Isshiki A, Akimitsu K, Yamamoto M, Yamamoto H
United Graduate School of Agricultural Sciences, Kagawa University, Miki, Japan.
Mol Plant Microbe Interact. 2001 Jun;14(6):749-57. doi: 10.1094/MPMI.2001.14.6.749.
Alternaria citri, the cause of Alternaria black rot, and Alternaria alternata rough lemon pathotype, the cause of Alternaria brown spot, are morphologically indistinguishable pathogens of citrus: one causes rot by macerating tissues and the other causes necrotic spots by producing a host-selective toxin. To evaluate the role of endopolygalacturonase (endoPG) in pathogenicity of these two Alternaria spp. pathogens, their genes for endoPG were mutated by gene targeting. The endoPGs produced by these fungi have similar biochemical properties, and the genes are highly similar (99.6% nucleotide identity). The phenotypes of the mutants, however, are completely different. An endoPG mutant of A. citri was significantly reduced in its ability to cause black rot symptoms on citrus as well as in the maceration of potato tissue and could not colonize citrus peel segments. In contrast, an endoPG mutant of A. alternata was unchanged in pathogenicity. The results indicate that a cell wall-degrading enzyme can play different roles in the pathogenicity of fungal pathogens. The role of a cell wall-degrading enzyme depends upon the type of disease but not the taxonomy of the fungus.
柑橘链格孢是引起链格孢黑腐病的病原菌,而粗糙柠檬致病型链格孢是引起链格孢褐斑病的病原菌,它们在形态上难以区分,均为柑橘病原菌:一种通过浸解组织导致腐烂,另一种通过产生寄主选择性毒素导致坏死斑。为了评估内切多聚半乳糖醛酸酶(endoPG)在这两种链格孢属病原菌致病性中的作用,通过基因靶向技术对它们的endoPG基因进行了突变。这些真菌产生的endoPG具有相似的生化特性,且基因高度相似(核苷酸同一性为99.6%)。然而,突变体的表型却完全不同。柑橘链格孢的一个endoPG突变体在引起柑橘黑腐病症状的能力以及浸解马铃薯组织的能力方面均显著降低,且无法在柑橘果皮切片上定殖。相比之下,链格孢的一个endoPG突变体的致病性没有变化。结果表明,一种细胞壁降解酶在真菌病原菌的致病性中可以发挥不同的作用。细胞壁降解酶的作用取决于疾病类型,而非真菌的分类学地位。