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Heritable Microbial Endosymbionts in Insects: Insights from the Study of a Parasitic Wasp and its Cockroach HostGibson, Cara January 2008 (has links)
Endosymbiosis is a pervasive phenomenon that has been a powerful force in insect evolution. In many well studied insect-bacterial associations, the bacteria can serve as reproductive manipulators, nutritional mutualists or defenders of their hosts. Fungi are also frequently associated with insects, and initial estimates suggest that these fungi are hyperdiverse. Saving a handful of examples, however, the functions of these fungi within insect hosts are largely unknown. This dissertation begins with a review that lays the conceptual groundwork for understanding bacterial and fungal endosymbiosis in insects. I make predictions about why one versus the other microbe might serve the insect, given any unique physiological, ecological or evolutionary conditions. I then aim to derive insights about microbial symbiosis by focusing on a particular system, that of brownbanded cockroaches, Supella longipalpa (Blattaria: Blattellidae) and their specialist wasp parasitoids, Comperia merceti (Hymenoptera: Encyrtidae). Here, I identify the symbiotic community of these two insects by using both culture-dependent and independent methods to characterize the vertically transmitted bacterial and fungal associates. Finally, I show that a heritable fungus in C. merceti, long presumed to be a mutualist, is parasitic under laboratory conditions: infected wasps incur fitness costs for housing the fungal symbiont relative to uninfected wasps. Additionally, although the fungus is not horizontally transmitted sexually, it is readily horizontally transmitted from the offspring of infected females to those of uninfected females that are using the same host.
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Simbiontes de insetos como endofíticos: a interação Spodoptera frugiperda (J. E. Smith, 1797) (Lepidoptera: Noctuidae) - Zea mays L. (Poales: Poaceae) / Symbionts of insects as endophytes: the interaction Spodoptera frugiperda (J. E. Smith, 1797) (Lepidoptera: Noctuidae) - Zea mays L. (Poales: Poaceae)Achre, Diandra 15 February 2018 (has links)
Insetos representam a maioria dos seres vivos na Terra. O sucesso biológico desses organismos está, em parte, relacionado às associações com microrganismos que influenciam aspectos de sua bioecologia, incluindo as relações com o primeiro e terceiro níveis tróficos. Assim como os insetos, plantas também apresentam associações com microrganismos que podem interferir na sua nutrição e relação com patógenos e herbívoros. Esse trabalho buscou analisar a capacidade de simbiontes associados a insetos de atuar como endofíticos de planta e influenciar, assim, o potencial biótico da planta e a sua capacidade de defesa contra a herbivoria, utilizando o modelo milho - Spodoptera frugiperda (J.E. Smith, 1797) (Lepidoptera: Noctuidae). Quatro simbiontes de insetos foram selecionados. Três deles (IIL-Sfm05, IILSfc-sus01 e IIL-Sfb05) associados ao trato digestivo de S. frugiperda e outro (IIL-ASP45) de Acromyrmex coronatus (IIL-ASP45). Adicionalmente, um endofítico (IILzm-Idp03) isolado do próprio milho foi adicionado como controle positivo. Os ensaios foram conduzidos após cultivo de sementes inoculadas com os diferentes microrganismos via bio-priming, aplicação no solo e aplicação foliar. Dos cinco isolados testados, três (IILSfc-sus01, IIL-Sfb05 e IILzm-Idp03) induziram maior crescimento em plantas de milho; porém, a forma de disponibilização dos microrganismos influenciou a resposta da planta. O isolado IILzm-Idp03 induziu o maior crescimento da planta pela sua disponibilização via bio-priming; IILzm-Idp03 e IIL-Sfb05 via inoculação do solo; e o isolado IILSfc-sus01 via inoculação foliar. Testes biológicos com S. frugiperda em plantas de milho inoculadas ou não com os microrganismos selecionados indicaram que dois deles (isolados IIL-Sfb05 e IIL-ASP45) resultaram em relações patogênicas, chegando à induzir a completa mortalidade de insetos alimentados em tecidos foliares de plantas inoculadas com esses microrganismos. Testes de preferência alimentar demonstraram que as lagartas não foram influenciadas pela alimentação com folhas de plantas inoculadas com as bactérias via bio-priming. Estudos comparativos dos índices nutricionais de plantas tratadas com as diferentes bactérias, indicaram que aquelas tratadas com IIL-ASP45 resultaram no menor crescimento e desenvolvimento larval de S. frugiperda, corroborado pelo menor consumo e índices nutricionais alcançados nessa fonte de alimento. A alimentação em plantas tratadas com IIL-Sfb05 causou 100% de mortalidade larval, não sendo possível a avaliação dos índices nutricionais. Os resultados desse trabalho demonstram o potencial de manipulação da planta hospedeira por bactérias associadas ao herbívoro, bem como o potencial biocida de microrganismos associados a insetos. / Insects represent most of the living things on Earth. The biological success of these organisms is in part related to associations with microorganisms that influence aspects of their bioecology, including relationships with the first and third trophic levels. Like insects, plants also have associations with microorganisms that may interfere in their nutrition and interactions to pathogens and herbivores. This work sought to assess the potential of symbionts associated with insects to act as plant endophytes and thus to influence plant growth and its utilization by the herbivory using