Caroline Deweer scite author profile

The association of the cell wall degrading enzyme endo-beta-1,4-xylanase (EC 3.2.1.8) with pathogenicity of Mycosphaerella graminicola was examined in planta. The enzyme production of two M. graminicola isolates (T0372 and T0491), as well as their ability to infect seedlings of susceptible wheat cv. Scorpion, was first compared. No significant difference was found between the two isolates regarding spore germination rates, mycelial growth on the leaf surface or direct and stomatal penetrations. However, restricted hyphal growth was observed inside leaves inoculated with T0372, whereas successful mesophyll colonization with a strong intercellular fungal growth was found in leaves infected with T0491. Likewise, T0372 was unable to induce lesions bearing pycnidia and to produce endo-beta-1,4-xylanase activity until 22 days post-inoculation (d.p.i.). On the other hand, significant high increases of both diseased leaf area bearing pycnidia and endo-beta-1,4-xylanase activity were observed between 16 and 22 d.p.i. for T0491 (r = 0AE98). The investigation of 24 additional isolates, including the IPO323 and IPO94269 reference isolates, highlighted a strong correlation between endo-beta-1,4-xylanase activity and disease development levels (r = 0AE94). This study demonstrates that differences in pathogenicity in M. graminicola are not linked to events on the leaf surface or to frequency of leaf penetration, but to the ability of the fungus to colonize the mesophyll and to produce the cell wall degrading enzyme endo-1,4-beta-xylanase during the necrotrophic phase.

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Antifungal Activities of Bacillus subtilis Lipopeptides to Two Venturia inaequalis Strains Possessing Different Tebuconazole Sensitivity

Desmyttere

Deweer

Muchembled

et al. 2019

Front. Microbiol.

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Within the framework of biocontrol development, three natural substances produced by Bacillus subtilis, called lipopeptides, have been studied: fengycin (F), surfactin (S), and mycosubtilin (M). Their antifungal properties were tested in vitro, in liquid medium, on two strains of Venturia inaequalis, ascomycete fungi causing apple scab. These two strains were, respectively sensitive and less sensitive to tebuconazole, an active substance of the triazole family. These three molecules were tested on their own, in binary (FS, FM, SM) and ternary mixtures (FSM). The antifungal activities of lipopeptides were estimated by calculating an IC50, compared to tebuconazole chemical substance. In tests involving the sensitive strain, all lipopeptide modalities exhibited antifungal activity. However, modalities involving fengycin and its mixtures exhibited the best antifungal activities; the activity of fengycin alone being very similar to that of tebuconazole. Interestingly, regarding the strain with reduced sensitivity to tebuconazole, surfactin and fengycin alone were not efficient while mycosubtilin and the different mixtures showed interesting antifungal activities. Specifically, the antifungal activity of FS and FSM mixture were equivalent to that of tebuconazole. For both fungal strains, microscopic observations revealed important morphological modifications in the presence of fengycin and in a less important proportion in the presence of surfactin but not in the presence of mycosubtilin. Overall, this study highlights the diversity in mode of action of lipopeptides on apple scab strains.

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Azoxystrobin resistance of French Mycosphaerella graminicola strains assessed by four in vitro bioassays and by screening of G143A substitution

et al. 2010

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Caroline Deweer

Correlation of in planta endo‐beta‐1,4‐xylanase activity with the necrotrophic phase of the hemibiotrophic fungus Mycosphaerella graminicola

Antifungal Activities of Bacillus subtilis Lipopeptides to Two Venturia inaequalis Strains Possessing Different Tebuconazole Sensitivity

Azoxystrobin resistance of French Mycosphaerella graminicola strains assessed by four in vitro bioassays and by screening of G143A substitution

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