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Moreno, A.B., Penas, G., Rufat, M., Bravo, J.M., Estopa, M., Messeguer, J. and San Segundo, B. (2005) Pathogen-Induced Production of the Antifungal AFP Protein from Aspergillus giganteus Confers Resistance to the Blast Fungus Magnaporthe grisea in Transgenic Rice. Molecular Plant-Microbe Interaction, 18, 960-972.
http://dx.doi.org/10.1094/MPMI-18-0960

has been cited by the following article:

  • TITLE: Bio-Control of Alternaria alternata during Banana Storage by Purified AFP Using Isoelectric Focusing Technique

    AUTHORS: Hassan Barakat

    KEYWORDS: Antifungal Protein (AFP), Alternaria alternata, Isoelectric Focusing, Antifungal Activity,

    JOURNAL NAME: Food and Nutrition Sciences, Vol.5 No.15, August 27, 2014

    ABSTRACT: Interestingly, antifungal protein AFP was purified from Aspergillus giganteus supernatants with modified isoelectric focusing procedure after adaptation of the secretion conditions. Subsequently, the antifungal activity as well as the mode of action against Alternaria alternata was tested in vitro. Moreover, different concentrations of AFP were applied to banana fruits for 15 days at 20°C in vivo. Obtained results illustrated that A. giganteus was able to secrete about 39.78 ± 2.39 mg AFP·l-1 Olson medium. The employed ammonium sulfate (AS 75%) precipitation procedure followed by dialysis steps yielded about 16 - 22 mg AFP·l-1 culture supernatant with general mean of 18.67 ± 1.98 mg·l-1. The lost amount of AFP during purification using AS and 3KDa cut-off dialysis membrane is about 50% thus, purification procedure must be further improved. Indeed, concluded results from MIC and hyphal extension inhibition test noticed that AFP was efficiently affected by either growth or hyphae form of A. alternata in vitro. The MIC of AFP against A. alternata was 2μg·ml-1. However,short, thick and highly septated hyphae with damaged constricted apical regions extruding from condensed mycelium aggregates in treated hyphae compared to the untreated culture was remarkably shown. The mode of action of in vitro experiment manifested that AFP was effective to act the fungal cell and permeabilize the cell membrane of A. alternata. Furthermore, the in vivo experiment showed that AFP could reduce post-harvest decay on banana caused by A. alternata. AFP at concentration of 15 and 25 μg·ml-1 exhibit Alternaria decayed reduction by 45.45% and 77.27%, respectively. While no Alternaria decayed area was observed when 50 μg·ml-1 was applied during the storage time. Quantification of DNA by species-specific PCR could exude a positive correlation between the DNA amount and decayed area. In conclusion, AFP can be efficiently used as a bio-preservative agent during storage and handling of banana fruits, and considered as an excellent biological alternative to combat secondary growth of filamentous fungi.