Chaowei Bi scite author profile

Wheat head blight caused by Gibberella zeae (anamorph: Fusarium graminearum) is a threat to food safety in China because of mycotoxin contamination of the harvested grain, the frequent occurrence of the disease, and the failure of chemical control in some areas due to benzimidazole resistance in the pathogen population. The molecular resistance mechanism, however, of G. zeae to benzimidazole fungicides (especially carbendazim; active ingredient: methyl benzimidazol-2-yl carbamate [MBC]) is poorly understood. DNA sequences of a beta-tubulin gene (beta(2)tub) (GenBank access number FG06611.1) in G. zeae were analyzed. Mutations in beta(2)tub in moderately resistant strains (MBC(MR)) included TTT (Phe)-->TAT (Tyr) at codon 167 or TTC (Phe)-->TAC (Tyr) at codon 200. A highly resistant strain (MBC(HR)) had two point mutations, one at codon 73, CAG (Gln)-->CGG (Arg), and the other at codon 198, GAG (Glu)-->CTG (Leu). To confirm that mutations in the beta(2)tub confer resistance to benzimidazole fungicides, the entire beta(2)tub locus was deleted from MBC(MR) and MBC(HR) strains of G. zeae. The resulting Deltabeta(2)tub mutants from both MBC(MR) and MBC(HR) strains grew normally on MBC-free potato dextrose agar medium and were supersensitive to MBC. Complementation of the Deltabeta(2)tub mutants by transformation with a copy of the intact beta(2)tub locus from their parent strains exhibited less resistance than the original strains, and complementation of the Deltabeta(2)tub mutants by transformation with a copy of the intact beta(2)tub locus from sensitive strains restored MBC sensitivity. The results indicated that the mutations in the beta(2)tub gene conferred resistance of G. zeae to benzimidazole fungicides and this gene can be used as a genetic marker in G. zeae.

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Localisation of the benzimidazole fungicide binding site of Gibberella zeae β₂‐tubulin studied by site‐directed mutagenesis

Qiu

et al. 2010

Pest Management Science

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β‐Tubulins in Gibberella zeae: their characterization and contribution to carbendazim resistance

Qiu

Huang

et al. 2012

Pest Management Science

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Ss‐Rhs1, a secretory Rhs repeat‐containing protein, is required for the virulence of Sclerotinia sclerotiorum

Xiao

Zhu

et al. 2016

Molecular Plant Pathology

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Sclerotinia sclerotiorum is a devastating necrotrophic plant pathogen with a worldwide distribution. Cell wall-degrading enzymes and oxalic acid are important to the virulence of this pathogen. Here, we report a novel secretory protein, Ss-Rhs1, which is essential for the virulence of S. sclerotiorum. Ss-Rhs1 is believed to contain a typical signal peptide at the N-terminal and eight rearrangement hotspot (Rhs) repeats. Ss-Rhs1 exhibited a high level of expression at the initial stage of sclerotial development, as well as during the hyphal infection process. Targeted silencing of Ss-Rhs1 resulted in abnormal colony morphology and reduced virulence on host plants. Microscopic observations indicated that Ss-Rhs1-silenced strains exhibited reduced efficiency in compound appressoria formation.

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Disruption of the Gene Encoding Endo-β-1, 4-Xylanase Affects the Growth and Virulence of Sclerotinia sclerotiorum

Xiao

et al. 2016

Front. Microbiol.

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Sclerotinia sclerotiorum (Lib.) de Bary is a devastating fungal pathogen with worldwide distribution. S. sclerotiorum is a necrotrophic fungus that secretes many cell wall-degrading enzymes (CWDEs) that destroy plant’s cell-wall components. Functional analyses of the genes that encode CWDEs will help explain the mechanisms of growth and pathogenicity of S. sclerotiorum. Here, we isolated and characterized a gene SsXyl1 that encoded an endo-β-1, 4-xylanase in S. sclerotiorum. The SsXyl1 expression showed a slight increase during the development and germination stages of sclerotia and a dramatic increase during infection. The expression of SsXyl1 was induced by xylan. The SsXyl1 deletion strains produce aberrant sclerotia that could not germinate to form apothecia. The SsXyl1 deletion strains also lost virulence to the hosts. This study demonstrates the important roles of endo-β-1, 4-xylanase in the growth and virulence of S. sclerotiorum.

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Chaowei Bi

Mutations in a β-Tubulin Confer Resistance of Gibberella zeae to Benzimidazole Fungicides

Localisation of the benzimidazole fungicide binding site of Gibberella zeae β₂‐tubulin studied by site‐directed mutagenesis

β‐Tubulins in Gibberella zeae: their characterization and contribution to carbendazim resistance

Ss‐Rhs1, a secretory Rhs repeat‐containing protein, is required for the virulence of Sclerotinia sclerotiorum

Disruption of the Gene Encoding Endo-β-1, 4-Xylanase Affects the Growth and Virulence of Sclerotinia sclerotiorum

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Chaowei Bi

Mutations in a β-Tubulin Confer Resistance of Gibberella zeae to Benzimidazole Fungicides

Localisation of the benzimidazole fungicide binding site of Gibberella zeae β2‐tubulin studied by site‐directed mutagenesis

β‐Tubulins in Gibberella zeae: their characterization and contribution to carbendazim resistance

Ss‐Rhs1, a secretory Rhs repeat‐containing protein, is required for the virulence of Sclerotinia sclerotiorum

Disruption of the Gene Encoding Endo-β-1, 4-Xylanase Affects the Growth and Virulence of Sclerotinia sclerotiorum

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Localisation of the benzimidazole fungicide binding site of Gibberella zeae β₂‐tubulin studied by site‐directed mutagenesis