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1.
Insecticide resistance of the oriental fruit fly, Bactrocera dorsalis (Hendel) (Diptera: Tephritidae), in mainland China 总被引:1,自引:0,他引:1
BACKGROUND: In order to investigate the extent of resistance of oriental fruit fly, Bactrocera dorsalis (Hendel), which is a widespread pest throughout tropical, subtropical and temperate fruit crops, 25 populations of this insect were collected from 13 sites in mainland China in 2007 and 2008. In addition, resistant strains were established that showed increasing development of resistance. RESULTS: Compared with the susceptible strain, one population of B. dorsalis expressed high resistance (RR = 70.4‐fold), 16 populations expressed medium resistance (11.5‐fold < RR < 25.8‐fold) and eight populations had low resistance or remained susceptible (1.4‐fold < RR < 8.9‐fold) to trichlorphon. As regards β‐cypermethrin, one population showed high resistance (RR = 44.0‐fold), nine populations expressed medium resistance (12.2‐fold < RR < 28.4‐fold), 14 populations expressed low or minor resistance (3.0‐fold < RR < 9.7‐fold) and one population remained susceptible (RR = 1.1‐fold). As regards avermectin, five populations had developed high resistance (44.3‐fold < RR < 104‐fold), seven populations expressed medium resistance (11.4‐fold < RR < 38.6‐fold) and three populations expressed low or minor resistance (3.5‐fold < RR < 5.6‐fold). A continuous resistance selection in the laboratory strain showed that the resistance ratios to trichlorphon, β‐cypermethrin and avermectin were 71.6‐fold, 333‐fold and 70.4‐fold respectively. CONCLUSION: The data provided a comprehensive survey of insecticide resistance in Bactrocera dorsalis in mainland China. All results suggested that early resistance management programmes should be established for restoring the efficacy of pesticide‐based control measures. Copyright © 2010 Society of Chemical Industry 相似文献
2.
Grant T McQuate Roy T Cunningham Steven L Peck Paul H Moore 《Pest management science》1999,55(5):574-576
The oriental fruit fly, Bactrocera dorsalis (Hendel), is a tephritid fruit fly that is a serious pest of a wide range of tropical fruits. Populations of oriental and other fruit fly species are often suppressed by utilizing aerial or ground sprays of hydrolysed protein bait mixed with malathion. Although proven to be efficacious, spraying food bait mixed with malathion in urban areas is strongly opposed by the public because of perceived public health and environmental risks. To suppress the population level of oriental fruit fly in a guava orchard in Hawaii, we used the light-activated xanthene dye, phloxine B (2′,4′,5′,7′ -tetrabromo-4,5,6,7-tetrachlorofluorescein, disodium salt), as an alternative to malathion in protein bait sprays. Because phloxine B must be ingested to be toxic, it is expected that phloxine B bait sprays will have less impact on non-target insects than the contact insecticide malathion. Evidence of suppression of oriental fruit fly population in the treatment orchard was provided by both protein bait trap catches and assessment of fruit infestation. This suppression was achieved even though there was an unsprayed guava orchard on two sides of the small (less than 2.0 ha) sprayed orchard. These results, combined with results for other fruit fly species (presented elsewhere), indicate that phloxine B-protein bait sprays can be effective in suppressing populations of several different fruit fly species and that phloxine B is a potential replacement for malathion in bait sprays for tephritid fruit fly suppression/eradication programs. 相似文献
3.
BACKGROUND: The oriental fruit fly, Bactrocera dorsalis, is a major pest that infects fruits and agricultural products worldwide. The latest resistance monitoring of B. dorsalis from mainland China has identified high levels of resistance to insecticides. In this study, the biochemical and molecular characteristics of acetylcholinesterase (AChE) in four field populations of B. dorsalis are investigated. RESULTS: Among the four populations, the DG population and its purified AChE were found to be the least susceptible to malathion and five inhibitors, whereas the KM population and its purified AChE were the most susceptible. The highest catalytic activity of purified AChE was found for the KM population, and the catalytic activity of the DG population was the lowest. Among developmental stages, the AChE purified from larvae was found to be the most insusceptible to inhibitors, but its catalytic activity was the highest. Sequence analysis of the cDNA encoding AChE showed that some residue differences existed. However, no significant differences in expression levels of the AChE gene among populations and developmental stages were detected. CONCLUSION: The results suggest that the decrease in susceptibility of B. dorsalis was mainly caused by decrease in AChE activity, and they provide a broad view on the relation between AChE and resistance. Copyright © 2012 Society of Chemical Industry 相似文献
4.
