Global ETD Search

1	Biochemical and Functional Characterization of Induced Terpene Formation in Arabidopsis Roots Sohrabi, Reza 13 August 2013 (has links) Plants have evolved a variety of constitutive and induced chemical defense mechanisms against biotic stress. Emission of volatile compounds from plants facilitates interactions with both beneficial and pathogenic organisms. However, knowledge of the chemical defense in roots is still limited. In this study, we have examined the root-specific biosynthesis and function of volatile terpenes in the model plant Arabidopsis. When infected with the root rot pathogen Pythium irregulare, Arabidopsis roots release the acyclic C11-homoterpene (E)-4,8-dimethylnona-1,3,7-triene (DMNT), which is a common constituent of volatile blends emitted from insect-damaged foliage. We have identified a single cytochrome P450 monooxygenase of the CYP705 family that catalyzes a root-specific oxidative degradation of the C30-triterpene precursor arabidiol thereby causing the release of DMNT and a C19-degradation product named arabidonol. We found that DMNT shows inhibitory effects on P. irregulare mycelium growth and oospore germination in vitro, and that DMNT biosynthetic mutant plants were more susceptible to P. irregulare infection. We provide evidence based on genome synteny and phylogenetic analysis that the arabidiol biosynthetic gene cluster containing the arabidiol synthase (ABDS) and CYP705A1 genes possibly emerged via local gene duplication followed by de novo neofunctionalization. Together, our studies demonstrate differences and plasticity in the metabolic organization and function of terpenes in roots in comparison to aboveground plant tissues. Additionally, we demonstrated that the arabidiol cleavage product, arabidonol, is further modified by yet unknown enzymatic reactions into three products, which are found in root exudates. We suggested a pathway for their biosynthesis based on precursor feeding experiments and NMR analysis. Although DMNT biosynthetic genes are clustered on chromosome 4 along with several potential modification genes, we did not find a possible role of these genes in the derivatization of arabidonol. Preliminary experimental results using genetic and biochemical approaches for identifying genes involved in the modification steps are also presented. In summary, this study demonstrates an alternative route for volatile terpene formation belowground different from aboveground plant tissues via triterpene degradation and provides evidence for an unexplored triterpene catabolism pathway in Arabidopsis. / Ph. D. Cytochrome P450 plant volatiles specialized metabolism root chemical defense Arabidopsis
2	Identificação de voláteis de plantas de citros com potencial para uso no manejo integrado de Diaphorina citri Kuwayama (Hemiptera: Liviidae) / Identification of volatiles from citrus plants with potential for use in integrated management of Diaphorina citri Kuwayama (Hemiptera: Liviidae) Signoretti, André Gustavo Corrêa 28 January 2015 (has links) Na busca por compostos voláteis para utilização no manejo comportamental de Diaphorina citri Kuwayama (Hemiptera: Liviidae), a resposta destes insetos foi avaliada frente às substâncias liberadas por plantas de laranja, Citrus sinensis (L.) Osbeck, variedade \'Pêra\', enxertadas sobre limão-cravo, C. limonia Osbeck, sadias vs sintomáticas para Huanglongbing (HLB). Voláteis destas plantas, bem como seus extratos foram testados em olfatômetro \'Y\' e analisados por GC-MS. Somente fêmeas foram atraídas, tanto para os voláteis quanto para os extratos, e preferencialmente os de plantas doentes. Foram encontrados 47 compostos em extratos de plantas sadias e doentes, dos quais 11 [hexanal; α-tujeno; α-pineno; sabineno; β-mirceno; α-terpineno; limoneno; linalol; composto 37 (não identificado); β-elemeno e β-copaeno] presentes em maior quantidade nos extratos de plantas doentes, sendo que 3 desses compostos (sabineno, linalol e β -elemeno) foram majoritários nos extratos de ambas as plantas, doentes e sadias. Esses três compostos, bem como uma substância padrão para atração (salicilato de metila), foram testados em diferentes concentrações e misturas em laboratório, casa-de-vegetação e campo. O efeito destas substâncias foi dependente de sua concentração e, embora limoneno tenha alterado a resposta comportamental das fêmeas, apenas salicilato de metila e linalol foram atraentes. Em laboratório, a mistura desses dois compostos apresentou efeito sinérgico na atração de fêmeas e, em casa-de-vegetação, a adição de linalol junto a plantas de citros aumentou a atratividade das mesmas para insetos adultos, sugerindo importante participação desses compostos no processo de seleção hospedeira pelo inseto. Estes resultados acrescentam novas