Research Keyword: wheat disease

Sanctuary: a Starship transposon facilitating the movement of the virulence factor ToxA in fungal wheat pathogens

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Researchers found that a disease-causing gene called ToxA, which helps fungal pathogens infect wheat crops, travels between different fungal species using molecular ‘cargo ships’ called Starship transposons. By sequencing multiple fungal isolates, scientists discovered that ToxA rides within a larger mobile genetic element called Sanctuary that can move around within fungal genomes and between species. This discovery helps explain how wheat pathogens become more dangerous over time through horizontal gene transfer.

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Functional Characterization of FgAsp, a Gene Coding an Aspartic Acid Protease in Fusarium graminearum

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Scientists studied a specific gene called FgAsp in a fungus that causes wheat disease and produces harmful toxins. By deleting this gene, they found it controls important fungal processes like growth, reproduction, and the ability to infect wheat plants. The modified fungus produced less toxin and was less harmful, suggesting this gene could be targeted to develop new fungicides to protect crops.

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A Method to Inoculate Millet Grain-Colonized Fusarium pseudograminearum on Wheat to Obtain Reproducible Disease Symptoms

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Researchers developed a reliable laboratory method to test wheat varieties for their ability to resist a serious fungal disease called crown rot caused by Fusarium pseudograminearum. Using millet grains colonized with the fungus as an inoculum, they can now consistently and quickly identify which wheat varieties are naturally resistant to the disease. This standardized method helps plant breeders efficiently select resistant wheat cultivars, reducing the need for chemical pesticides.

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