BACKGROUND: An efficient and convenient RNA interference (RNAi) technique involving double‐stranded RNA (dsRNA) ingestion is useful for gene function studies of non‐model insects. RESULTS: Three dsRNAs targeting different sites within a gene encoding vacuolar ATP synthase subunit E (V‐ATPase‐E, 21E01) were synthesised for RNAi in Nilaparvata lugens. dsRNA was found to be stable in 0.1 g mL?1 sucrose solution, but unstable in artificial fodder. Therefore, dsRNAs were orally delivered into N. lugens in 0.1 g mL?1 sucrose solution. RNAi was induced by all three of the dsRNAs at 0.05 µg µL?1 in N. lugens. Time dynamics analysis of gene silencing indicated that significant suppression of the target gene began as early as 2 days after ingestion of ds2‐21E01 and ds3‐21E01. However, significant repressive effects were recorded up to 10 days after exposure to ds1‐21E01. The maximum reduction in target gene mRNA was observed after 10 days of treatment, with suppression ratios induced by ds1‐21E01, ds2‐21E01 and ds3‐21E01 of 41, 55 and 48% respectively. CONCLUSION: An efficient and convenient RNAi technique involving dsRNA ingestion has been successfully developed for N. lugens. This will be a useful tool for further functional genomic investigation in this organism. Copyright © 2011 Society of Chemical Industry 相似文献
5.
BACKGROUND: RNA interference (RNAi) is a breakthrough technology for conducting functional genomics studies and also as a potential tool for crop protection against insect pests. The major challenge for efficient pest control using RNAi in the field is the development of efficient and reliable methods for production and delivery of double‐stranded RNA (dsRNA). In this paper, the potential of feeding dsRNA expressed in bacteria or synthesized in vitro to manage populations of Colorado potato beetle, Leptinotarsa decemlineata (Say) (CPB), was investigated. RESULTS: Feeding RNAi successfully triggered the silencing of all five target genes tested and caused significant mortality and reduced body weight gain in the treated beetles. This study provides the first example of an effective RNAi response in insects after feeding dsRNA produced in bacteria. CONCLUSION: These results suggest that the efficient induction of RNAi using bacteria to deliver dsRNA is a possible method for management of CPB. This could be also a promising bioassay approach for genome‐wide screens to identify effective target genes for use as novel RNAi‐based insecticides. Copyright © 2010 Society of Chemical Industry 相似文献
6.
Jonathan Willow Ana I. Silva Clauvis Nji Tizi Taning Guy Smagghe Eve Veromann 《Pest management science》2023,79(4):1267-1272
Owing to the expanding industry of medical Cannabis, we discuss recent milestones in RNA interference (RNAi)-based crop protection research and development that are transferable to medical Cannabis cultivation. Recent and prospective increases in pest pressure in both indoor and outdoor Cannabis production systems, and the need for effective nonchemical pest control technologies (particularly crucial in the context of cultivating plants for medical purposes), are discussed. We support the idea that developing RNAi tactics towards protection of medical Cannabis could play a major role in maximizing success in this continuously expanding industry. However, there remain critical knowledge gaps, especially with regard to RNA pesticide biosafety from a human toxicological viewpoint, as a result of the medical context of Cannabis product use. Furthermore, efforts are needed to optimize transformation and micropropagation of Cannabis plants, examine cutting edge RNAi techniques for various Cannabis–pest scenarios, and investigate the combined application of RNAi- and biological control tactics in medical Cannabis cultivation. © 2022 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry. 相似文献
7.