informações para a busca de um atraente para D. citri visando o manejo comportamental do inseto vetor das bactérias Liberibacter, associadas ao HLB, a mais importante doença dos citros no mundo. / With the aim of searching for volatile compounds to use in behavioral management of Diaphorina citri Kuwayama (Hemiptera: Liviidae), the response of these insects was assessed against the substances released by sweet orange [Citrus sinensis (L.) Osbeck], variety \'Pera\', grafted on Rangpur (C. limonia Osbeck), healthy and Huanglongbing (HLB) symptomatic plants. Plant volatiles as well as plant extracts were tested in Y-tube olfactometer assays and analyzed by GC-MS. Only females were attracted to plant volatiles and extracts and they preferred those from HLB-infected plants. A total of 47 compounds was found in the extracts from healthy and infected plants, from which 11 [hexanal; α-thujene; α-pinene; sabinene; β- myrcene; α-terpinene; limonene; linalool; compound #37 (not identified); β-elemene; and β-coapene] were present in higher amounts in infected plant extracts. Three of these volatiles (sabinene, linalool and β-elemene) represented major compounds in both infected and healthy plant blend extracts. These three compounds, as well as a standard substance used for attraction (methyl salicylate), were tested in different concentrations and mixtures in laboratory, greenhouse and field. The effect of these substances was dependent on its concentration and, although limonene changed female behavioral response, only methyl salicylate and linalool were attractive. In the laboratory, the mixture of these two compounds showed a synergistic effect in attracting females and, in greenhouse, the addition of linalool to citrus plants increased the attractiveness of plants to adult insects, suggesting an important role for these compounds in the host selection process by the insect. These results provide novel information about attractants to D. citri with the aim of developing a behavioral management approach of the insect vector for Liberibacter, bacteria associated to HLB, the most important citrus disease worldwide. Diaphorina citri Diaphorina citri Citros Citrus Huanglongbing Huanglongbing Management Manejo Plant volatiles Voláteis de plantas
3	Identificação de voláteis de plantas de citros com potencial para uso no manejo integrado de Diaphorina citri Kuwayama (Hemiptera: Liviidae) / Identification of volatiles from citrus plants with potential for use in integrated management of Diaphorina citri Kuwayama (Hemiptera: Liviidae) André Gustavo Corrêa Signoretti 28 January 2015 (has links) Na busca por compostos voláteis para utilização no manejo comportamental de Diaphorina citri Kuwayama (Hemiptera: Liviidae), a resposta destes insetos foi avaliada frente às substâncias liberadas por plantas de laranja, Citrus sinensis (L.) Osbeck, variedade \'Pêra\', enxertadas sobre limão-cravo, C. limonia Osbeck, sadias vs sintomáticas para Huanglongbing (HLB). Voláteis destas plantas, bem como seus extratos foram testados em olfatômetro \'Y\' e analisados por GC-MS. Somente fêmeas foram atraídas, tanto para os voláteis quanto para os extratos, e preferencialmente os de plantas doentes. Foram encontrados 47 compostos em extratos de plantas sadias e doentes, dos quais 11 [hexanal; α-tujeno; α-pineno; sabineno; β-mirceno; α-terpineno; limoneno; linalol; composto 37 (não identificado); β-elemeno e β-copaeno] presentes em maior quantidade nos extratos de plantas doentes, sendo que 3 desses compostos (sabineno, linalol e β -elemeno) foram majoritários nos extratos de ambas as plantas, doentes e sadias. Esses três compostos, bem como uma substância padrão para atração (salicilato de metila), foram testados em diferentes concentrações e misturas em laboratório, casa-de-vegetação e campo. O efeito destas substâncias foi dependente de sua concentração e, embora limoneno tenha alterado a resposta comportamental das fêmeas, apenas salicilato de metila e linalol foram atraentes. Em laboratório, a mistura desses dois compostos apresentou efeito sinérgico na atração de fêmeas e, em casa-de-vegetação, a adição de linalol junto a plantas de citros aumentou a atratividade das mesmas para insetos adultos, sugerindo importante participação desses compostos no processo de seleção hospedeira pelo inseto. Estes resultados acrescentam novas informações para a busca de um atraente para D. citri visando o manejo comportamental do inseto vetor das bactérias Liberibacter, associadas ao HLB, a mais importante doença dos citros no mundo. / With the aim of searching for volatile compounds to use in behavioral management of Diaphorina citri Kuwayama (Hemiptera: Liviidae), the response of these insects was assessed against the substances released by sweet orange [Citrus sinensis (L.) Osbeck], variety \'Pera\', grafted on Rangpur (C. limonia Osbeck), healthy and Huanglongbing (HLB) symptomatic plants. Plant volatiles as well as plant extracts were tested in Y-tube olfactometer assays and analyzed by GC-MS. Only females were attracted to plant volatiles and extracts and they preferred those from HLB-infected plants. A total of 47 compounds was found in the extracts from healthy and infected plants, from which 11 [hexanal; α-thujene; α-pinene; sabinene; β- myrcene; α-terpinene; limonene; linalool; compound #37 (not identified); β-elemene; and β-coapene] were present in higher amounts in infected plant extracts. Three of these volatiles (sabinene, linalool and β-elemene) represented major compounds in both infected and healthy plant blend extracts. These three compounds, as well as a standard substance used for attraction (methyl salicylate), were tested in different concentrations and mixtures in laboratory, greenhouse and field. The effect of these substances was dependent on its concentration and, although limonene changed female behavioral response, only methyl salicylate and linalool were attractive. In the laboratory, the mixture of these two compounds showed a synergistic effect in attracting females and, in greenhouse, the addition of linalool to citrus plants increased the attractiveness of plants to adult insects, suggesting an important role for these compounds in the host selection process by the insect. These results provide novel information about attractants to D. citri with the aim of developing a behavioral management approach of the insect vector for Liberibacter, bacteria associated to HLB, the most important citrus disease worldwide. Diaphorina citri Citros Huanglongbing Manejo Voláteis de plantas Diaphorina citri Citrus Huanglongbing Management Plant volatiles
4	Developing attractants and deterrents for a push-pull striped cucumber beetle management system Christie N Shee (12635509) 25 May 2022 (has links) <p>In insect pest management, the plant volatiles and pheromones associated with host-plant location can be used to manipulate insect pest behavior by attracting or “pulling” insects from a valuable resource. Conversely, deterrents can be used to prevent behaviors or “push” insects away from a resource. If combined, attractants and deterrents can have powerful synergistic effects that promote greater response than the individual components. This dissertation explores the use of attractants and deterrents of the specialist herbivore and challenging agricultural pest, the striped cucumber beetle, <em>Acalymma vittatum</em>, to ultimately develop a push-pull management system. </p> <p><br></p> <p>In first chapter, we examine the combination of two striped cucumber beetle attractants in attract-and-kill mass trapping: live striped cucumber beetles as a proxy for aggregation pheromone, and cucurbit floral volatiles. In the second chapter, we examine natural products—essential oils, pawpaw extract, squash bugs, and kaolin clay—as a means for repelling or deterring beetles from cucurbit crops. Lastly, we combine the findings of previous chapters as way of using both attractive and deterrents to further modify striped cucumber beetle behavior and to observe potential synergies in removing these pests from cucurbit crops. In this, we use the aggregation pheromone and floral lures in attract-and-kill trapping with the deterrent kaolin. </p> <p><br></p> <p>We found that while aggregation pheromones and floral lures were useful in trapping striped cucumber beetles, floral lures may potentially distract pollinators. Striped cucumber beetle response to floral lures varied across the season and were most attractive in the late growing season, when plants were in bloom. The tested natural products did not successfully prevent beetles from colonizing plants, but instead deterred the specialist herbivore from feeding. While the attractant and deterrent did not have a synergistic effect, they remained complementary in that aggregation pheromones were useful in reducing pest populations, while kaolin clay deterred feeding. Thus, pest management systems should be flexible in timing and type of management used, and should look toward other metrics, such as feeding damage, rather than population density thresholds to measure management success. </p> Integrated pest management Aggregation pheromone Plant volatiles