the maize - Spodoptera frugiperda (JE Smith, 1797) (Lepidoptera: Noctuidae) model system. Four insect symbionts were selected. Three of them (IIL-Sfm05, IILSfc-sus01 and IIL-Sfb05) associated with the digestive tract of S. frugiperda and another (IIL-ASP45) with the cuticle of Acromyrmex coronatus (IIL-ASP45). Additionally, an endophyte (IILzm-Idp03) from maize was added as a positive control. Experiments were conducted after inoculation of the different microorganisms via bio-priming, soil application and foliar application. Of the five isolates tested, three (IILSfc-sus01, IIL-Sfb05 and IILzm-Idp03) induced higher growth in maize plants; however, the inoculation of the seeds with the microorganisms influenced the plant response. The isolate IILzm-Idp03 induced the highest plant growth when inoculated via bio-priming; IILzm-Idp03 and IIL-Sfb05 via soil inoculation; and IILSfc-sus01 via foliar inoculation. Biological tests with S. frugiperda on maize plants inoculated or not with the selected microorganisms indicated that two of them (IIL-Sfb05 and IIL-ASP45 isolates) were highly pathogenic, inducing very high larval mortality. Our analysis indicated no changes in larval feeding preference. Comparative analysis of larval food consumption and utilization indicated that plants inoculated with IIL-ASP45 resulted in the lowest growth and larval development of S. frugiperda, corroborated by the lower consumption and nutritional indexes reached in this food source. Feeding in plants inoculated with IIL-Sfb05 caused 100% larval mortality, and it was not possible to evaluate the nutritional indexes. Our data demonstrate the potential for manipulation of the host plant by bacteria associated with the herbivore, as well as the biocidal potential of insect - associated microorganisms.
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Morfogênese do bacterioma e multiplicação de simbiontes ao longo do desenvolvimento de Diaphorina citri (Hemiptera: Liviidae) e sua resposta ao estresse térmico / Bacteriome morphogenesis and symbiont growth during development of Diaphorina citri (Hemiptera: Liviidae), and its response to heat stressDossi, Fábio Cleisto Alda 12 August 2013 (has links)
Diaphorina citri depende dos endossimbiontes presentes em seu bacterioma, as bactérias Carsonella e Profftella, para o fornecimento de nutrientes essenciais ao seu desenvolvimento. D. citri também está associada à bactéria Wolbachia, que infecta inúmeros tecidos desse inseto, incluindo seu bacterioma. Esses simbiontes são transmitidos verticalmente, sendo incorporados ao bacterioma. Neste estudo, são abordados os eventos relacionados à formação do bacterioma, à dinâmica da densidade dos simbiontes durante o ciclo biológico do hospedeiro e à sensibilidade dos simbiontes ao estresse térmico. A morfogênese do bacterioma durante a embriogênese de D. citri foi descrita por meio de histologia e marcação com sondas oligonucleotídicas fluorescentes (FISH) específicas para os simbiontes do bacterioma. No início da embriogênese, as bactérias permanecem agrupadas em uma massa no polo posterior do ovo. Vitelófagos se aderem à massa de simbiontes no início da blastulação, precedendo à formação dos bacteriócitos. O bacterioma transitório resultante possui bacteriócitos que contém o simbionte do sincício (Profftella), localizado externamente aos que contém o simbionte do bacteriócito (Carsonella). Na sequência do desenvolvimento, ocorre a reorganização dos bacteriócitos, evento seguido pela formação da região sincicial. O bacterioma é movido para a região abdominal do embrião durante a catatrepsis, passando ao formato trilobado típico ao final da embriogênese. A densidade dos simbiontes associados ao psílideo dos citros durante o seu desenvolvimento foi determinada por PCR quantitativo em tempo real (qPCR). A densidade dos diferentes simbiontes, dada pela análise do número de cópias dos genes 16S rRNA (Carsonella e Profftella) e ftsZ (Wolbachia), revelaram o crescimento contínuo dos simbiontes ao longo do desenvolvimento do hospedeiro. As curvas e taxas de crescimento dos simbiontes, estimadas por meio da equação de Gompertz, indicaram relação inversamente proporcional à especificidade das relações simbiontehospedeiro e o tempo para atingir a taxa máxima de crescimento. A densidade de Carsonella foi significativamente menor daquela de Profftella em todos os estágios analisados, apesar da tendência de aumento paralelo. As taxas de crescimento de Wolbachia foram similares às de Carsonella, mas a densidade foi inferior. Nos adultos, a densidade dos três simbiontes foi maior nos machos. Entretanto, esses simbiontes continuaram a apresentar crescimento em fêmeas em atividade de oviposição, mesmo com a sua incorporação aos oócitos, o que diverge da diminuição normalmente observada em outros sistemas. Os simbiontes de D. citri responderam de forma variável ao estresse térmico. Os diferentes simbiontes apresentaram resposta própria aos diversos períodos de exposição às diferentes condições térmicas de estresse. Ainda, foi detectada a influência de um simbionte na capacidade de resposta do outro, demonstrando a existência de mecanismos de comunicação e regulação entre os simbiontes de D. citri. O estudo demonstra a influência do estresse térmico sobre a densidade dos simbiontes e a necessidade de se compreender melhor a biologia das interações insetosimbiontes e a dinâmica das relações com o ambiente. / Diaphorina citri feeds on phloem-sap and depends on bacterial symbionts harbored in the bacteriome as a supplementary source of nutrients lacking in