RNA silencing of PEX6 gene causes decrease in pigmentation,sporulation and pathogenicity of Fusarium oxysporum 
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下载免费PDF全文 Peroxisomes are single membrane‐bound organelles that play a pivotal role in various developmental processes in all eukaryotic cells. This study targeted the PEX6 gene, which encodes for peroxisomal biogenesis factor 6, by RNA interference (RNAi) in Fusarium oxysporum f. sp. lycopersici. Fusarium oxysporum is a soilborne filamentous, hemibiotrophic fungus that invades tomato roots and colonizes the xylem vessels, thereby causing complete wilting of infected tomato plants. The expression of FoPEX6 in F. oxysporum was found to be higher during early stages of growth and development. The FoPEX6 gene was isolated and a hairpin RNAi construct was prepared and introduced into F. oxysporum 4471 through glass‐bead transformation. The fungal transformation status, i.e. integration, expression and presence of the intended small interfering RNAs (siRNAs), was confirmed by PCR, qPCR and stem‐loop PCR, respectively. The silenced fungal transformants exhibited reduced pigmentation and a significant reduction in sporulation as compared to the wild type. They also showed dramatic reduction in pathogenicity (virulence) on tomato, based on root infection and fruit invasion assays. These results suggest that PEX6 has a central role in pigmentation, sporulation and pathogenicity in F. oxysporum. 相似文献
8.
Xiu‐Dao Yu Zong‐Cai Liu Si‐Liang Huang Zhi‐Qin Chen Yong‐Wei Sun Peng‐Fei Duan You‐Zhi Ma Lan‐Qin Xia 《Pest management science》2016,72(6):1090-1098
Aphids (Aphididae) are major agricultural pests that cause significant yield losses of crop plants each year by inflicting damage both through the direct effects of feeding and by vectoring harmful plant viruses. Expression of double‐stranded RNA (dsRNA) directed against suitable insect target genes in transgenic plants has been shown to give protection against pests through plant‐mediated RNA interference (RNAi). Thus, as a potential alternative and effective strategy for insect pest management in agricultural practice, plant‐mediated RNAi for aphid control has received close attention in recent years. In this review, the mechanism of RNAi in insects and the so far explored effective RNAi target genes in aphids, their potential applications in the development of transgenic plants for aphid control and the major challenges in this regard are reviewed, and the future prospects of using plant‐mediated RNAi for aphid control are discussed. This review is intended to be a helpful insight into the generation of aphid‐resistant plants through plant‐mediated RNAi strategy. © 2016 Society of Chemical Industry 相似文献
9.
为明确橘小实蝇寄主偏好性机理,2018年于广西番石榴主产区测定橘小实蝇对14种不同寄主果实的产卵选择性、对嗜好寄主不同生育期果实的产卵选择性及嗜好寄主不同生育期的果实硬度、可溶性糖含量和可溶性蛋白含量,并对果实硬度、可溶性糖含量和可溶性蛋白含量与橘小实蝇产卵率的相关性进行分析。结果表明,广西番石榴主产区不同月份均有多种不同种类的橘小实蝇潜在寄主果实成熟,但橘小实蝇偏好在台湾珍珠番石榴和西瓜红番石榴上产卵,产卵率分别为43.98%和39.43%,且对两者产卵无显著偏好性;橘小实蝇偏好在这2个番石榴品种的成熟期果实上产卵,产卵率分别为48.01%和44.84%,膨大期次之,产卵率分别为40.75%和41.75%。台湾珍珠番石榴成熟期果实硬度和可溶性蛋白含量均最低,分别为3.18 kg/cm2和0.10 mg/g,均显著低于其他2个生育期;台湾珍珠番石榴成熟期果实可溶性糖含量为32.72%,显著高于其他2个生育期。西瓜红番石榴3个生育期果实硬度、可溶性蛋白含量和可溶性糖含量的变化规律与台湾珍珠番石榴一致。橘小实蝇在台湾珍珠番石榴和西瓜红番石榴果实上的产卵率与果实硬度和可溶性蛋白含量呈负相关,... 相似文献
11.
