Author
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Jia, Yulin |
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VALENT, BARBARA - KANSAS STATE UNIV |
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LEE, FLEET - UA RREC |
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Submitted to: Rice Technical Working Group Meeting Proceedings
Publication Type: Abstract Only Publication Acceptance Date: 2/24/2002 Publication Date: N/A Citation: N/A Interpretive Summary: Technical Abstract: Rice blast disease caused by the fungal pathogen Magnaporthe grisea is one of the most devastating agricultural diseases worldwide. Rice blast disease is spread by fungal spores that are deposited onto the plant by drizzle deposition, dew, etc. Immediately after attaching to the rice leaf, fungal spores begin to germinate and infect the leaf. However, only a few infection sites can be obtained in the laboratory even after extensive spraying with conidial spore suspensions. A spot inoculation method to produce more uniform infection on detached rice leaves with various isolates of Magnaporthe grisea was developed. Fungal spores were suspended in 0.25% gelatin and serially diluted with Tween-20. Standard pathogenicity assays in the greenhouse indicated no deleterious effects from Tween-20 or gelatin to rice blast development. Microscopic examination was used to distinguish between cell death due to blast infection and cell death due to hypersensitive response. The spot inoculation method was evaluated using three well-characterized M. grisea isolates and results were confirmed with standard pathogeneicity assays in the greenhouse. Using the spot inoculation method, disease reactions of four representative isolates of M. grisea with differential rice varieties were critically evaluated. Successful application of this assay will help to identify novel sources of rice blast resistance and determine m. grisea pathogenecity for breeding a broad-spectrum of rice blast resistance. |
