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RNAi ‐mediated silencing of ferritin genes in the brown planthopper Nilaparvata lugens affects survival, growth and female fecundity
Author(s) -
Shen Yan,
Chen YuanZhi,
Zhang ChuanXi
Publication year - 2021
Publication title -
pest management science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.296
H-Index - 125
eISSN - 1526-4998
pISSN - 1526-498X
DOI - 10.1002/ps.6026
Subject(s) - brown planthopper , gene knockdown , rna interference , biology , fecundity , gene silencing , ferritin , rna silencing , gene , rna , genetics , medicine , biochemistry , population , environmental health
BACKGROUND The brown planthopper (BPH), Nilaparvata lugens , is the most destructive rice insect pest. To exploit potential target genes for applications in transgenic rice to control this sap‐sucking insect pest, three ferritin genes were functionally characterized in this study. RESULTS In this study, three ferritin genes, that is, ferritin 1 Heavy Chain ( NlFer1 ), ferritin 2 Light Chain ( NlFer2 ) and soma ferritin ( Nlsoma‐Fer ), were identified from BPH. Tissue‐specific analyses showed that all three genes were highly expressed in the gut. Although double‐stranded RNA injection‐mediated RNA inference (RNAi) of Nlsoma‐Fer expression resulted in only < 14% mortality in BPH, knockdown of NlFer1 or NlFer2 led to retarded growth and 100% mortality in young nymphs, and downregulation of NlFer1 and NlFer2 in newly emerged female adults caused undeveloped ovaries and severely inhibited oocyte growth, resulting in extremely low fecundity and a zero hatching rate. Knockdown of NlFer1 and NlFer2 caused similar phenotypes in BPH, indicating that they function together, as in many other animals. The results demonstrated that NlFer1 and NlFer2 were essential for BPH development and reproduction. BPHs showed high sensitivity to both ds NlFer1 and ds NlFer2 , and injection of only 0.625 ng ds NlFer1 per BPH resulted in 100% mortality. Additionally, the effectiveness of feeding ds NlFer1 and ds NlFer2 to BPH nymphs was further proven. CONCLUSION NlFer1 and NlFer2 are essential for BPH development and reproduction, and the insect is highly sensitive to their depletion, suggesting that the two gut‐highly‐expressed genes are promising candidates for application in RNAi‐based control of this destructive pest.