Li Yuting, Zhao Qi, Duan Xinle, Song Chunman, Chen Maohua
College of Plant Protection, Northwest A&F University, State Key Laboratory of Crop Stress Biology for Arid Areas, Key Laboratory of Crop Pest Integrated Pest Management on the Loess Plateau of Ministry of Agriculture, Yangling 712100, China.
Technology Center of China Tobacco Yunnan Industrial Co., Ltd., Kunming, Yunnan 650106, China.
Comp Biochem Physiol A Mol Integr Physiol. 2017 Mar;205:48-57. doi: 10.1016/j.cbpa.2016.12.021. Epub 2016 Dec 24.
The bird cherry-oat aphid, Rhopalosiphum padi (L.), a worldwide destructive pest, is more heat tolerant than other wheat aphids, and it has developed resistance to different insecticides. Heat shock proteins (HSPs) play an important role in coping with environmental stresses. To investigate Hsp transcriptional responses to heat and insecticide stress, four full-length Hsp genes from R. padi (RpHsp60, RpHsc70, RpHsp70-1, and RpHsp70-2) were cloned. Four RpHsps were expressed during all R. padi developmental stages, but at varying levels. The mRNA levels of RpHsps were increased under thermal stress and reached maximal induction at a lower temperature (36°C) in the alate morph than in the apterous morph (37°C or 38°C). RpHsp expressions under heat stress suggest that RpHsp70-1 and RpHsp70-2 are inducible in both apterous and alate morphs, RpHsc70 is only heat-inducible in apterous morph, and RpHsp60 exhibits poor sensitivity to heat stress. The pretreatment at 37°C significantly increase both the survival rate and the RpHsps expression level of R. padi at subsequent lethal temperature. Under exposure to two sublethal concentrations (LC and LC) of beta-cypermethrin, both RpHsp70-1 and RpHsp70-2 expressions were induced and reached a maximum 24h after exposure. In contrast, expression of RpHsp60 was not induced by either sublethal concentration of beta-cypermethrin. Moreover, the responses of RpHsp70-1 and RpHsp70-2 to heat shock were more sensitive than those to beta-cypermethrin. These results suggest that induction of RpHsp expression is related to thermal tolerance, and that RpHsp70-1 and RpHsp70-2 are the primary genes involved in the response to both heat and pesticide stress.
鸟樱桃燕麦蚜(Rhopalosiphum padi (L.))是一种世界性的毁灭性害虫,比其他小麦蚜虫更耐热,并且已经对不同的杀虫剂产生了抗性。热休克蛋白(HSPs)在应对环境胁迫中发挥着重要作用。为了研究热休克蛋白基因(Hsp)对热和杀虫剂胁迫的转录反应,克隆了来自鸟樱桃燕麦蚜的四个全长Hsp基因(RpHsp60、RpHsc70、RpHsp70 - 1和RpHsp70 - 2)。四个RpHsps在鸟樱桃燕麦蚜的所有发育阶段均有表达,但表达水平不同。热胁迫下RpHsps的mRNA水平升高,在有翅型中于较低温度(36°C)时达到最大诱导,而在无翅型中于37°C或38°C时达到最大诱导。热胁迫下RpHsp的表达表明,RpHsp70 - 1和RpHsp70 - 2在无翅型和有翅型中均可诱导,RpHsc70仅在无翅型中可被热诱导,而RpHsp60对热胁迫的敏感性较差。在37°C预处理显著提高了鸟樱桃燕麦蚜在随后致死温度下的存活率和RpHsps表达水平。在接触两种亚致死浓度(LC和LC)的高效氯氰菊酯后,RpHsp70 - 1和RpHsp70 - 2的表达均被诱导,并在接触后24小时达到最大值。相比之下,两种亚致死浓度的高效氯氰菊酯均未诱导RpHsp60的表达。此外,RpHsp70 - 1和RpHsp70 - 2对热休克的反应比对高效氯氰菊酯的反应更敏感。这些结果表明,RpHsp表达的诱导与耐热性有关,并且RpHsp70 - 1和RpHsp70 - 2是参与热和农药胁迫反应的主要基因。
