[Effect of metalaxyl on the synthesis of RNA, DNA and protein in Phytophthora nicotianae].

R Wollgiehn, E Bräutigam, B Schumann, D Erge
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引用次数: 14

Abstract

Metalaxyl is used to control diseases caused by fungi of the order of the Perenosporales. We investigated the action of this fungicid eon nucleic acid and protein synthesis in liquid cultures of Phytophthora nicotianae. The uptake of 32P, 3H-uridine, 3H-thymidine and 14C-leucine as precursors of nuclei acid and protein synthesis by the mycelium was not inhibited by metalaxyl. RNA synthesis as indicated by 3H-uridine incorporation was strongly inhibited (about 80%) by 0.5 micrograms/ml of metalaxyl. The inhibition was visible already few minutes after addition of the toxicant. Since the inhibition of incorporation of 3H-thymidine into DNA and of 14C-leucine into protein became significant 2-3 hours later, we conclude that metalaxyl primarily interfers with RNA synthesis. Synthesis of ribosomal RNA is more affected (more than 90%) than that of tRNA (about 55%) and poly(A)-containing RNA. Since in the presence of actinomycin, in contrast to metalaxyl, protein synthesis is inhibited immediately as a consequence of complete inhibition of RNA synthesis and of the short life-time of mRNA, it is also evident that mRNA synthesis is less strongly inhibited, at least during the early period of metalaxyl action. The molecular mechanism of metalaxyl inhibition of the transcription process remains open. The fungicide did not inhibit the activity of a partially purified RNA polymerase isolated from the fungus. On the other hand, the RNA synthesis (14C-UTP-incorporation) by a cell homogenate and by isolated nuclear fractions was inhibited significantly. Possibilities of the molecular action of metalaxyl are discussed. The RNA synthesis of some plant systems (cell cultures of Lycopersicon peruvianum, isolated nuclei from the same cell cultures, purified RNA polymerase from Spinacia oleracea chloroplasts) was not inhibited by metalaxyl, not even at high concentrations.

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甲叶茅酯对烟草疫霉RNA、DNA和蛋白质合成的影响
甲螨灵用于控制由透孢子目真菌引起的疾病。我们研究了该杀菌剂对烟疫霉菌液体培养中核酸和蛋白质合成的作用。甲叶醇不抑制菌丝对32P、3h -尿嘧啶、3h -胸苷和14c -亮氨酸作为核酸和蛋白质合成前体的摄取。由3h -尿苷掺入的RNA合成被0.5微克/毫升的甲axyl强烈抑制(约80%)。这种抑制作用在加入毒物几分钟后就已经显现出来了。由于在2-3小时后,甲叶青酯对3h -胸腺嘧啶并入DNA和14c -亮氨酸并入蛋白质的抑制作用变得明显,我们得出结论,甲叶青酯主要干扰RNA合成。核糖体RNA的合成比tRNA(约55%)和poly(A)-containing RNA受影响更大(超过90%)。由于放线菌素的存在,与甲轴酯相反,由于RNA合成的完全抑制和mRNA的短寿命,蛋白质合成立即受到抑制,因此很明显,mRNA合成受到的抑制不那么强烈,至少在甲轴酯作用的早期。甲axyl抑制转录过程的分子机制尚不清楚。该杀菌剂不抑制从真菌中分离的部分纯化RNA聚合酶的活性。另一方面,细胞匀浆和分离核组分的RNA合成(14c - utp结合)明显受到抑制。讨论了甲axyl分子作用的可能性。某些植物系统的RNA合成(番茄细胞培养物、从同一细胞培养物分离的细胞核、从菠菜叶绿体纯化的RNA聚合酶)不受甲轴酯的抑制,即使在高浓度下也不受抑制。
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