Xie Yi-Fei, Niu Jin-Zhi, Jiang Xuan-Zhao, Yang Wen-Jia, Shen Guang-Mao, Wei Dong, Smagghe Guy, Wang Jin-Jun
Key Laboratory of Entomology and Pest Control Engineering, College of Plant Protection, Southwest University, Chongqing, China.
Hunan Academy of Forestry, Changsha, China.
Insect Sci. 2017 Jun;24(3):418-430. doi: 10.1111/1744-7917.12311. Epub 2016 May 25.
RNA interference (RNAi)-based technology has emerged as a potential tool for controlling insect pests, however, previous studies found that the efficiency of RNAi in Bactrocera dorsalis was variable. In nature, insects often meet various challenges, such as pathogen infections, extreme temperatures, lack of nutrition and heavy metals. To better understand the association of the stressors with efficiency of RNAi, in the current study we tested the expression of three core genes, dicer2 (Bddcr2), r2d2 (Bdr2d2) and argonaute2 (Bdago2), of the small interfering RNA (siRNA) pathway of B. dorsalis upon various stressors. Our results showed that all three genes were upregulated by the infection of invertebrate iridescent virus 6, which suggested a function of the siRNA pathway against viral infection. The loading of FeCl could also increase the expression of Bddcr2. The treatments of Escherichia coli, extremely high (40°C) and low (0°C) temperatures, as well as starvation, could negatively influence the expression of Bddcr2 and/or Bdago2. In total, our results showed that various stressors could influence the expression of core components of B. dorsalis siRNA pathway. This highlights further speculation on the RNAi efficiency upon these stressors. Considering the complexity and variation of RNAi efficiency in different conditions, these results provide initial aspects in possible environmental stressors to influence the activity of the siRNA pathway, but the real impact of RNAi efficiency posed by these stressors requires further studies.
基于RNA干扰(RNAi)的技术已成为控制害虫的一种潜在工具,然而,先前的研究发现RNAi在橘小实蝇中的效率存在差异。在自然界中,昆虫经常面临各种挑战,如病原体感染、极端温度、营养缺乏和重金属。为了更好地理解应激源与RNAi效率之间的关联,在本研究中,我们测试了橘小实蝇小干扰RNA(siRNA)途径的三个核心基因dicer2(Bddcr2)、r2d2(Bdr2d2)和argonaute2(Bdago2)在各种应激源作用下的表达情况。我们的结果表明,这三个基因在无脊椎动物虹彩病毒6感染后均上调,这表明siRNA途径具有抵抗病毒感染的功能。FeCl的加载也可增加Bddcr2的表达。大肠杆菌处理、极高(40°C)和极低(0°C)温度以及饥饿处理,均可对Bddcr2和/或Bdago2的表达产生负面影响。总的来说,我们的结果表明,各种应激源可影响橘小实蝇siRNA途径核心成分的表达。这进一步引发了对这些应激源作用下RNAi效率的推测。考虑到不同条件下RNAi效率的复杂性和变异性,这些结果为可能影响siRNA途径活性的环境应激源提供了初步线索,但这些应激源对RNAi效率的实际影响还需要进一步研究。
