Abstract
The silkworm, Bombyx mori Linnaeus, is an important economic insect and a representative model organism of Lepidoptera, which has been widely used in the study of reproduction and development. The development of the silkworm’s reproductive gland is easily affected by many external factors, such as chemical insecticides. After the silkworm larvae were treated with different concentrations of pyriproxyfen, the results showed that the number of eggs and hatching rate of eggs in the silkworm can be reduced by pyriproxyfen, and the concentration effects were displayed. Pyriproxyfen exposure could affect the normal development of the ovary tissue by reducing the number of oocytes and oogonia in the ovaries of silkworm fed with pyriproxyfen. We employed qRT-PCR, to detect the expressions of genes related to ovary development (Vg, Ovo, Otu, Sxl-S and Sxl-L) and hormone regulation (EcR and JHBP2) in silkworm. Our study showed that the transcription levels of Vg, Ovo, Otu, Sxl-S and Sxl-L in the treatment group were lower than those in the control group (6.08%, 61.99%, 83.51%, 99.31% and 71.95%, respectively). The transcription level of ECR was 70.22% for the control group, while that of JHBP2 was upregulated by 3.92-fold. Changes of transcription levels of these genes caused by pyriproxyfen exposure ultimately affect the absorption of nutrients, energy metabolism, ovary development and egg formation of the silkworm, thus leading to reproductive disorders of the silkworm. In general, our study revealed the response of silkworm reproduction to pyriproxyfen exposure and provided a certain reference value for the metabolism of the silkworm to pyriproxyfen.
Highlights
Pyriproxyfen is an insect growth regulator (IGR) that disrupts insect development at specific stages and is a juvenile hormone mimic
The results showed that 459 eggs were laid by a silkworm moth in the control group (Figure 1a), and the average number of eggs decreased to 408 eggs/moth (Figure 1b); the average hatching rate decreased from 98.47%
We used Quantitative RT-PCR (qRT-PCR) to detect the genes related to ovary development (Vg, Ovo, ovarian tumor gene (Otu), Sxl-S and Sxl-L) and hormone regulation (EcR and JHBP2) in silkworms
Summary
Pyriproxyfen is an insect growth regulator (IGR) that disrupts insect development at specific stages and is a juvenile hormone mimic. It is a mature biological pesticide with juvenile hormone activity in insect growth regulators that has the characteristics of strong light stability, long-term field efficacy and low toxicity to mammals. Pyriproxyfen can affect the reproduction of insects by making insects lack the stimulation factors needed for spawning or inhibiting the development of egg and embryo directly or indirectly [1,2]. Pyriproxyfen is considered to be one of effective insecticide to pest control in crop systems [3]. The study on the application of pyriproxyfen in Insects 2020, 11, 467; doi:10.3390/insects11080467 www.mdpi.com/journal/insects
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