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Abstract
In our previous study with the brown planthopper (BPH), Nilaparvata lugens, triazophos (tzp) treatments led to substantial up-regulation of a male spermatogenesis-associated protein 5-like gene (NlSPATA5) compared to untreated controls. Mating with tzp-treated males significantly increased fecundity (as numbers of eggs laid), relative to females mated with untreated males. Because SPATA5 acts in mammalian sperm development and is expressed in testes, we posed the hypothesis that NlSPATA5 occurs in BPH seminal fluid and it operates in fecundity via mating. We tested the hypothesis by investigating the influence of suppressing NlSPATA5 expression in BPH males on fecundity. Reduced expression of NlSPATA5 led to decreased male accessory gland protein content and reproductive system development compared to controls. These changes in males led to prolonged pre-oviposition periods and decreased fecundity in females. For both genders, we recorded no difference in the body weight, oviposition periods, and longevity compared to controls. NlSPATA5 suppression in males also led to decreased fat body and ovarian protein content, yeast-like symbionts abundance and ovarian development as well as vitellogenin gene expression in their mating partners. We infer that increased NlSPATA5 expression may be one molecular mechanism of tzp-driven reproduction and population increases in BPH.
Highlights
In our previous study with the brown planthopper (BPH), Nilaparvata lugens, triazophos treatments led to substantial up-regulation of a male spermatogenesis-associated protein 5-like gene (NlSPATA5) compared to untreated controls
The data reported in this paper strongly support our hypothesis that suppressing NlSPATA5 expression in males will influence the post-mating behavior and physiology of female partners, which would reduce BPH fitness in agroecosystems
Our data show that 1/NlSPATA5 is expressed at substantial levels for at least the first seven days following male adult emergence; 2/dietary dsNlSPATA5 treatments led to reduced NlSPATA5 expression, reproductive system development and Acps protein contents in males; 3/similar treatments with experimental males led to reduced numbers of yeast-like symbionts (YLS), ovarian development and soluble ovarian and soluble fat body protein contents in their untreated female partners; 4/dietary dsNlSPATA5 treatments in males altered female reproductive biology, including increased length of preoviposition periods and reduced Nlvg expression and egg laying
Summary
In our previous study with the brown planthopper (BPH), Nilaparvata lugens, triazophos (tzp) treatments led to substantial up-regulation of a male spermatogenesis-associated protein 5-like gene (NlSPATA5) compared to untreated controls. Because SPATA5 acts in mammalian sperm development and is expressed in testes, we posed the hypothesis that NlSPATA5 occurs in BPH seminal fluid and it operates in fecundity via mating. Reduced expression of NlSPATA5 led to decreased male accessory gland protein content and reproductive system development compared to controls. These changes in males led to prolonged pre-oviposition periods and decreased fecundity in females. The effects of insecticides on BPH reproduction appear to operate through a spermatogenesis-associated protein 5-like (NlSPATA5) gene because it was up-regulated after triazophos (tzp)-treatment. This finding led to hypotheses about the possible biological significance of SPATA5 in BPH
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