Akt-FoxO signaling drives co-adaptation to insecticide and host plant stresses in an herbivorous insectIntroduction Ongoing interactions between host and herbivorous insect trigger a co-evolutionary arms race. Genetic diversity within insects facilitates their adaptation to phytochemicals and their derivatives...
近日,南京农业大学植物保护学院刘泽文教授团队在国际期刊《Journal of Advanced Research》上发表了题为“Akt-FoxO signaling drives co-adaptation to insecticide and host plant stresses in an herbivorous insect“的研究论文,揭示了植食性昆虫通过Akt-FoxO信号通路调节P450解毒酶系统,实现对杀虫剂和植物次生物质适应的...
近日,南京农业大学植物保护学院的刘泽文教授团队在国际期刊《Journal of Advanced Research》上发表了一篇重要研究,题为“Akt-FoxO signaling drives co-adaptation to insecticide and host plant stresses in an herbivorous insect”。该研究揭示了植食性昆虫如何通过Akt-FoxO信号通路调控P450解毒酶系统,以实现对杀虫剂和...
Cancer-associated pathways were largely involved in SNKAF mechanisms, including P53, FoxO, and PI3K/Akt signaling pathways, which are closely related to induced-tumor cell apoptosis. In addition, Western bolt verified that 10% SNKAF serum significantly affected the main proteins of PI3K/Akt/P53/...
近日,南京农业大学植物保护学院刘泽文教授团队在国际期刊《Journal of Advanced Research》上发表了题为“Akt-FoxO signaling drives co-adaptation to insecticide and host plant stresses in an herbivorous insect“的研究论文,揭示了植食性昆虫通过Akt-FoxO信号通路调节P450解毒酶系统,实现对杀虫剂和植物次生物质适应的...