调控昆虫蜕皮与变态的激素主要有蜕皮激素和保幼激素。
The processes are regulated by molting hormone (20E) and juvenile hormone (JH).
筋骨草采集地点和填加植物源蜕皮激素的方式对杀虫效果的影响较小。
The killing effect of the extracts was little affected by the growth areas of A. multiflora plant and the adding way to artificial diet.
蜕皮激素对昆虫生长、发育和繁殖有重要调控作用,尤其对蜕皮和变态过程。
Fundamental events in the life of insects such as growth, development and reproduction are regulated by ecdysteroids (molting hormone), especially during molting and metamorphosis.
该文综述了蜕皮激素诱导的果蝇程序性细胞死亡中各遗传调控因子之间的关系。
The genetic regulators that are involved in the ecdysone-induced programmed cell death in Drosophila and their relationship between each other were reviewed in this article.
在昆虫中,胆固醇不仅是细胞膜的重要成分之一,也是昆虫蜕皮激素生物合成的前体。
In insects, cholesterol is not only one of the main components of cell membranes, but also a precursor of ecdysone biosynthesis.
蜕皮激素是昆虫最重要的激素之一,它与保幼激素一起控制着昆虫生长、发育、蜕皮、代谢等。
Ecydsteroid is one of most important hormones in insect . it controls the growth , development , ecdysteroidogenesis , metabolism and so on with another most important hormone - juvenile hormone.
障碍形态发生肽类激素的释放,影响蜕皮激素、保幼激素滴度,抑制生长发育并使生殖力下降;
It acts on ecdysteroid and juvenile hormone titres through a blockage of morphogenetic peptide hormone release and results in growth inhibition and fecundity decline.
羽化激素在一些特定的脑神经分泌细胞中合成,在蜕皮激素的调控下,释放到中枢神经系统和血淋巴中。
EH is synthesized in a discrete set of cerebral neurosecretory cells, and is released into the central nervous system and into the hemolymph in response to the declining ecdysteroid titers.
抑虫肼是一种新颖昆虫蜕皮加速剂。它对鳞翅目害虫高度有效,是一种既安全又有选择性的蜕皮激素杀虫剂。
Yichongjing is a novel insecticide, it is highly specific to lepidopterous insects and ACTS as a safe and selective ecdysone agonist.
尽管MIH详细的作用机制仍未清楚,但已经在虾类和蟹类显示MIH可能经环核苷依赖途径抑制蜕皮激素的产生。
Although the detail mechanism of MIH actions is unknown, it has shown that MIH can suppress the production of ecdysone through cyclic nucleotide-dependent pathway in crab and crayfish.
尽管MIH详细的作用机制仍未清楚,但已经在虾类和蟹类显示MIH可能经环核苷依赖途径抑制蜕皮激素的产生。
Although the detail mechanism of MIH actions is unknown, it has shown that MIH can suppress the production of ecdysone through cyclic nucleotide-dependent pathway in crab and crayfish.
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