玉米大斑病菌(Exserohilum turcicum)原生质体的分离及转化

玉米大斑病是严重危害玉米生产的一个世界性真菌病害。由于玉米大斑病菌(Exserohilum turcicum)在无性生长过程中迅速产生黑色素，致使原生质体难以分离。测试了包括Fungase、Funcelase、Novozyme、Glucanex、Driselase、Uskizyme、Kitalase在内的7种细胞壁降解酶及其组合、病原菌菌株和培养基对原生质体分离效果的影响。结果表明菌株的培养形态和菌丝的生长状态显著影响原生质体的分离效率；酶组合Kitalase Glucanex Driselase，Kitalase Glucanex和Kitalase Uskizyme能够有效地分离玉米大斑病菌的原生质体。初步的转化试验表明，质粒pAN71可以用于该病原菌的转化。这些结果将为E．turcicum和Exserohium属其它真菌的基因克隆提供一些有用的信息。

Protoplast Isolation and Transformation of Exserohilum turcicum

Northern corn leaf blight, caused by the fungus Exserohirum turcicum Pass. (Leonard and Suggs), is one of the major diseases in most corn-growing areas of the world. Research on gene tagging of E. turcicum has been limited due to the lack of an efficient transformation system. Since E. turcicum produces and accumulates melamin in cell walls during vegetative growth, it is difficult to efficiently isolate its protoplast. To isolate the protoplast of this pathogen with a high frequency, the effects of cell wall degradation enzymes, including beta-1,3-glucanase (Fungase, Funcelase, Novozyme and Glucanex) and beta-glucuronidase (Driselase, Uskizyme and Kitalase), enzyme concentrations, combinations, strains and medium on the isolation frequency were tested. The isolation frequencies were high enough for transformation when the combinations of (Kitalase + Glucanex + Driselase), (Kitalase + Glucanex) or (Kitalase + Uskizyme) were used. Moreover, the isolation frequencies of protoplast were significantly affected by the cultural morphologies of strain and the growth stage of mycelia. Among the plasmids tested, only plasmid pAN71 is efficient for transformation of E. turcicum. This result will provide some useful information for gene tagging of E. turcicum and other species in Exserohirum.