Leptinotarsa decemlineata (Say) (Coleoptera: Chrysomelidae) is one of the most important insect pests of potato (Solanum tuberosum L.). Because of the high value of potato crops, most growers approach management in a ...Leptinotarsa decemlineata (Say) (Coleoptera: Chrysomelidae) is one of the most important insect pests of potato (Solanum tuberosum L.). Because of the high value of potato crops, most growers approach management in a similar manner. Chemical control of arthropod pests in potato is the standard pest management practice, and will likely continue to be in the foreseeable future. This heavy reliance on chemical control has led to high levels of insecticide resistance. Strategies that rotate chemistries are critical in order to maintain insecticide efficacy, highlighting the immediate need to evaluate novel chemistries to continue to manage this pest successfully. Working with different populations of L. decemlineata, field and lab experiments were conducted to evaluate the baseline toxicity, ovicidal activity, and field efficacy of the novel insecticide tolfenpyrad to L. decemlineata. Lab assays revealed that tolfenpyrad was toxic to both larvae and adults, and that L. decemlineata treated egg masses had a 0% hatch rate. Potato field plots treated with tolfenpyrad had significantly fewer larvae, less defoliation, and higher tuber yields. These data will provide accurate field rates for proper labeling, a baseline reference for tracking changes in L. decemlineata susceptibility, as well as provide a novel chemistry to aid in resistance management programs.展开更多
The Colorado potato beetle (CPB), Leptinotarsa decemlineata (Say), is an infamous invasive species worldwide that aggressively attacks potato and other Solanaceae crops. CPB was first found in China in 1993 and ha...The Colorado potato beetle (CPB), Leptinotarsa decemlineata (Say), is an infamous invasive species worldwide that aggressively attacks potato and other Solanaceae crops. CPB was first found in China in 1993 and has since spread across 2.77 × 105 km2 in Xinjiang Uygur Autonomous Region. To better understand genetic variation and migration patterns, we used seven polymorphic microsatellite loci to elucidate the genetic relationships and gene flow among 10 CPB populations across Xinjiang. (i) Overall low levels of genetic diversity were detected on the entire population in Xinjiang but most of the diversity was retained among populations during invasion. (ii) The mean pairwise FST was low (0.071 ± 0.043) among populations. The genetic differentiation was little (pairwise FST 0.038 ± 0.016) between the five interior populations (Wusu, Urumqi, Jimsar, Qitai and Mulei) and Tacheng population. The six populations might come from the same genetic group via Bayesian clustering and were closely related on a neighbor-joining tree. Combining the history data, the five interior populations may have originated from Tacheng. (iii) Gene flow was frequent, especially among the five interior populations. Individuals from the interior populations could be assigned to Tacheng at higher probabilities (means 0.518 ± 0.127) than vice versa (means 0.328 ± 0.074), suggesting that the beetle population has spread from the border to the interior in Xinjiang.展开更多
A heterodimer of two nuclear receptors,ecdysone receptor(EcR)and ultraspiracle,mediates 20‐hydroxyecdysone(20E)signaling to modulate many aspects in insect life,such as molting and metamorphosis,reproduction,diapause...A heterodimer of two nuclear receptors,ecdysone receptor(EcR)and ultraspiracle,mediates 20‐hydroxyecdysone(20E)signaling to modulate many aspects in insect life,such as molting and metamorphosis,reproduction,diapause and innate immunity.In the present paper,we intended to determine the isoform‐specific roles of EcR during larval–pupal–adult transition in the Colorado potato beetle.Double‐stranded RNAs(dsRNAs)were prepared using the common(dsEcR)or isoform‐specific(dsEcRA,dsEcRB1)regions of EcR as templates.Ingestion of either dsEcR or dsEcRA,rather than dsEcRB1,by the penultimate(3rd)and final(4th)instar larvae caused failure of larval–pupal and pupal–adult ecdysis.The RNA interference(RNAi)larvae remained as prepupae,or became deformed pupae and adults.Determination of messenger RNA(mRNA)levels of EcR isoforms found that LdEcRA regulates the expression of LdEcRB1.Moreover,silencing the two EcR transcripts,LdEcRA or LdEcRB1 reduced the mRNA levels of Ldspo and Ldsad,and lowered 20E titer.In contrast,the expression levels of HR3,HR4,E74 and E75 were significantly decreased in the LdEcR or LdEcRA RNAi larvae,but not in LdEcRB1 depleted specimens.Dietary supplement with 20E did not restore the expression of five 20E signaling genes(USP,HR3,HR4,E74 and E75),and only partially alleviated the pupation defects in dsEcR‐or dsEcRA‐fed beetles.These data suggest that EcR plays isoform‐specific roles in the regulation of ecdysteroidogenesis and the transduction of 20E signal in L.decemlineata.展开更多
