The present research evaluated the effects of four feeding stimulants on feed intake (FI), growth performance, body composition, serum biochemical parameters, digestive enzyme activities and appetite-related gene expression for juvenile GIFT tilapia. Five experimental high plant-based diets (with 0, 0.4 g kg −1 dimethyl-β-propiothetin (DMPT), 0.6 g kg −1 dimethylthetin (DMT), 1.8 g kg −1 tryptophan (Trp) and 6 g kg −1 betaine (Bet), respectively supplemented) were fed to juvenile GIFT tilapia (Oreochromis sp.) (3.34 ± 0.01 g) for 8 weeks. The results showed that FI was significantly increased by Trp and DMT. The highest specific growth rate (SGR) and protein efficiency ratio (PER) was observed for fish fed Bet diet, followed by DMT. Serum triglyceride was significantly increased by DMPT. Fish fed Bet diet showed significantly higher intestinal protease, liver protease and intestinal amylase activities. The neuropeptide Y (NPY) mRNA expression in brain was significantly improved by Trp, and ghrelin mRNA expression in stomach was significantly increased by DMT. It is concluded that supplementation of Trp or DMT could act as an effective feeding stimulants (FS) in high plant-based diets for juvenile GIFT tilapia, which might be associated with the relatively higher orexigenic (NPY or ghrelin) genes expression, and supplementation of Bet could improve SGR, PER and reduce feed conversion ratio (FCR) of juvenile GIFT tilapia.
K E Y W O R D Sappetite-related genes, betaine, dimethylthetin, dimethyl-β-propiothetin, feeding stimulants, growth, tryptophan
Imidacloprid resistance in the brown planthopper, Nilaparvata lugens, is primarily the result of the over-expression of cytochrome P450 monooxygenases. Here, a field-collected strain of N. lugens was shown to be highly resistant to both imidacloprid and buprofezin. Insecticide exposure and quantitative real-time PCR revealed that its resistance was mainly associated with a cytochrome P450 gene, CYP6AY1. CYP6AY1 is known to metabolize imidacloprid but its effect on buprofezin is unclear. In the 5'-untranslated region of CYP6AY1, a novel alternative splicing was detected. After a 1990-bp promoter region was cloned, its basal luciferase activity was assessed. Furthermore, genotyping studies identified 12 variations in the promoter region that discriminated between the field-collected and control strain. Finally, survival bioassays revealed a single nucleotide polymorphism and an insertion-deletion polymorphism linked to buprofezin and imidacloprid resistance. Mutagenesis of these sites enhanced the promoter activity of CYP6AY1. These results suggest that promoter polymorphisms may affect P450-mediated multiple insecticide resistance of pests.
The flavone, tricin (5,7,4′‐trihydroxy‐3′,5′‐dimethoxyflavone), is a valuable secondary metabolite that is common in gramineous plants, including cultivated rice (Oryza sativa). It can defend the rice plant against infestation by the brown planthopper (BPH), Nilaparvata lugens Stål, one of the most important pests of rice. This study evaluated the tricin concentration in infested and non‐infested rice plants. The results of the liquid chromatography coupled to tandem mass spectrometry (LC–MS/MS) quantitative analysis showed that the tricin concentration in rice leaves was significantly higher than in the stems and roots. The mass concentration of tricin in the leaves at the leaf stage was significantly higher than at the tiller and booting stages. The relationship between rice variety, BPH resistance and tricin concentration was investigated. There was a significant negative correlation between tricin concentration and the injury severity scores for rice varieties. Moreover, BPH infestation caused variations in tricin concentration among rice plants. High BPH infestation levels can significantly reduce the tricin concentration in rice plants. However, there is no significant effect of the length of infestation times on tricin concentrations in rice leaves. These results suggest that there may be an elicitor in BPH saliva, which is injected into rice plants during BPH infestation and triggers the tricin metabolic system. Future studies need to identify the elicitor and clarify the mechanism underlying tricin reduction in infested rice plants.
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