5	The spotted cucumber beetle (Diabrotica undecimpunctata howardi):interactions with cucurbits and its status as a sweetpotato pest in Mississippi Fleming, Daniel Edward 02 May 2009 (has links) The spotted cucumber beetle (Diabrotica undecimpunctata howardi Barber) is regarded as a pest of sweetpotatoes in Mississippi; however, its feeding on sweetpotatoes has not previously been documented. They are attracted to cucurbit crops that could be utilized as a trap crop or sentinel plant for management of cucumber beetles in sweetpotatoes. Studies were conducted between 2006 and 2008 to determine if cucurbit plants have the potential to serve as a trap crop or as sentinel plants for the spotted cucumber beetle in sweetpotato fields, and to determine the status of the spotted cucumber beetle as a sweetpotato pest in Mississippi. Cucurbit plants showed some potential to serve as a trap crop or sentinel plant for the spotted cucumber beetle, however, sweetpotato damage assumed to be caused by cucumber beetle larvae did not correlate with the number of adults captured. Spotted cucumber beetle larvae can feed and survive on sweetpotato roots. plant volatiles cucurbitacins cucurbits sweet potato Diabrotica banded cucumber beetle spotted cucumber beetle
6	Plant-insect interactions between female dogwood borer and apple Frank, Daniel L. 21 January 2010 (has links) A rearing methodology for dogwood borer was developed, using standardized procedures at each developmental stage. These methods enabled the establishment of a laboratory colony and efficient production of synchronized cohorts of each of its lifestages throughout the year for specific experimental needs. The behavioral repertoire shown by mated female dogwood borer in an apple orchard was characterized and quantified and the diel periodicity with which those behaviors occurred was determined. Mated females were easily recognized, based on their characteristic casting flight directed toward areas below the graft union of apple trees, and were observed more frequently during the late afternoon and evening. Casting flight, probing with the ovipositor, and oviposition were the most frequent behaviors observed, but the duration of those behaviors was relatively short compared with the much lengthier periods of resting behavior that typically occurred within the canopy. Data from a previous, three-year study in two newly planted apple orchards were subjected to geostatistical analyses to examine the temporal and spatial patterns of infestation by larval dogwood borer and to gain further information about the spatial scales at which oviposition occurs. There were moderate to high degrees of aggregation of dogwood borer infestations on neighboring apple trees, with ranges of spatial dependence from 7.50–19.87 m. No directionality was observed in the spatial autocorrelation of infestation and it appears that females utilized oviposition sites equally along and across orchard rows. The aggregated nature of infestations requires that random, independent samples must be taken from a number of sample pairs at distances greater than the range of spatial dependence to ensure that sample data are not autocorrelated. Alternatively, an efficient sampling program for mapping dogwood borer infestation can be achieved by limiting sample points to distances within the range of spatial dependence. These sample points can be used in interpolating algorithms, such as kriging, to predict infestation at unsampled locations in space for use in site-specific pest management programs. The external morphology of male and female dogwood borer antennae and their sensilla were examined using light and scanning electron microscopy to characterize, measure and compare the types, number, and distribution of sensilla. Although the general shape and size of male and female antennae were similar, those from females possessed a greater number of generally smaller antennal flagellomeres. The flagellum of both male and female antennae contained seven sensillum types including auricillica, basiconica, chaetica, coeloconica, squamiformia, styloconica, and three subtypes of sensilla trichoidea. With the exception of sensilla basiconica, which were present in roughly equal numbers on male and female antennae, all other sensillum types were significantly more abundant on female antennae. The antennae of female dogwood borer appear well equipped to perceive olfactory stimuli, based on the types and number of sensilla present. Coupled gas chromatography and electroantennogram detection (GC-EAD) analyses of headspace collections from damaged and undamaged tissues from apple and dogwood trees were conducted to examine and compare the antennal responsiveness of female dogwood borer to host plant volatiles. A total of 16 and 9 compounds from apple and dogwood tissues, respectively, consistently elicited an antennal response in females. There were no differences in the response of antennae from virgin and mated females, and the amplitude of the female response to host odors was greater than that of males. Six compounds were identified from the headspace collections from apple trees, four of which (octanal, nonanal, decanal, and