桑树重要害虫及其天敌对咖啡酸甲酯的发育响应及机理(2)
时间:2024-06-30 10:30 来源:95592 作者:毕业论文 点击:次
(1) The concentration of caffeic acid methyl ester at 1.0% and 2.0% had significantly antifeedant effect against S.litura and Diaphania pyloalis larvae. The weight gain of larvae of S.litura larvae was significantly slowed down by the continuous feeding test 7 days after digesting mulberry leaves amended with 2.0% caffeic acid methyl ester, while the intake of mulberry leaves with 1.0% and 2.0% concentration of caffeic acid methyl ester, the trend of the body weight decreasing of D.pyloalis larvae was more obvious. With the increase of the concentration of caffeic acid methyl ester, the survival durations of S.litura and D.pyloalis were significantly shortened, indicating that there was dose-dependent effect of caffeic acid methyl ester on the survival of the two larvae. Enzyme activity tests showed that the presence of caffeic acid methyl ester stimulated the activity of Glutathione-S-transferase. The activity of Glutathione-S-transferase of fresh mulberry leaves treated with caffeic acid methyl ester (500 μg / cm2) was 79.55 U / mgprot, the control treat was 41.39 U/mgprot. (2) There were no significant differences in the life span, development time, cocoon weight and emergence rates of M.pulchricornis feeding with various concentrations of caffeic acid methyl ester at 100ppm, 500ppm and 1000ppm compared with control. (3) S.litura larvae feeding on different concentrations of caffeic acid methyl ester after parasitization by M.pulchricornis . The results indicated that concentrations of caffeic acid methyl ester at 4.0% and 5.0% inhibited the parasite rate of parasitic wasps. Similarly, concentration of 5.0% extended the development time of the offspring from eggs to adults and the emergence rate was not affected. (4) S.litura larvae feeding on different concentration of caffeic acid methyl ester after parasitization by M.pulchricornis . The results showed that concentrations of caffeic acid methyl ester at 2.0% and 5.0% inhibited the size of the progeny of M.pulchricornis. Concentration of 1.0%, 2.0%, 3.0%, 4.0% and 5.0% extended the lifespan of the offspring. 4.0% and 5.0% inhibited the parasitic rate, but the emergence rate was not affected significantly. (5) With the aid of transcriptomics sequencing, we obtained four carboxylesterases (MpulCXEs) and five Glutathione-S-transferases (MpulGSTs). Bioinformatics analysis was about these genes also conducted. The qRT-PCR results indicated that, MpulCXE1, MpulCXE3, MpulGST3 and MpulGST4 expressed significantly at larval stage; MpulCXE2, MpulCXE3, MpulGST1, MpulGST2, MpulGST3 and MpulGST4 expressed significantly in the cocoons of M.pulchricornis; MpulCXE1, MpulCXE2, MpulCXE3, MpulCXE4, MpulGST1, MpulGST2, MpulGST3, MpulGST4 and MpulGST5 didn’t expressed significantly compared with control. Keywords: Caffeic acid methyl ester; Diaphania pyloalis; Spodoptera litura; Meteorus pulchricornis; Developmental fitness; Detoxification genes 目录 第一章绪论 1 1.1植物次生代谢产物 1 1.1.1酚酸类化合物 2 1.1.2咖啡酸甲酯 3 1.2昆虫中肠消化酶及解毒酶 4 1.3转录组技术分析寄生蜂对外源化合物的解毒机制 5 1.4农业害虫及天敌 5 1.4.1斜纹夜蛾 5 1.4.2桑螟 6 1.4.3寄生蜂概述 (责任编辑:qin) |