Abstract
Plants respond to pathogens and insect attacks by inducing and accumulating a large set of defense-related proteins. Two homologues of a barley wound-inducible protein (BARWIN) have been characterized in sugarcane, SUGARWIN1 and SUGARWIN2 (sugarcane wound-inducible proteins). Induction of SUGARWINs occurs in response to Diatraea saccharalis damage but not to pathogen infection. In addition, the protein itself does not show any effect on insect development; instead, it has antimicrobial activities toward Fusarium verticillioides, an opportunistic fungus that usually occurs after D. saccharalis borer attacks on sugarcane. In this study, we sought to evaluate the specificity of SUGARWIN2 to better understand its mechanism of action against phytopathogens and the associations between fungi and insects that affect plants. We used Colletotrichum falcatum, a fungus that causes red rot disease in sugarcane fields infested by D. saccharalis, and Ceratocystis paradoxa, which causes pineapple disease in sugarcane. We also tested whether SUGARWIN2 is able to cause cell death in Aspergillus nidulans, a fungus that does not infect sugarcane, and in the model yeast Saccharomyces cerevisiae, which is used for bioethanol production. Recombinant SUGARWIN2 altered C. falcatum morphology by increasing vacuolization, points of fractures and a leak of intracellular material, leading to germling apoptosis. In C. paradoxa, SUGARWIN2 showed increased vacuolization in hyphae but did not kill the fungi. Neither the non-pathogenic fungus A. nidulans nor the yeast S. cerevisiae was affected by recombinant SUGARWIN2, suggesting that the protein is specific to sugarcane opportunistic fungal pathogens.
Highlights
Plants respond to pathogens and insect attacks by modulating the expression of a large set of genes, many of which are believed to have a direct role in plant defense [1]
The goal of this study was to analyze the specificity of SUGARWIN2 on other sugarcane phytopathogenic fungi (C. falcatum and C. paradoxa) and two model fungi, Aspergillus nidulans, which is non-pathogenic to sugarcane, and Saccharomyces cerevisiae, which is eventually responsible for sugarcane juice fermentation
62% of C. paradoxa germlings exposed to 160 mM HisSUGARWIN2 showed similar morphological changes, especially increased vacuolization (Fig. 2)
Summary
Plants respond to pathogens and insect attacks by modulating the expression of a large set of genes, many of which are believed to have a direct role in plant defense [1]. Phytopathogens modulate specific signaling pathways, resulting in increased expression of genes coding for PR-proteins (pathogenesis-related proteins), many of which have antimicrobial effects [2,3,4,5,6,7,8,9,10,11]. BARWIN is a wound- and pathogen-inducible protein that can be isolated from barley seeds and leaves [12,13]. The SUGARWINs are induced in response to methyl jasmonate treatment, mechanical wounding and Diatraea saccharalis (Fabricius) attack but are not induced in response to infection by Fusarium verticillioides (Sacc.) Nirenberg, an opportunistic fungus. SUGARWIN2 has antimicrobial effects on F. verticillioides, causing changes in hyphae morphology and leading to cell death by apoptosis [15]
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