methyl salicylate) were identified from all apple tissues sampled. A novel compound,α-bergamotene, was identified from injured apple bark, from apple burr knots infested with dogwood borer larvae and from larval dogwood borer frass, and appears to be produced by apple trees in response to injury. Another novel compound, methyl-2,4-decadienoate, was identified from infested burr knot tissue and appears to be produced in response to an insect-plant interaction. Two compounds, hexanoic and nonanoic acid, were identified from headspace collections from dogwood trees. Numerous approaches were used to examine the behavioral response of mated female dogwood borer to host plant headspace collections and to individual compounds from those collections that elicited a strong and repeatable antennal response. Under both natural and semi-natural conditions in the field and in laboratory bioassays, neither attraction/orientation or consistent oviposition were documented and it is apparent that correlating the electrophysiological and behavioral responses of mated female dogwood borer to olfactory stimuli from their host plants will require further research on bioassay development. / Ph. D. Synanthedon scitula Malus domestica host plant volatiles olfaction rearing geostatistics kriging antennal morphology sensilla GC-EAD
7	Biochemical, Molecular and Functional Analysis of Volatile Terpene Formation in Arabidopsis Roots Huh, Jung-Hyun 25 August 2011 (has links) Plants produce secondary (or specialized) metabolites to respond to a variety of environmental changes and threats. Especially, volatile compounds released by plants facilitate short and long distance interaction with both beneficial and harmful organisms. Comparatively little is known about the organization and role of specialized metabolism in root tissues. In this study, we have investigated the root-specific formation and function of volatile terpenes in the model plant Arabidopsis. As one objective, we have characterized the two root-specific terpene synthases, TPS22 and TPS25. Both enzymes catalyze the formation of several volatile sesquiterpenes with (E)-β-farnesene as the major product. TPS22 and TPS25 are expressed in the root in distinct different cell type-specific patterns and both genes are induced by jasmonic acid. Unexpectedly, both TPS proteins are localized to mitochondria, demonstrating a subcellular localization of terpene specialized metabolism in compartments other than the cytosol and plastids. (E)-β-Farnesene is produced at low concentrations suggesting posttranslational modifications of the TPS proteins and/or limited substrate availability in mitochondria. We hypothesize that the mitochondrial localization of TPS22 and TPS25 reflects evolutionary plasticity in subcellular compartmentation of TPS proteins with emerging or declining activity. Since (E)-β-farnesene inhibits Arabidopsis root growth in vitro, mitochondrial targeting of both proteins may fine tune (E)-β-farnesene concentrations to prevent possible autotoxic or inhibitory effects of this terpene in vivo. We further investigated the role of volatile terpenes in Arabidopsis roots in interaction with the soil-borne oomycete, Pythium irregulare. Infection of roots with P. irregulare causes emission of the C11-homoterpene (or better called C4-norterpene) 4,8-dimethylnona-1,3,7-triene (DMNT), which is a common volatile induced by biotic stress in aerial parts of plants but was not previously known to be produced in plant roots. We demonstrate that DMNT is synthesized by a novel, root-specific pathway via oxidative degradation of the C30-triterpene, arabidiol. DMNT exhibits inhibitory effects on P. irregulare mycelium growth and oospore germination in vitro. Moreover, arabidiol and DMNT biosynthetic mutants were found to be more susceptible to P. irregulare infection and showed higher rates of Pythium colonization in comparison to wild type plants. Together, our studies demonstrate differences and plasticity in the metabolic organization and function of terpenes in roots in comparison to aboveground plant tissues. / Ph. D. secondary (specialized) metabolism plant volatiles terpene synthase soil-borne pathogen oomycete Pythium sesquiterpene root chemical defense