为减少实蝇粘虫板对天敌的诱杀作用,完善实蝇粘虫板在果园的使用方法,于2018年和2019年分别在湖南省农业科学院园艺研究所橘园、桃园、梨园悬挂实蝇粘虫板,调查其诱杀的橘小实蝇、其他害虫和天敌数量。结果表明,橘园、梨园和桃园共诱杀到15个种、4个科和9个类群,包括靶标害虫橘小实蝇、其他害虫和天敌。3种果园中粘虫板诱杀的昆虫种、科或类群数量有差异,其中梨园中诱杀的昆虫总数最多,为13 653头,其次是桃园,橘园中诱杀的昆虫总数最少。在橘园、梨园和桃园中,橘小实蝇的相对丰富度分别为5.90%、23.45%和21.73%,最早出现时间均为6月;在橘园中橘小实蝇诱杀量高峰期在8月下旬至10月上旬,下半年天敌诱杀量高峰期略滞后于橘小实蝇的诱杀量高峰期,在梨园和桃园中橘小实蝇诱杀量高峰期主要集中在7月中下旬至10月中旬,橘小实蝇诱杀量高峰期与天敌诱杀量高峰期无明显相关性;3种果园中粘虫板诱杀的主要天敌有瓢虫、食蚜蝇、草蛉、寄生蜂,桃园和梨园中诱杀的草蛉较多,橘园中诱杀的瓢虫和寄生蜂较多。应用实蝇粘虫板防控橘小实蝇时,梨园和桃园应从6月上旬开始悬挂,橘园应从8月上旬开始悬挂,先少量悬挂,根据诱杀橘小实蝇数量,再逐渐增加粘虫板。 相似文献
12.
RNA interference technology in crop protection against arthropod pests,pathogens and nematodes 下载免费PDF全文
下载免费PDF全文 Moises Zotti Ericmar Avila dos Santos Deise Cagliari Olivier Christiaens Clauvis Nji Tizi Taning Guy Smagghe 《Pest management science》2018,74(6):1239-1250
Scientists have made significant progress in understanding and unraveling several aspects of double‐stranded RNA (dsRNA)‐mediated gene silencing during the last two decades. Now that the RNA interference (RNAi) mechanism is well understood, it is time to consider how to apply the acquired knowledge to agriculture and crop protection. Some RNAi‐based products are already available for farmers and more are expected to reach the market soon. Tailor‐made dsRNA as an active ingredient for biopesticide formulations is considered a raw material that can be used for diverse purposes, from pest control and bee protection against viruses to pesticide resistance management. The RNAi mechanism works at the messenger RNA (mRNA) level, exploiting a sequence‐dependent mode of action, which makes it unique in potency and selectivity compared with conventional agrochemicals. Furthermore, the use of RNAi in crop protection can be achieved by employing plant‐incorporated protectants through plant transformation, but also by non‐transformative strategies such as the use of formulations of sprayable RNAs as direct control agents, resistance factor repressors or developmental disruptors. In this review, RNAi is presented in an agricultural context (discussing products that have been launched on the market or will soon be available), and we go beyond the classical presentation of successful examples of RNAi in pest‐insect control and comprehensively explore its potential for the control of plant pathogens, nematodes and mites, and to fight against diseases and parasites in beneficial insects. Moreover, we also discuss its use as a repressor for the management of pesticide‐resistant weeds and insects. Finally, this review reports on the advances in non‐transformative dsRNA delivery and the production costs of dsRNA, and discusses environmental considerations. © 2017 Society of Chemical Industry 相似文献
13.
B. Zare A. Niazi R. Sattari H. Aghelpasand K. Zamani M. S. Sabet F. Moshiri S. Darabie M. H. Daneshvar P. Norouzi S. K. Kazemi‐Tabar M. Khoshnami M. A. Malboobi 《Plant pathology》2015,64(1):35-42
Rhizomania is one of the most damaging and widely spread diseases in major sugar beet growing regions of the world. The causal agent, beet necrotic yellow vein virus (BNYVV), is transmitted via the fungus Polymyxa betae, which retains it in the field for years. In this study, an RNA silencing mechanism was employed to induce resistance against rhizomania using intron‐hairpin RNA (ihpRNA) constructs. These constructs were based on sequences of the BNYVV 5′‐untranslated region of RNA‐2 or the flanking sequence encoding P21 coat protein, with different lengths and orientations. Both transient and stable transformation methods produced effective resistance against rhizomania correlated with the transgene presence. Among the constructs, those generating ihpRNA structures with small intronic loops produced the highest frequencies of resistant events. The inheritance of transgenes and resistance was confirmed over generations in stably transformed plants. 相似文献
14.
