Propamidine
英
美
网络 丙烷脒; 普罗帕脒; 二苯甲脒
双语例句
- Synthesis, fungicidal activity, application current situation and prospect of propamidine were reviewed in this article.
主要阐述了丙烷脒的合成方法、杀菌作用、应用优势、现状和发展前景及研究发展方向。 - Propamidine is a new fungicide.
丙烷脒是一种新型杀菌剂。 - Physiological and biochemical mechanism of Botrytis cinerea resistance to propamidine was clarified preliminarily.
初步阐明番茄灰霉病菌抗丙烷脒的生理生化机制。 - The studies revealed that propamidine not only inhibited the hyphal growth, but also caused a series of marked hyphae morphological and cell structural alterations.
研究发现丙烷脒不仅影响菌丝的生长,而且引起菌丝形态和细胞结构一系列的变化。 - 【 Conclusion 】 Compared with other fungicides, the changes of morphology and ultrastructures of mycelial cell induced by propamidine were unique.
结论丙烷脒对灰霉病菌菌丝形态和超微结构的影响不同于常用杀菌剂品种,预示丙烷脒的作用机理独特。 - Effects of propamidine on the ultrastructure of Botrytis cinerea Pers
丙烷脒对番茄灰霉病菌超微结构的影响 - Experiments were conducted with certain plant disease causal agents such as Botrytis cinerea and Alternaria brassicae, using a mycelial growth inhibition assay to determine the activity of 10 synthesized propamidine analogs.
以番茄灰霉病菌和白菜黑斑病菌等植物病原菌作为供试生物,用抑制菌丝生长速率法测定了合成的10个丙烷脒类似物的抑菌活性。 - Along with the result of mechanism on agriculture fungal inhibition of propamidine, the conclusion is speculated that the up-regulated expression of C-1-tetrahydrofolate synthase gene may be the main fact of resistance development on B. cinerea to propamidine.
结合丙烷脒抑菌机理研究结果,推测C-1-四氢叶酸复合酶基因的上调表达可能是番茄灰霉病菌对丙烷脒产生抗药性的主要因素。 - Propamidine, a kind of aromatic diamidine compound with Chinese intellectual property rights, is developed by Research Development Center of Biorational Pesticide in Northwest A F University independently and is used for controlling grey mould caused by B. cinerea.
丙烷脒是西北农林科技大学无公害农药研究服务中心研制的具有我国自主知识产权的新型芳香二脒类内吸性杀菌剂,主要用于防治由番茄灰霉病菌引起的灰霉病。 - Besides, the gene expression which inhibition of propamidine on mitochondrial complex ⅲ is a key factor, according to previous research.
此外,结合前人研究结果可以进一步确认丙烷脒对病菌线粒体复合酶Ⅲ相关基因表达的抑制是其抑菌的主因。 - Low mutation frequency and resistant level showed the fact that it is hard for B. cinerea developing resistance to propamidine.
获得抗性菌株的突变频率和抗性菌株的抗性水平均很低,表明番茄灰霉病菌对丙烷脒的抗药性发展非常缓慢。 - The frequency distribution of sensitivities of different strains to propamidine was representing a curve of continuous single peak which was approaching a unimodal curve.
不同番茄灰霉病菌菌株对丙烷脒的敏感性频率分布呈连续单峰曲线,接近正态分布。 - So, the decrease of osmotic sensitivity and the change of cell membrane permeability may be one of the physiological and biochemical mechanisms on resistance of B. cinerea to propamidine.
可见,渗透压敏感性下降和细胞膜透性的改变可能是番茄灰霉病菌对丙烷脒产生抗药性的生理机制之一。