Authors: Onuma Ruangwong, Wen-Jinn Liang, S.Y. Zhang, Chi-I Chang

Abstract:

The effect of antifungal compound from Bacillus subtilis strain LB5 was tested against conidial germination of Colletotrichum gloeosporioides and Pestalotiopsis eugeniae, causal agent of anthracnose and fruit rot of wax apple, respectively. Observation under scanning electron microscope and light compound microscope revealed that conidial germination was completely inhibited when treated with culture broth, culture filtrate, or crude extract from strain LB5. Identification of purified antifungal compound produced by strain LB5 in cell-free supernatant by nuclear magnetic resonance and fast atom bombardment showed that the active compound was iturin A-2.

Keywords: Iturin A-2, Bacillus subtilis LB5, Colleteotrichum gloeospporioides, Pestalotiopsis eugeniae, wax apple

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1327512

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References:

[1] A. Isogai, S. Takayama, S. Murakoshi, and A. Suzuki, "Structures of β- amino acid in antibiotics iturin A," Tetrahedron Lett., vol. 23, pp. 3065- 3068, 1982.
[2] C.C. Lin and S.F. Tsai, "Survey of Pestalotiopsis disease if waxapple at Kaosiung area in Taiwan," Plant Pathol. Bull., vol. 10, pp. 123-128, 2001.
[3] C.C. Lin, "Disease survey and integrated control of diseases on forcing culture on wax-apple fruit trees (Translation Journals style)," Research Bulletin of Kaosiung District Agricultural Improvement Station, vol. 13, pp 20-29, Dec. 2001.
[4] C.G. Phae, and M. Shoda, "Expression of the suppressive effect of Bacillus subtilis on phytopathogens in inoculated composts," J. Ferment. Bioengineer., vol. 70, pp. 409-414, Oct. 1990.
[5] J.M. Waller, "Colletotrichum diseases of perennial and other cash crop (Book style with paper title and editor)," in Colletotrichum: biology, pathology and control, J.A. Bailey and M.J. Jeger, Eds, UK: Redwood Press, 1992, pp. 167-185. 1992.
[6] M.D. Regine, and F. Peypoux, "Iturins, a special class of pore-forming lipopeptides: biological and physiochemical properties," Toxicology., vol. 87, pp. 151-174, Feb. 1994.
[7] M. Ongena, and P. Jacques, "Bacillus lipopeptides: versatile weapons for plant disease biocontrol," Trends Microbiol., vol. 16, pp. 115-125, Mar. 2007.
[8] P.H. Wang, Y.S. Chen, M.J. Lin, Y.J. Tsou, and W.H. Ko, "Severe decline of wax apple trees caused by Fusarium solani in northern Taiwan," BOT. STUD., vol.52, 75-80 pp., Jan. 2010.
[9] R. Dean, J.A.L. Van Kan, Z.A. Pretorius, K.E. Hammond-Kosack, A.D. Pietro, P.D. Spanu, J.J. Rudd, M. DIckman, R. Kahamann, J. Ellis, and G.D. Foster, "The top 10 fungal pathogens in molecular plant pathology," Mol. Plant. Path., vol. 13, pp. 414-430, May 2012.
[10] S. Freeman, T. Katan, and E. Shabi, "Characterization of Colletotrichum gloeosporioides isolates from avocado and almond fruits with molecular and pathogenicity tests," Appl. Environ. Microbiol., vol. 62, pp.1014- 1020, Mar. 1996.
[11] S. Hiradate, S. Yoshida, H. Sugie, H. Yada, and Y. Fujii, "Mulberry anthracnose antagonists (iturins) produced by Bacillus amyloliquefaciens RC-2," Phytochemistry., vol. 61, pp. 693-698, Nov. 2002.
[12] S. Steller, D. Vollenbroich, F. Leenders, T. Stein, B. Conrad, J. Hofemeister, P. Jacques, P. Thonart, and J. Vater, "Structural and functional organization of the fengycin synthetase multienzyme system from Bacillus subtilis b213 and A1/3," Chem. Biol., vol. 6, pp. 31-41, Jan. 1999.
[13] T. Stachelhaus, H.D. Mootz, and M.A. Marahiel, "Nonribosomal assembly of peptide antibiotics on modular protein templates (Book stly with paper title and editor," in, Bacillus subtilis and its closest relatives from genes to cells, A.L. Sonenshein, J.A. Hoch, and R.M. Losick,
[14] Y. Kefialew, and A. Ayalew, "Postharvest biological control of anthracnose (Colletotrichum gloeosporioides) on mango (Mangifera indica)," Postharvest Biolo. Tec., vol. 50, pp. 8-11, Oct. 2008.