BACKGROUND: Previous studies have indicated that increased caboxylesterase (CarE) activity is a major mechanism of malathion resistance in field populations of the oriental migratory locust, Locusta migratoria manilensis (Meyen), in China. The aim of the present study was to screen CarE‐like genes from a large locust expressed sequence tag (EST) database and to assess their potential roles in malathion resistance. RESULTS: Twenty‐five ESTs derived from different CarE‐like genes in the locust EST database were identified, and 12 candidate genes with significantly increased expressions, ranging from 2.6‐ to 11.6‐fold in a field‐derived resistant (FR) colony of the locust, were found. These candidate genes were constitutively expressed in all nymph and adult stages, and most of them were predominantly expressed in the gastric caeca and the midgut. Among the 12 genes, two representative genes (LmCarE9 and LmCarE25) were chosen for RNAi followed by malathion bioassay. The nymph mortalities increased from 34.3 to 65.2 and 54.2% respectively after LmCarE9 and LmcarE25 were silenced. These results indicated significant roles of these CarE‐like genes in conferring malathion resistance in the locust. CONCLUSION: Multiple CarE‐like genes were involved in malathion resistance in the locust. As validated by RNAi followed by malathion bioassay, LmCarE9 and LmcarE25 played a significant role in conferring malathion resistance. Copyright © 2010 Society of Chemical Industry 相似文献
15.
Transformation with self‐complementary oncogene sequences was used to silence the Agrobacterium tumefaciens oncogenes ipt and iaaM. The silencing response was triggered by using a very short chimeric sequence where conserved fragments from both oncogenes were fused in one unique transgene. Most T0 transgenic tobacco lines and T1 seedlings evaluated in vitro had intermediate or very low susceptibility to A. tumefaciens as compared with the wildtype plants. A greenhouse evaluation of whole plants confirmed the lines that were resistant. Low levels of transgene hairpin RNA (hpRNA) coupled with small interfering RNA (siRNA) accumulation correlated with oncogene silencing and, therefore, resistance to crown gall. After infection with the oncogenic strain, much lower levels of the oncogenes’ mRNA were found in resistant lines than in wildtype plants. The frequency of resistant lines, with few or no symptoms, produced with the chimeric construct was similar to the highest reported efficiencies obtained by using sense and antisense whole oncogene sequences. 相似文献
16.
Cowpea (Vigna unguiculata) is one of the most important legumes cultivated in many parts of the world. The diseases caused by Cowpea severe mosaic virus (CPSMV) and Cowpea aphid‐borne mosaic virus (CABMV) are considered among the most important constraints on yield and quality, especially in Latin America and Africa. Here, the concept of using an RNA interference construct to silence the CPSMV proteinase cofactor gene and the CABMV coat protein gene is explored, in order to generate resistant transgenic cowpea plants. Ten cowpea transgenic lines were produced, presenting a normal phenotype and transferring the transgene to the next generation. Plants were tested for resistance to both CABMV and CPSMV by mechanical co‐inoculation. Seven lines presented milder symptoms when compared to the control and three lines presented enhanced resistance to both viruses. Northern analyses were carried out to detect the transgene‐derived small interfering RNA (siRNA) in leaves and revealed no correlation between siRNA levels and virus resistance. Additionally, in the symptomless resistant lines the resistance was homozygosis‐dependent. Only homozygous plants remained uninfected while hemizygous plants presented milder symptoms. 相似文献
17.