Insect neuropeptides regulate various physiological processes,such as reproduction,feeding,growth and development,and have been considered as viable targets in the development of alternative strategies for pest contro...Insect neuropeptides regulate various physiological processes,such as reproduction,feeding,growth and development,and have been considered as viable targets in the development of alternative strategies for pest control.Amongst these neuropeptides is myosuppressin(MS),a very conserved neuropeptide that has been reported to regulate cardiac and skeletal muscle contractility,feeding and pupal diapause in insects.In this study,we investigated the involvement of MS in fecundity in a notorious defoliator of potato and other solanaceous plants,the Colorado potato beetle(CPB),Leptinotarsa decemlineata.We identified an MS-precursor-encoding transcript in the L.decemlineata transcriptomic database and then evaluated its transcript levels in various CPB tissues.MS transcript levels were found to be highest in the central nervous system,gut and muscle of CPB males and females.To investigate the role of MS in fecundity,MS was silenced in adult CPBs through RNA interference(RNAi).This resulted in a significant reduction in oviposition(over 80%)and oocyte size(69%)in the treated beetles compared to the controls.Also,the reduction in oviposition in treated females was confirmed to be dependent on MS knockdown and independent of male fertilization.Furthermore,MS-knockdown in females resulted in decreased levels of ecdysteroid hormone titers and the transcript levels of its receptor.Interestingly,the injection of 20-hydroxyecdysone into females following MS knockdown could rescue ovary development.Altogether,this study highlights the important role played by MS in regulating fecundity in CPB.展开更多
The insect nicotinic acetylcholine receptor(nAChR)is a pentameric channel protein and also a target for neonicotinoids.There are few reported studies on the molecular interactions of Leptinotarsa decemlineata nAChRs w...The insect nicotinic acetylcholine receptor(nAChR)is a pentameric channel protein and also a target for neonicotinoids.There are few reported studies on the molecular interactions of Leptinotarsa decemlineata nAChRs with neonicotinoids.In this study,we analyzed the response of acetylcholine and neonicotinoids(thiamethoxam[TMX],imidacloprid[IMI],and clothianidin[CLO])on hybrid receptors constructed by nAChRα1 andα8 subunits of L.decemlineata(Ldα1 and Ldα8)co-expressed with ratβ2 subunit(rβ2)at different capped RNA(cRNA)ratios in Xenopus oocytes.In addition,we evaluated the expression changes of Ldα1 and Ldα8 after median lethal dose of TMX treatment for 72 h by quantitative polymerase chain reaction(qPCR).The resulting functional nAChRs Ldα1/rβ2 and Ldα1/Ldα8/rβ2 showed different pharmacological characteristics.The neonicotinoids tested showed lower agonist affinity on Ldα1/Ldα8/rβ2 compared to Ldα1/rβ2 at same ratios of subunit cRNAs.The sensitivities of neonicotinoids tested for Ldα1/rβ2 and Ldα1/Ldα8/rβ2 at cRNA ratios of 5:1,1:1 and 5:5:1,1:1:1,respectively,were lower than those for nAChRs at ratios of 1:5 and 1:1:5,respectively,whereas the values of maximum response(Imax)varied.For Ldα1/Ldα8/rβ2,a reduction of Lda8 cRNA resulted in increased sensitivity to IMI and decreased sensitivity to TMX.The expression of Ldα1 and Ldα8 significantly decreased in adults by 82.12%and 47.02%,respectively,while Ldα8 was significantly upregulated by 2.44 times in 4th instar larvae after exposure to TMX.We infer that Ldα1 and Ldα8 together play an important role in the sensitivity of L.decemlineata to neonicotinoids.展开更多
文摘Leptinotarsa decemlineata (Say) (Coleoptera: Chrysomelidae) is one of the most important insect pests of potato (Solanum tuberosum L.). Because of the high value of potato crops, most growers approach management in a similar manner. Chemical control of arthropod pests in potato is the standard pest management practice, and will likely continue to be in the foreseeable future. This heavy reliance on chemical control has led to high levels of insecticide resistance. Strategies that rotate chemistries are critical in order to maintain insecticide efficacy, highlighting the immediate need to evaluate novel chemistries to continue to manage this pest successfully. Working with different populations of L. decemlineata, field and lab experiments were conducted to evaluate the baseline toxicity, ovicidal activity, and field efficacy of the novel insecticide tolfenpyrad to L. decemlineata. Lab assays revealed that tolfenpyrad was toxic to both larvae and adults, and that L. decemlineata treated egg masses had a 0% hatch rate. Potato field plots treated with tolfenpyrad had significantly fewer larvae, less defoliation, and higher tuber yields. These data will provide accurate field rates for proper labeling, a baseline reference for tracking changes in L. decemlineata susceptibility, as well as provide a novel chemistry to aid in resistance management programs.
