μg ml^?1 and completely inhibited by 16 μg ml^?1. On the other hand, growth of hyphae from the germinated sclerotia was strongly inhibited by propiconazole at 1 μg ml^?1 or greater. Hyphal growth from agar discs on agar medium was about 8 times less sensitive than hyphal growth from the sclerotia or from hyphal inoculum in liquid media. Propiconazole at 0.25 and 1.0 μg ml^?1 strongly inhibited ergosterol biosynthesis, but this was not associated with large accumulations of C-14 methyl sterols. The ratio of eburicol to ergosterol in hyphae grown in the presence of 0.25 μg ml^?1 propiconazole for 16, 30 or 45 h was 0.11, 0.13 and 0.04, respectively, for the three intervals while for hyphae grown in the presence of 1 μg ml^?1, the ratios were 0.29, 0.36 and 0.30, respectively, for the same intervals. In view of a ratio of 23.5 for¹⁴C-acetate incorporation into the two sterols during the initial 6 h growth period in the presence of propiconazole, it is believed that the lack of large accumulation of C-14 methyl sterols is due to the feedback inhibition by eburicol or to cell lysis when the content of ergosterol becomes too low in the actively growing cells.     

Specific effects of tridemorph on sterol biosynthesis in Ustilago maydis

In an attempt to indicate the site of action of tridemorph in ergosterol biosynthesis by Ustilago maydis the nature of the sterol intermediates accumulating in treated cells was studied. At low growth-inhibiting concentrations of the toxicant (10 and 15 μg/ml) decline of ergosterol content during 6 hr of incubation was accompanied by an accumulation of various sterol intermediates of which ergosta-8,14-dien-3β-ol appeared to be the major sterol. After isolation of this intermediate its identity was further confirmed by direct comparisonof its ultraviolet, glc, and mass spectrum with those of an authentic synthesized sample of ergosta-8,14-dien-3β-ol (ignosterol). Results indicate that toxicity of tridemorph is caused by a specific inhibitive effect on the enzyme Δ¹⁴-reductase which is responsible for $\text{14}\text{15}$ double-bond reduction in sterol biosynthesis.     

Nematicidal efficacy of MCW‐2, a new nematicide of the fluoroalkenyl group,against the root‐knot nematode Meloidogyne javanica

BACKGROUND: The small number of available nematicides and restrictions on the use of non‐fumigant nematicides owing to high toxicity to human and non‐target organisms hinder effective nematode control. The nematicidal efficacy of MCW‐2, a new nematicide of the fluoroalkenyl group, was evaluated against the root‐knot nematode Meloidogyne javanica (Treub.) Chitwood. RESULTS: MCW‐2 showed irreversible nematicidal activity against second‐stage juveniles of M. javanica in vitro, following exposure for 48 h at concentrations as low as 0.5 mg L^?1, in contrast to fenamiphos or cadusafos. When exposed to MCW‐2 for shorter periods, motile juveniles became immobile with time after rinsing in water. MCW‐2 at 8 mg L^?1 inhibited nematode hatching, which, however, recovered after rinsing in water. In pot and plot experiments, 0.5 mg MCW‐2 L^?1 soil and 2 kg MCW‐2 ha^?1, respectively, controlled M. javanica similarly to or better than fenamiphos or cadusafos at the same concentrations or at their recommended doses. In the soil, the nematicidal activity of MCW‐2 was less persistent than that of fenamiphos. CONCLUSION: MCW‐2 has potential to be used as a new non‐fumigant nematicide that probably has a novel mode of action. Copyright © 2009 Society of Chemical Industry     

Inhibition of ergosterol biosynthesis in Ustilago maydis by the fungicide 1-[2-(2, 4-dichlorophenyl)-4-ethyl-1, 3-dioxolan-2-ylmethyl]-1H-1, 2, 4-triazole

Inhibition of sporidial multiplication in cultures of Ustilago maydis by 1-[2-(2, 4-dichlorophenyl)-4-ethyl-1, 3-dioxolan-2-ylmethyl]-1H-1, 2, 4-triazole^a (CGA-64251), at concentrations of 0.1, 1.0 and 5.0 μg ml^?1, increased from about 15% during the first 4 h, to 58–70% during the subsequent 4 to 12-h period. Sporidia became swollen and highly branched in the presence of the fungicide. Total lipid content as a percentage of the dry weight was not affected after exposure of the sporidia to the fungicide at 0.1 or 5 μg ml^?1 for 4 h, but synthesis of ergosterol and other demethyl-sterols was inhibited by 87–92%. Large quantities of methyl-sterol precursors of ergosterol and of free fatty acids accumulated in the treated sporidia. Fungitoxicity of CGA-64251 is attributed to inhibition of ergosterol biosynthesis at the stage of sterol C-14 demethylation.     

Distribution and molecular characterization of Corynespora cassiicola isolates resistant to boscalid

A total of 618 isolates of corynespora leaf spot fungus (Corynespora cassiicola) collected from 24 commercial cucumber greenhouses in 12 cities in Ibaraki Prefecture, Japan, were tested for their sensitivity to boscalid. Boscalid‐resistant isolates were detected in 17 out of 19 greenhouses with a history of use of this fungicide and detection frequencies of the resistant isolates exceeded 47% in nine greenhouses. Frequencies of very highly resistant (VHR) isolates with 50% effective concentration (EC₅₀) values of boscalid exceeding 30 μg mL^?1 were higher than those of moderately resistant (MR) isolates with EC₅₀ ranging from 2·0 to 5·9 μg mL^?1 in 11 greenhouses. Additionally, highly resistant (HR) isolates with EC₅₀ from 8·9 to 10·7 μg mL^?1 were first detected. Furthermore, molecular characterization of genes encoding succinate dehydrogenase (SDH) subunits (SdhA, SdhB, SdhC and SdhD) was carried out to elucidate the amino acid substitution responsible for the resistance to boscalid. All 23 VHR isolates had the same mutation from CAC to TAC in the SdhB gene leading to the substitution of histidine with tyrosine at amino acid position 278 (B‐H278Y). At the same position, the substitution to arginine conferred by a mutation to CGC (B‐H278R) was detected in all four HR isolates. Some MR isolates showed a substitution from serine to proline at position 73 in SdhC (C‐S73P), from serine to proline or from glycine to valine at position 89 (D‐S89P) and 109 (D‐G109V), respectively, in SdhD. There was no common mutation in SDH genes of all MR isolates.