BACKGROUND: RNA interference (RNAi) is commonly used in insect functional genomics studies and usually involves direct injection of double‐stranded RNA (dsRNA). Only a few studies have involved exposure to dsRNAs through feeding. For western corn rootworm (Diabrotica virgifera virgifera) larvae, ingestion of dsRNA designed from the housekeeping gene, vacuolar ATPase (vATPase) triggers RNAi causing growth inhibition and mortality; however, the effect of dsRNA feeding on adults has not been examined. In this research, WCR adults were fed with vATPase‐dsRNA‐treated artificial diet containing a cucurbitacin bait, which is a proven feeding stimulant for chrysomelid beetles of the subtribe Diabroticina to which rootworms belong. RESULTS: Real‐time PCR confirmed suppression of vATPase expression and western blot analysis indicated reduced signal of a protein that cross‐reacted with a vATPase polyclonal antiserum in WCR adults exposed to artificial diet treated with dsRNA and cucurbitacin bait. Continuous feeding on cucurbitacin and dsRNA‐treated artificial diet resulted in more than 95% adult mortality within 2 weeks while mortality in control treatments never exceeded 20%. CONCLUSIONS: This research clearly demonstrates the effect of RNAi on WCR adults that have been exposed to dsRNA by feeding and establishes a tool to screen dsRNAs of potential target genes in adults. This technique may serve as an alternative to target screening of larvae which are difficult to maintain on artificial diets. Copyright © 2011 Society of Chemical Industry 相似文献
18.
Ana Clariza Samayoa Kyung San Choi Yun-Shiuan Wang Shaw-Yhi Hwang Yu-Bing Huang Jeong Joon Ahn 《Phytoparasitica》2018,46(3):365-376
The oriental fruit fly, Bactrocera dorsalis (Hendel), is a major polyphagous insect pest with a worldwide distribution. The effects of temperature on stage-specific development in B. dorsalis were investigated at eight constant temperatures (13.0 °C, 14.4 °C, 16.2 °C, 19.5 °C, 23.8 °C, 27.7 °C, 31.8 °C and 34.8 °C). B. dorsalis developed successfully from the egg stage to the adult stage at all the tested temperatures, except at the lowest temperatures (13.0 °C and 14.4 °C). Stage-specific lower developmental thresholds and thermal constants were determined using linear regression. The lower and higher temperature threshold (TL and TH, respectively) were estimated using the Sharpe-Schoolfield-Ikemoto model. The lower developmental threshold and thermal constant from egg to adult emergence were 9.8 °C and 325.5 degree-days, respectively. The intrinsic optimum temperatures of the egg, larval, pupal and egg to pupal stage were 20.7 °C, 21.8 °C, 21.1 °C, and 22.4 °C, respectively. The temperature range of the B. dorsalis total immature stage from TL to TH was 20.4 °C (13.8 °C - 34.2 °C). The stage-specific developmental completion of B. dorsalis was determined using a two-parameter Weibull function. The daily adult emergence frequency of B. dorsalis was estimated in relation to adult age and temperature using non-linear developmental rate functions and the Weibull function. The date of cumulative 50% adult emergence estimated using non-linear functions was approximately one day earlier than the experimentally observed date. Thermal performance was compared among B. dorsalis populations from different locations. 相似文献
19.
草地贪夜蛾Spodoptera frugiperda是一种世界性重大农业害虫,在全球多个国家普遍发生,其幼虫可为害玉米、水稻等多种农作物。该虫于2019年初入侵我国,对我国农业生产构成了严重的威胁,防控形势严峻。为寻求一种草地贪夜蛾的绿色防控方法,本文对草地贪夜蛾潜在RNA干扰(RNA interference,RNAi)靶标致死基因、RNAi传统双链RNA(double-stranded RNA,dsRNA)递送技术的瓶颈以及纳米载体介导的RNAi技术应用进行概括,并对纳米载体介导的RNAi技术应用前景进行展望。 相似文献
20.
RNAi (RNA干扰) 是指由诱导分子siRNA (小干扰 RNA)、miRNA (微小RNA)或piRNA (P 转座子诱导互作 RNA) 特异性降解或者抑制同源mRNA,引起靶标基因沉默的现象。RNAi技术具有操作简便、特异性和选择性强等显著特点,是目前农业生命科学领域最有可能应用于病虫害防控的新技术之一。本文通过综述近年来RNAi在农业病虫害防控领域应用的最新研究成果,并对RNAi技术在新靶标基因筛选、高效dsRNA载体开发、与传统农药相结合以及拓宽应用范围等诸多方面的发展前景进行了展望,同时还针对RNAi干扰效率、稳定性、成本控制、抗性发展及抗性治理等方面所面临的挑战进行了深入探讨,提出了合理建议。基于RNAi技术的病虫害防控策略将继续焕发新的活力,为综合防控提供新理念。 相似文献