基金We thank Mr. De-Cheng Ma, Mr. Ainiwaer and Ms. Li Jing at the plant protection station of Xinjiang Uighur Autonomous Region for their help during field collections. We are grateful to Mr. Xiao-Long Chen, Mr. Shou- Qi Zhao, Mr. Ya-Kun Song and Ms. Qin Meng from the National Agro-Technical Extension and Service Centre, Ministry of Agriculture, PR China, for providing experi- mental instruments and research conditions. We express special thanks to Drs. Li Ren, Jing Xu and Zhi-Liang Wang of the Institute of Zoology, Chinese Academy of Sciences, for their help with field sampling and the experimental process. We also thank Qiao-Zhe Lou, Hong-Yu Zhu and Lei Du Lei for help with DNA manipulations and data analysis. This research was supported by the Chinese Academy of Sciences (Hundred Talents in 2010), Ministry of Science and Technology (2009CB119204), the Ministry of Agriculture (200903042), and the National Natural Science Foundation of China (31172130, J0930004) programs.
文摘The Colorado potato beetle (CPB), Leptinotarsa decemlineata (Say), is an infamous invasive species worldwide that aggressively attacks potato and other Solanaceae crops. CPB was first found in China in 1993 and has since spread across 2.77 × 105 km2 in Xinjiang Uygur Autonomous Region. To better understand genetic variation and migration patterns, we used seven polymorphic microsatellite loci to elucidate the genetic relationships and gene flow among 10 CPB populations across Xinjiang. (i) Overall low levels of genetic diversity were detected on the entire population in Xinjiang but most of the diversity was retained among populations during invasion. (ii) The mean pairwise FST was low (0.071 ± 0.043) among populations. The genetic differentiation was little (pairwise FST 0.038 ± 0.016) between the five interior populations (Wusu, Urumqi, Jimsar, Qitai and Mulei) and Tacheng population. The six populations might come from the same genetic group via Bayesian clustering and were closely related on a neighbor-joining tree. Combining the history data, the five interior populations may have originated from Tacheng. (iii) Gene flow was frequent, especially among the five interior populations. Individuals from the interior populations could be assigned to Tacheng at higher probabilities (means 0.518 ± 0.127) than vice versa (means 0.328 ± 0.074), suggesting that the beetle population has spread from the border to the interior in Xinjiang.
文摘A heterodimer of two nuclear receptors,ecdysone receptor(EcR)and ultraspiracle,mediates 20‐hydroxyecdysone(20E)signaling to modulate many aspects in insect life,such as molting and metamorphosis,reproduction,diapause and innate immunity.In the present paper,we intended to determine the isoform‐specific roles of EcR during larval–pupal–adult transition in the Colorado potato beetle.Double‐stranded RNAs(dsRNAs)were prepared using the common(dsEcR)or isoform‐specific(dsEcRA,dsEcRB1)regions of EcR as templates.Ingestion of either dsEcR or dsEcRA,rather than dsEcRB1,by the penultimate(3rd)and final(4th)instar larvae caused failure of larval–pupal and pupal–adult ecdysis.The RNA interference(RNAi)larvae remained as prepupae,or became deformed pupae and adults.Determination of messenger RNA(mRNA)levels of EcR isoforms found that LdEcRA regulates the expression of LdEcRB1.Moreover,silencing the two EcR transcripts,LdEcRA or LdEcRB1 reduced the mRNA levels of Ldspo and Ldsad,and lowered 20E titer.In contrast,the expression levels of HR3,HR4,E74 and E75 were significantly decreased in the LdEcR or LdEcRA RNAi larvae,but not in LdEcRB1 depleted specimens.Dietary supplement with 20E did not restore the expression of five 20E signaling genes(USP,HR3,HR4,E74 and E75),and only partially alleviated the pupation defects in dsEcR‐or dsEcRA‐fed beetles.These data suggest that EcR plays isoform‐specific roles in the regulation of ecdysteroidogenesis and the transduction of 20E signal in L.decemlineata.
