基因敲除
生物
内复制
唾液腺
细胞周期蛋白
细胞生物学
细胞周期
分子生物学
遗传学
细胞
细胞培养
生物化学
作者
Haoli Gao,Xiaowei Yuan,Li Wang,Yangyang Yan,Xinyu Zhang,Tong‐Chuan He,Xumin Lin,Huihui Zhang,Zewen Liu
摘要
Abstract Background The endocycle can generate cells referred to as ‘polyploid’. Fizzy‐related protein (Fzr) plays an important role in driving the mitosis‐to‐endocycle transition. The brown planthopper (BPH), Nilaparvata lugens (Stål), a serious insect pest, feeds exclusively on rice. However, polyploidy and its regulatory mechanisms are poorly understood in BPH. Results Here, we found that the ploidy levels of follicles H (FH) and accessory gland (AG) significantly increased with BPH age when examining the polyploidy of FH and AG of salivary glands. Fzr was identified as an important regulator for polyploidy in BPH salivary gland. Knockdown of Fzr resulted in a decrease in cell size and DNA content in nymph salivary glands. Fzr knockdown transcriptionally upregulated cyclin‐dependent kinase 1 ( CDK1 ), CDK2 , cyclin A ( CycA ) and CycB , and downregulated CycD , CycE , Myc and mini‐chromosome maintenance protein 2‐7 ( MCM2‐7 ). Phenotypically, Fzr knockdown significantly suppressed salivary protein production, feeding and survival in BPH nymphs. Conclusion Our results show that BPH salivary glands exhibit obvious polyploidy, and Fzr positively regulates the endocycle in nymph salivary gland. These findings provide clues for the study of the regulatory mechanisms of insect polyploidy. © 2024 Society of Chemical Industry.
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