8	Semioquímicos envolvidos no comportamento de acasalamento de Cyrtomon luridus Boheman (Coleoptera: Curculionidae) e na interação com a planta hospedeira Duboisia sp. (Solanaceae) / Semiochemicals involved in the mating behavior of Cyrtomon luridus Boheman (Coleoptera: Curculionidae) and interaction with the host plant Duboisia sp. (Solanaceae) Kamiya, Aline Cristiane 18 August 2015 (has links) Neste trabalho objetivou-se estudar o comportamento de acasalamento de Cyrtomon luridus Boheman (Coleoptera: Curculionidae), bem como a presença de semioquímicos mediando o acasalamento e a interação com a planta hospedeira Duboisia sp. (Solanaceae). Machos e fêmeas adultos recém-emergidos foram coletados no campo e levados para o laboratório. Incialmente foi determinado o melhor parâmetro morfológico para diferenciação de machos e fêmeas. Verificou-se que machos deste curculionídeo possuem a abertura genital oclusa pelo último tergito. O comportamento de acasalamento foi observado em casais virgens durante nove dias. Verificou-se que machos e fêmeas de C. luridus atingiram a maturidade sexual dois dias após a emergência. Machos e fêmeas realizaram acasalamentos repetidos com o mesmo parceiro em qualquer horário do dia. O comportamento de acasalamento deste curculionídeo foi dividido nas fases pré-copulatória, copulatória e pós-copulatória. Além disso, estudos de olfatometria revelaram que machos e fêmeas de C. luridus foram fortemente atraídos por voláteis de machos se alimentando sobre a planta hospedeira. A coleta e análise destes voláteis revelaram a presença dos compostos (Z)-3-hexenal, hexanal, (E)-2-hexenal, (E)-2-hexen-1-ol, fenilacetaldeido, linalol e geraniol, como eletrofisiologicamente ativos. O presente trabalho traz importantes informações sobre o comportamento de acasalamento e ecologia química de Entiminae e servirão de base para estudos com outras espécies desta importante subfamília de Curculionidae. / This work aimed to study the mating behavior of Cyrtomon luridus Boheman (Coleoptera: Curculionidae), as well as the presence of semiochemicals mediating the mating and the interaction of the insects with the host plant, Duboisia sp. (Solanaceae). Newly emerged males and females adults were collected in the field and taken to the laboratory. Initially it determined the best morphological parameter to differentiate males and females. It was found that males possess the genital opening occluded by the last tergite. The mating behavior was observed in virgin couples for nine days. It was found that males and females C. luridus reached sexual maturity two days after emergence. Males and females made repeated matings with the same partner at any time of day. The mating behavior was clearly divided into the pre-copulatory, copulatory, and post-copulatory phases. In addition, olfatometrics studies revealed that males and females C. luridus were strongly attracted to volatile males feeding on the host plant. The collection and analysis of these volatiles revealed the compounds (Z)-3-hexenal, hexanal, (E)-2-hexenal, (E)-2-hexen-1-ol, phenylacetaldehyde, linalool and geraniol as being eletrophysiologically. The present work brings important information about the mating behavior and chemical ecology of Entiminae, which will serve as support for studies with other species of this important subfamily of Curculionidae. Chemical ecology Copula Cópula Dimorfismo sexual Ecologia química Ethogram Etograma Feromônio Pheromone Plant volatiles Sexual dimorphism Voláteis de planta
9	Estímulos olfativos envolvidos na busca hospedeira por larvas de Diabrotica speciosa (Germar) (Coleoptera: Chrysomelidae) em milho / Olfactory stimuli associated with host search by Diabrotica speciosa (Germar) (Coleoptera: Chrysomelidae) in corn Santos, Franciele dos 02 September 2013 (has links) Apesar da importância dos herbívoros de solo na estruturação da comunidade e também como pragas agrícolas, nosso entendimento sobre a ecologia química de suas interações com a planta hospedeira é limitado comparado à vasta literatura sobre os herbívoros que se alimentam de órgãos aéreos das plantas. O presente estudo teve como objetivo identificar os estímulos olfativos envolvidos na busca hospedeira de Diabrotica speciosa. Larvas de 1º. ínstar de D. speciosa foram capazes de localizar plantas hospedeiras de milho, mas sem distinguir plantas não induzidas das induzidas pela herbivoria radicular e/ou foliar. Já larvas de 2º e 3º ínstar apresentaram preferência por plantas sem indução frente a plantas induzidas pela herbivoria radicular. No entanto, estas larvas preferiram plantas induzidas pela herbivoria foliar em detrimento a plantas sem indução. Na situação em que plantas sem indução foram confrontadas com plantas induzidas pela herbivoria foliar + radicular não houve preferência destas larvas. A análise do perfil de voláteis juntamente com o PCA (\'Análise dos Componentes Principais\') revelaram semelhança entre os voláteis emitidos por plantas induzidas pela herbivoria radicular e foliar + radicular, bem como entre plantas sem indução e induzidas pela herbivoria foliar. Estas diferenças nos perfis de voláteis não foram suficientes para explicar o comportamento de busca hospedeira de larvas de 2º e 3º ínstar, sugerindo a possibilidade de outras pistas químicas associadas com a busca