Most plant viruses that seriously damage agricultural crops are transmitted by
insects. However, the mechanisms enabling virus transmission by insect vectors are
poorly understood. The brown planthopper (Nilaparvata lugens) is one of the
most serious rice pests, causing extensive damage to rice plants by sucking the
phloem sap and transmitting viruses, including Rice ragged stunt virus
(RRSV). In this study, we investigated the mechanisms of RRSV transmission from its
insect vector to the rice plant in vivo using the terminal deoxynucleotidyl
transferase dUTP nick-end labeling assay and RNA interference technology. RRSV
induced apoptosis in the salivary gland cells of its insect vector, N.
lugens. The RRSV-induced apoptosis was regulated through a caspase-dependent
manner, and inhibition of the expression of N. lugens caspase-1 genes
significantly interfered with virus transmission. Our findings establish a link
between virus-associated apoptosis and virus transmission from the insect vector to
the host plant.
The cytochrome P450 monooxygenase (P450) gene family is one of the most abundant eukaryotic gene families that encode detoxification enzymes. In this study, we identified an abundance of P450 gene repertoire through genome- and transcriptome-wide analysis in the brown planthopper (Nilaparvata lugens), the most destructive rice pest in Asia. Detailed gene information including the exon-intron organization, size, transcription orientation and distribution in the genome revealed that many P450 loci were closely situated on the same scaffold, indicating frequent occurrence of gene duplications. Insecticide-response expression profiling revealed that imidacloprid significantly increased NlCYP6CS1v2, NLCYP4CE1v2, NlCYP4DE1, NlCYP417A1v2 and NlCYP439A1 expression; while triazophos and deltamethrin notably enhanced NlCYP303A1 expression. Expression analysis at the developmental stage showed the egg-, nymph-, male- and female-specific expression patterns of N. lugens P450 genes. These novel findings will be helpful for clarifying the P450 functions in physiological processes including development, reproduction and insecticide resistance in this insect species.
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