Abstract
T. asperellum SKT-1 and Gibberella fujikuroi, known as causal agents of gBakanaeh disease, were both transformed with genes encoding green fluorescent protein (GFP) and hygromycin B (hygB) by restriction enzyme mediated integration (REMI). Rice seeds inoculated with GFP-tagged G. fujikuroi showed gBakanaeh symptoms. GFP-tagged SKT-1 maintained biocontrol activity against the pathogen by soaking seeds in SKT-1 spore suspension. Then, we monitored in situ interactions between SKT-1 and G. fujikuroi on rice seeds using GFP-tagged transformations under confocal scanning laser stereomicroscopy. G. fujikuroi disappeared from the embryo of rice seeds after treatment with SKT-1, whereas SKT-1 was observed on the embryo 24 hrs after initiation of germination. In addition, the hyphae of G. fujikuroi were penetrated by the hyphae of SKT-1, and degradation of the cell walls of G. fujikuroi was observed under SEM in co-culture. The cell wall of G. fujikuroi on the embryo of rice seeds was lysed, suggesting that mycoparasitism is the mode of action of T. asperellum SKT-1.
*Kumiai Chemical Industry
J Pestic Sci doi:10.1584/jpestics.G06-35 (2007)
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