hospedeira de larvas de D. speciosa. / Despite the importance of soil herbivores in community structure and their status as pests, our understanding about the chemical ecology of their interactions is still limited compared to the vast literature on aboveground herbivores. The current study aimed at identifying the olfactory stimuli used in host search by Diabrotica speciosa. First-instar larvae of D. speciosa were able to find corn host plants; however, they did not distinguish between herbivore-induced and non-induced plants (control). Second-and-third-instar larvae preferred non-induced over root-herbivore induced plants. Nevertheless, second-and-third-instar larvae preferred leaf-herbivore induced plants, inflicted by D. speciosa adults, over non-induced plants. When larvae were exposed to non-induced and leaf + root-herbivore induced plants, they did not show preference. Volatile profile analysis together with PCA (Principal Component Analysis) revealed similarity between volatiles emitted by root-herbivore induced and leaf + root-herbivore induced plants as well as between non-induced and leaf-herbivore induced plants. These differences in plant volatile profile were not sufficient to explain host search behavior of second-and-third instar larvae, suggesting the possibility of other chemical cues are associated with host search of D. speciosa larvae. Curcubit beetle Insect-plant interaction Interação inseto-planta Larva-alfinete Plant volatiles Pragas de solo Soil pests Voláteis de plantas
10	Expressão gênica e voláteis induzidos pela herbivoria de Spodoptera frugiperda (J. E. Smith) (Lepidoptera:Noctuidae) em milho, Zea mays L. (Poaceae) / Gene expression and volatile compounds induced by herbivory of Spodoptera frugiperda (J. E. Smith) (Lepidoptera: Noctuidae) in corn, Zea mays L. (Poaceae) Moreira, Laura Silveira Drummond 18 November 2010 (has links) Em resposta aos danos ocasionados por insetos, as plantas emitem voláteis que atraem os inimigos naturais desses herbívoros. Embora essa relação tritrófica venha sendo intensamente estudada, muitos mecanismos envolvidos nesta interação ainda permanecem inexplorados. Dentre os compostos voláteis induzidos por herbivoria e emitidos pelas plantas, os terpenos são os mais expressivos e abundantes. Em resposta ao dano ocasionado por um inseto, cascatas bioquímicas são iniciadas na planta, as quais podem alterar a expressão de genes envolvidos na resposta a tal dano. Este trabalho analisou as mudanças na expressão gênica e produção de compostos voláteis em plantas de milho, Zea mays (Poaceae)promovidas por lagartas Spodoptera frugiperda (Lepidoptera: Noctuidae) ao longo do tempo. Utilizando a técnica de PCR em tempo real (qRTPCR) foram verificadas respostas no nível da expressão gênica das plantas submetidas à indução por herbivoria. Foram analisados os genes de uma lipoxigenase e de três terpeno sintases, enzimas envolvidas na produção de compostos voláteis que atraem parasitóides de S. frugiperda. As plantas submetidas à herbivoria apresentaram níveis de expressão gênica e emissão de voláteis maiores do que as plantas sadias. Os resultados fornecem bases para o entendimento dos mecanismos endógenos responsáveis pela liberação de voláteis nas plantas visando o estabelecimento de novos fundamentos para o controle biológico de pragas. / In response to insect damage, plants emit volatiles that attract natural enemies of herbivores. Although this tritrophic interaction has been intensively studied, many mechanisms involved in this interaction remain unexplored. Among the herbivore-induced volatile compounds, terpenes are the most abundant and significant ones. In response to insect damage, biochemical pathways are activated, which can alter the expression of genes involved in the response to that damage. This study examined changes in gene expression and volatile compounds production in maize plants, Zea mays (Poaceae) promoted by Spodoptera frugiperda (Lep.: Noctuidae) caterpillars through time. Using the real-time PCR technique (qRT-PCR) we verified responses on the level of gene expression of plants subjected to herbivores feeding. We analyzed genes of lipoxygenase and three terpene synthases, enzymes involved in the synthesis of volatile compounds that attract parasitoids of S. frugiperda. Plants subjected to herbivory had higher levels of gene expression and volatile emission when compared to healthy plants. Results provide basis for better understanding of plant volatile emission endogenous mechanisms in order to set new foundations for biological control of pests. Compostos voláteis Expressão gênica Gene expression Herbivory. Insect-plant interactions Insetos Fitófagos Interação planta-inseto Milho. Plant volatiles

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