摘要
研究了稻瘟病菌对三环唑敏感性的离体检测技术及其潜在抗药性风险。三环唑抑制菌丝黑色素生物合成的有效中浓度(EC50- H)和抑制附着胞黑色素化的最小抑制浓度(MIC- A)都与活体条件下三环唑防治稻瘟病的 EC50 有很好的相关性,相关系数(R2 )分别为0.8995和0.8244。但EC50 H比MIC A的稳定性和重复性更好,可用于离体检测稻瘟病菌对三环唑的敏感性。在2000年抗药性检测中检测到的最敏感菌株DY2和最不敏感菌株GY6的无性单孢后代对三环唑的敏感性不稳定,平均EC50 分别为4.4968μg/mL和5.4010μg/mL,差异不显著,说明DY2和 GY6对三环唑的敏感性差异可能不是由抗药性变异引起的。DY2和GY6经过20代的活体药剂筛选后, GY6的EC50 没有显著升高;但DY2的敏感性有一定的下降,EC50 为初始菌株的10.0倍,说明稻瘟病菌对三环唑仍然属于低抗药性风险。
In vitro detection method for sensitivity of Magnaporthe grisea to tricyclazole was studied and the potential resistance risk of M. grisea to tricyclazole was also assessed. Both EC 50 of hyphal melanization (EC 50-H) and minimal inhibitory concentration of melanization in appressoria (MIC-A) by the inhibitor tricyclazole showed positive correlation to the EC 50 of tricyclazole against blast disease tested in vivo, with relative co-efficiency (R 2) of 0.8995 and 0.8244, respectively. However, the stability and reproducibility of EC 50-H were better than those of MIC-A, suggesting that it could be used to detect the sensitivity of M. grisea to tricyclazole in vitro. Tricyclazole sensitivity of the progenies derived from single spores of the most sensitive isolate DY2 and the least sensitive isolate GY6 detected in sensitivity monitoring study in year 2000 was not stable, with mean EC 50 values of 4.4968 μg/mL and 5.4010 μg/mL, respectively, indicating that the difference in EC 50 between DY2 and GY6 was possibly not caused by resistance variation. EC 50 of GY6 did not significantly increase when continuously selected for twenty generations under the selection pressure of tricyclazole in vivo. However, the sensitivity of DY2 was decreased by 10-fold after selected for twenty generations. These results suggested that tricyclazole was still at low resistance risk for M. grisea in China.
出处
《中国水稻科学》
CAS
CSCD
北大核心
2005年第1期79-84,共6页
Chinese Journal of Rice Science
