Abstract
Finger millet is an ancient African-Indian crop that is resistant to many pathogens including the fungus, Fusarium graminearum. We previously reported the first isolation of putative fungal endophytes from finger millet and showed that the crude extracts of four strains had anti-Fusarium activity. However, active compounds were isolated from only one strain. The objectives of this study were to confirm the endophytic lifestyle of the three remaining anti-Fusarium isolates, to identify the major underlying antifungal compounds, and to initially characterize the mode(s) of action of each compound. Results of confocal microscopy and a plant disease assay were consistent with the three fungal strains behaving as endophytes. Using bio-assay guided fractionation and spectroscopic structural elucidation, three anti-Fusarium secondary metabolites were purified and characterized. These molecules were not previously reported to derive from fungi nor have antifungal activity. The purified antifungal compounds were: 5-hydroxy 2(3H)-benzofuranone, dehydrocostus lactone (guaianolide sesquiterpene lactone), and harpagoside (an iridoide glycoside). Light microscopy and vitality staining were used to visualize the in vitro interactions between each compound and Fusarium; the results suggested a mixed fungicidal/fungistatic mode of action. We conclude that finger millet possesses fungal endophytes that can synthesize anti-fungal compounds not previously reported as bio-fungicides against F. graminearum.
Highlights
Finger millet (Eleusine coracana) is an ancient cereal crop widely grown by subsistence farmers in Africa and India
We conclude that finger millet possesses fungal endophytes that can synthesize anti-fungal compounds not previously reported as bio-fungicides against F. graminearum
Seedlings of finger millet were co-incubated with each putative fungal endophyte or with a known pathogen of finger millet, millet, Alternaria alternata
Summary
Finger millet (Eleusine coracana) is an ancient cereal crop widely grown by subsistence farmers in Africa and India. Finger millet is well known for its ability to tolerate stress conditions and to resist many pathogens, including Fusarium graminearum [2,3,4,5]. F. graminearum is a serious fungal pathogen that causes Fusarium Head Blight (FHB) in wheat and Gibberella Ear Rot (GER) in corn [6]. Both diseases result in catastrophic losses in grain yield and are associated with mycotoxin accumulation in grains [7]. Are ancient fungi that have been dated to 8.8 mya in Africa [8], the same continent where finger millet was domesticated Fusarium sp. are ancient fungi that have been dated to 8.8 mya in Africa [8], the same continent where finger millet was domesticated
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