Graduate School of Life and Environmental Sciences, University of Tsukuba, Tsukuba, Ibaraki 305-8572, Japan.
Plant Cell Rep. 2012 Apr;31(4):629-36. doi: 10.1007/s00299-011-1179-7. Epub 2011 Nov 2.
Plant fungal pathogens change their cell wall components during the infection process to avoid degradation by host lytic enzymes, and conversion of the cell wall chitin to chitosan is likely to be one infection strategy of pathogens. Thus, introduction of chitosan-degradation activity into plants is expected to improve fungal disease resistance. Chitosanase has been found in bacteria and fungi, but not in higher plants. Here, we demonstrate that chitosanase, Cho1, from Bacillus circulans MH-K1 has antifungal activity against the rice blast fungus Magnaporthe oryzae. Introduction of the cho1 gene conferred chitosanase activity to rice cells. Transgenic rice plants expressing Cho1 designed to be localized in the apoplast showed increased resistance to M. oryzae accompanied by increased generation of hydrogen peroxide in the infected epidermal cells. These results strongly suggest that chitosan exists in the enzyme-accessible surface of M. oryzae during the infection process and that the enhancement of disease resistance is attributable to the antifungal activity of the secreted Cho1 and to increased elicitation of the host defense response.
植物真菌病原体在感染过程中会改变其细胞壁成分,以避免被宿主溶酶体降解,而细胞壁几丁质向壳聚糖的转化可能是病原体的一种感染策略。因此,将壳聚糖降解活性引入植物有望提高真菌病抗性。几丁质酶已在细菌和真菌中发现,但在高等植物中尚未发现。在这里,我们证明了来自环状芽孢杆菌 MH-K1 的几丁质酶 Cho1 对水稻稻瘟病菌具有抗真菌活性。引入编码 Cho1 的基因赋予了水稻细胞几丁质酶活性。设计定位于质外体的 Cho1 表达的转基因水稻植株对稻瘟病菌表现出增强的抗性,同时感染表皮细胞中过氧化氢的产生增加。这些结果强烈表明,在感染过程中,壳聚糖存在于稻瘟病菌的酶可及表面,而抗病性的增强归因于分泌的 Cho1 的抗真菌活性和宿主防御反应的增强。
