1.Fungicide testing on PDA plates revealed that 10% difenoconazole showed the greatest inhibition of hyphal growth among the ones tested.
室内PDA平板药剂筛选结果表明,10%苯醚甲环唑对病菌菌丝生长的抑制效果最好。
2.With the recovery of hyphal growth, Calmodulin accumulates at the presumptive site of tip formation before new growing tip emergence.
当药物作用解除、菌丝恢复生长时,可以看到钙调素先于新的生长点出现之前在相应的部位出现聚集。
3.However, identity of the serum hyphal inducer(s) and its fungal sensor remain unknown.
然而,目前有关血清菌丝诱导特点及其真菌传感器的机制仍属未知。
4.especially the extent of vesicular and hyphal colonization can be regarded as micro_index of soil environmental monitoring.
特别是泡囊和菌丝的定殖程度可作为土壤环境监测的微观指标。
5.The hyphal cell wall disappeared and protoplast was dissolved by observation on electron microscope.
电镜下观察菌丝的横切面表明,处理菌丝的细胞壁消失,原生质解体。
6.The antifungal substance could inhibit the hyphal's growth and spore's sprouting of pathogen Verticillium Wilt.
该菌株发酵液能够有效抑制黄萎病菌菌丝生长和孢子萌发;
7.The change of their protease is similar: in the hyphal growth stage it is higher than that of mature mushroom.
它们的蛋白酶活力变化相似:菌丝生长期高于子实体生长后期。
8.When the growth of hyphal tip cease, it shows an even Calmodulin distribution.
菌丝生长停止后,菌丝顶端钙调素浓度梯度消失。
9.Volatile metabolites from BSD-2 could inhibit the hyphal's growth.
其挥发性代谢产物对菌丝生长也有抑制作用。
10.Analysis on Hyphal form of Candida Albicans by Randomly Amplified Polymorphic DNA
白念珠菌菌丝相随机扩增多态性DNA分析