BASF Agricultural Research Station, P.O. Box 220, W-6703 Limburgerhof, Federal Republic of Germany.
Plant Physiol. 1992 Oct;100(2):625-9. doi: 10.1104/pp.100.2.625.
The effect of different types of plant growth retardants on fungal gibberellin (GA) formation has been studied in cultures of Gibberella fujikuroi and Sphaceloma manihoticola. Quaternary ammonium compounds (chlormequat chloride, mepiquat chloride, Amo-1618), triazoles (uniconazole and several experimental compounds), and the norbornanodiazetine tetcyclacis inhibited GA biosynthesis in both fungal species. Concentrations between 2 x 10(-4) and 10(-9)m were required for a 50% inhibition of the production of gibberellin A(3) in Gibberella fujikuroi and of giberellin A(4) in Sphaceloma manihoticola. The formation of other prominent GAs was affected at a similar degree of intensity. Tetcyclacis was the most active compound in both fungi. Compared to the growth retardants mentioned above, the biological activity of chlorphonium chloride was low. The acylcyclohexanediones prohexadione and LAB 198 999 had virtually no activity. Most likely, this lack of activity is due to a rapid metabolism of the compounds in the cultures. For the triazole-type compounds and tetcyclacis, a relatively distinct correlation exists in their ability to inhibit GA formation in fungal cultures, to block ent-kaurene oxygenase in a cell-free system, and to reduce shoot growth of rice seedlings. Due to differences in their metabolic fate and species specificities, such conclusions cannot be made for the other compounds.
不同类型植物生长延缓剂对镰孢菌和曼尼希赤霉菌中真菌赤霉素(GA)形成的影响在培养物中进行了研究。季铵盐(氯化氯甲喹,氯化甲哌𬭩,Amo-1618),三唑(烯效唑和几种实验化合物)和降冰片二氮杂环丁烷四环化合物抑制了两种真菌的 GA 生物合成。需要在 2 x 10(-4)和 10(-9)m 之间的浓度才能使镰孢菌中赤霉素 A(3)和曼尼希赤霉菌中赤霉素 A(4)的产生抑制 50%。其他突出 GA 的形成也受到类似程度的影响。四环化合物在两种真菌中均具有最高的活性。与上述生长延缓剂相比,氯化氯甲喹的生物活性较低。酰基环己二酮 prohexadione 和 LAB 198 999 几乎没有活性。很可能,这种缺乏活性是由于化合物在培养物中迅速代谢所致。对于三唑类化合物和四环化合物,它们在抑制真菌培养物中 GA 形成,在无细胞体系中阻断表-贝壳杉烯氧化酶以及降低水稻幼苗的芽生长方面的能力存在相对明显的相关性。由于它们的代谢命运和物种特异性的差异,不能对其他化合物得出这样的结论。