Wheat blast pathogen M oryzae strain Br48 was grown on oatmeal

Wheat blast pathogen M. oryzae strain Br48 was grown on oatmeal

agar media at 24 °C for 7 days, and the mycelia were then rubbed and incubated for a further 3 days at 24 °C under near-UV light (360 nm, 40 W) to promote sporulation. Conidia were harvested with distilled water and the Selleckchem Alectinib concentration of spore suspension was adjusted to 2 × 104 conidia mL−1 for experimental assay. The wheat plant (Triticum aestivum cv. Norin 4), which is susceptible to M. oryzae strain Br48, was sown in a seedling case (5.5 × 15 × 10 cm) with vermiculite and grown in a 12-h photoperiod room at 22 °C. Primary leaves were used 10 days after planting for inoculation. To degrade polysaccharides, β-1,3-glucanase (1 U mL−1; Wako), α-glucosidase from Saccharomyces cerevisiae (10 U mL−1; Sigma), α-mannosidase

from jack beans (0.5 mg mL−1; Sigma), and β-mannosidase from Helix pomatia (0.5 U mL−1; Sigma) were used. For degrading proteins, α-chymotrypsin from bovine pancreas (1 U mL−1; Sigma), pepsin from porcine gastric mucosa (1 U mL−1; Selleck Roxadustat Sigma), protease (10 μg mL−1; MP Biomedicals), pronase E (50 μg mL−1; Merck), and trypsin from bovine pancreas (1 U mL−1; Sigma) were used. Lipase (1 mg mL−1; Wako) was used to degrade lipids. To degrade glycoproteins [with matrix metalloproteinases (MMPs)], collagenases from Clostridium histolyticum, consisting of crude type (50 μg mL−1; Wako), size-fractionated Gefitinib chemical structure type I (10 μg mL−1; Wako), size-fractionated type 4 (50 μg mL−1; MP Biomedicals), size-fractionated type V (50 μg mL−1; Wako), and size-fractionated type X (1 mg mL−1; Wako), collagenases from Streptomyces purvulus, consisting of size-fractionated type N-2 (50 μg mL−1; Nitta Gelatin) and size-fractionated type S-1 (670 μg mL−1; Nitta Gelatin); and recombinant gelatinase B from medaka (10 μg mL−1; Hokudo) were used. Each enzyme was dissolved in 50 mM Tris-HCl (pH 7.4) and the highest concentrations used that were not affected on spore germination were determined. Each 8-μL

drop of spore suspension (2 × 104 spores mL−1) was placed on the hydrophobic surface of a flexible vinyl plastic coverglass (Fisher Scientific) at 24 °C in a closed Petri dish containing water-absorbed filter paper. To trace the area of spore inoculation, circles were drawn with an oil pen on the plastic cover glass at opposite sides to the spores. The respective droplets were added with 2 μL of the individual enzymes, adjusted to the above-described concentration, at 0 hpi (ungerminated spore), 1 hpi (starting-to-germinate spore), and 6 hpi (about to form appressorium). The time course of morphological development has been described previously (Hamer et al., 1988; Inoue et al., 2007).

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