基金This project was supported by the Special Research Fund of Ghent University(BOF)the Research Foundati on Flanders(FWO-Vlaanderen)to GS.
文摘Insect neuropeptides regulate various physiological processes,such as reproduction,feeding,growth and development,and have been considered as viable targets in the development of alternative strategies for pest control.Amongst these neuropeptides is myosuppressin(MS),a very conserved neuropeptide that has been reported to regulate cardiac and skeletal muscle contractility,feeding and pupal diapause in insects.In this study,we investigated the involvement of MS in fecundity in a notorious defoliator of potato and other solanaceous plants,the Colorado potato beetle(CPB),Leptinotarsa decemlineata.We identified an MS-precursor-encoding transcript in the L.decemlineata transcriptomic database and then evaluated its transcript levels in various CPB tissues.MS transcript levels were found to be highest in the central nervous system,gut and muscle of CPB males and females.To investigate the role of MS in fecundity,MS was silenced in adult CPBs through RNA interference(RNAi).This resulted in a significant reduction in oviposition(over 80%)and oocyte size(69%)in the treated beetles compared to the controls.Also,the reduction in oviposition in treated females was confirmed to be dependent on MS knockdown and independent of male fertilization.Furthermore,MS-knockdown in females resulted in decreased levels of ecdysteroid hormone titers and the transcript levels of its receptor.Interestingly,the injection of 20-hydroxyecdysone into females following MS knockdown could rescue ovary development.Altogether,this study highlights the important role played by MS in regulating fecundity in CPB.
基金funded by National Key Re-search and Development Project of China(No.2018YFD0200802).
文摘The insect nicotinic acetylcholine receptor(nAChR)is a pentameric channel protein and also a target for neonicotinoids.There are few reported studies on the molecular interactions of Leptinotarsa decemlineata nAChRs with neonicotinoids.In this study,we analyzed the response of acetylcholine and neonicotinoids(thiamethoxam[TMX],imidacloprid[IMI],and clothianidin[CLO])on hybrid receptors constructed by nAChRα1 andα8 subunits of L.decemlineata(Ldα1 and Ldα8)co-expressed with ratβ2 subunit(rβ2)at different capped RNA(cRNA)ratios in Xenopus oocytes.In addition,we evaluated the expression changes of Ldα1 and Ldα8 after median lethal dose of TMX treatment for 72 h by quantitative polymerase chain reaction(qPCR).The resulting functional nAChRs Ldα1/rβ2 and Ldα1/Ldα8/rβ2 showed different pharmacological characteristics.The neonicotinoids tested showed lower agonist affinity on Ldα1/Ldα8/rβ2 compared to Ldα1/rβ2 at same ratios of subunit cRNAs.The sensitivities of neonicotinoids tested for Ldα1/rβ2 and Ldα1/Ldα8/rβ2 at cRNA ratios of 5:1,1:1 and 5:5:1,1:1:1,respectively,were lower than those for nAChRs at ratios of 1:5 and 1:1:5,respectively,whereas the values of maximum response(Imax)varied.For Ldα1/Ldα8/rβ2,a reduction of Lda8 cRNA resulted in increased sensitivity to IMI and decreased sensitivity to TMX.The expression of Ldα1 and Ldα8 significantly decreased in adults by 82.12%and 47.02%,respectively,while Ldα8 was significantly upregulated by 2.44 times in 4th instar larvae after exposure to TMX.We infer that Ldα1 and Ldα8 together play an important role in the sensitivity of L.decemlineata to neonicotinoids.