Department of Plant Pathology, China Agricultural University, Beijing, 100193, China.
Department of Biological Chemistry and Crop Protection, Rothamsted Research, Harpenden, AL5 2JQ, UK.
New Phytol. 2013 May;198(3):821-835. doi: 10.1111/nph.12193. Epub 2013 Feb 27.
CYP51 encodes the cytochrome P450 sterol 14α-demethylase, an enzyme essential for sterol biosynthesis and the target of azole fungicides. In Fusarium species, including pathogens of humans and plants, three CYP51 paralogues have been identified with one unique to the genus. Currently, the functions of these three genes and the rationale for their conservation within the genus Fusarium are unknown. Three Fusarium graminearum CYP51s (FgCYP51s) were heterologously expressed in Saccharomyces cerevisiae. Single and double FgCYP51 deletion mutants were generated and the functions of the FgCYP51s were characterized in vitro and in planta. FgCYP51A and FgCYP51B can complement yeast CYP51 function, whereas FgCYP51C cannot. FgCYP51A deletion increases the sensitivity of F. graminearum to the tested azoles. In ΔFgCYP51B and ΔFgCYP51BC mutants, ascospore formation is blocked, and eburicol and two additional 14-methylated sterols accumulate. FgCYP51C deletion reduces virulence on host wheat ears. FgCYP51B encodes the enzyme primarily responsible for sterol 14α-demethylation, and plays an essential role in ascospore formation. FgCYP51A encodes an additional sterol 14α-demethylase, induced on ergosterol depletion and responsible for the intrinsic variation in azole sensitivity. FgCYP51C does not encode a sterol 14α-demethylase, but is required for full virulence on host wheat ears. This is the first example of the functional diversification of a fungal CYP51.
CYP51 编码细胞色素 P450 甾醇 14α-脱甲基酶,该酶是甾醇生物合成所必需的,也是唑类杀菌剂的靶标。在包括人类和植物病原体在内的镰刀菌属物种中,已经鉴定出三种 CYP51 基因的同源物,其中一种是该属所特有的。目前,这些三个基因的功能以及它们在镰刀菌属内保守的原理尚不清楚。三种禾谷镰刀菌 CYP51(FgCYP51)在酿酒酵母中异源表达。生成了单和双 FgCYP51 缺失突变体,并在体外和体内对 FgCYP51 的功能进行了表征。FgCYP51A 和 FgCYP51B 可以互补酵母 CYP51 的功能,而 FgCYP51C 则不能。FgCYP51A 的缺失增加了禾谷镰刀菌对测试唑类药物的敏感性。在ΔFgCYP51B 和 ΔFgCYP51BC 突变体中,子囊孢子的形成被阻断,并且 eburicol 和另外两种 14-甲基化甾醇积累。FgCYP51C 的缺失降低了对宿主小麦穗的毒力。FgCYP51B 编码主要负责甾醇 14α-脱甲基化的酶,并在子囊孢子形成中发挥重要作用。FgCYP51A 编码另一种甾醇 14α-脱甲基酶,该酶在麦角固醇耗尽时被诱导,负责唑类药物敏感性的固有变化。FgCYP51C 不编码甾醇 14α-脱甲基酶,但在宿主小麦穗上完全毒力是必需的。这是第一个真菌 CYP51 功能多样化的例子。