the diet. These bacteria are vertically transmitted, being incorporated into the developing bacteriome. Here, we focus on the events related to bacteriome morphogenesis, symbiont density during host development and the effects of exposure to high temperatures on the establishment of endosymbionts during immature development. The bacteriome morphogenesis during D. citri embryogenesis was investigated by means of histology and fluorescence in situ hybridization analysis (FISH) using symbiont-specific oligonucleotide probes. During early embryogenesis, the bacteria remain aggregated in a symbiont-ball at the posterior pole of the egg. Vitellophages adhere to the symbiont mass during early blastulation, preceding bacteriocyte formation. As a result, the transient bacteriome has the bacteriocytes that harbors the syncytium symbiont (Profftella) arranged externally to those harboring Carsonella. The bacteriome is moved to the embryo abdominal region as a result of katatrepsis, becoming trilobated during the later embryonic development. The infection density of the endosymbionts associated to the Asian citrus psyllid was determined using real-time quantitative PCR (qPCR), throughout the host life cycle. Copy number of genes 16S rRNA (Carsonella and Profftella) and ftsZ (Wolbachia), revealed the continuous growth of symbionts during host development. Growth curves and rates of symbionts estimated using the Gompertz equation indicated an inversely proportional correlation between the degree of symbiont cospeciation with the host and the time to achieve the maximum growth rate. Carsonella density was significantly lower than that of Profftella at all stages analyzed, despite their joint growth trend. The growth rates of Wolbachia were similar to those of Carsonella, but Wolbachia had a lower density. In adults, the density of the three symbionts was higher in males. However, density in reproductive females remained high, despite the incorporation of symbionts in the oocytes. The increased density of symbionts in postreproductive adults contrasts with the decrease observed in other symbiotic systems. The infection density is mutually related to biological effects, but the symbiont may vary the response to heat stress. Density of Profftella and Carsonella was higher than that of Wolbachia, although there were different response patterns related to temperatures and treatment times. Symbionts associated with D. citri have their growth affected by the symbionts. This study demonstrates the effects of the heat shock on symbiont density during nymphal development and illustrates the need of further work the biology of insect-symbiont interactions and the dynamics of its relationships with the environment for a better understading of such associations.
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Characterisation of the bacterial flora associated with the grey field slug Deroceras reticulatum and assessment of its suitability as a target for biological controlWilkinson, Peter Graham January 2011 (has links)
The field slug Deroceras reticulatum is a major pest in UK agriculture and amidst growing concern and regulatory pressures surrounding chemical molluscicides, innovation is required to advance the current repertoire of slug controls. This study set out to investigate the bacteria associated with D. reticulatum to assess their importance to the slug and potential as a target for biological control. Slug gut bacterial isolates identified using the phenotypical API system (BioMérieux) and 16S rRNA gene sequencing, were mainly soil-dwelling organisms of the phyla Proteobacteria and Bacteriodetes some of which may be important in human or plant disease. A ribosomal intergenic spacer analysis (RISA) was developed to study microbial communities in the slug gut. Slugs had an average species richness of 12 and comparing the bacterial communities in slugs from different locations yielded a mean similarity of 0.159 (Jaccard index) which was significantly lower than similarity indices of slugs collected within a single location (Mean Jaccard index 0.205, p<0.001, ANOVA). Cloning and sequencing of RISA bands common to slugs and slug eggs, but absent from the surrounding soil and plants identified bacteria for future investigation as potential beneficial symbionts. Bacteria extracted from the slug gut were tested for sensitivity to 16 antibiotics and greatest inhibition of growth was observed for chloramphenicol, gentamicin and tetracycline. These antibiotics administered to slugs by feeding and injection caused a reduction in gut-associated bacteria in plate counts, and in bacterial 16S rDNA quantities estimated by real-time quantitative PCR. Field collected D. reticulatum has a large transient gut bacterial population which is reduced upon starvation to a low background level. No significant detrimental effect of antibiotic treatment on the fitness and survival of the slugs was seen, in some instances control slugs suffered greater mortality than slugs that had been injected with antibiotic. Slugs that died during bioassays had a significantly greater amount of bacterial 16S rDNA in their gut than slugs that were sacrificed as healthy individuals suggesting the presence of a bacterial pathogen. This study has found little evidence that a bacterial symbiont may exist and be important for optimal fitness and survival of D. reticulatum, but insight into slug associated bacteria will be valuable in the direction of future studies in this field.
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Simbiontes associados ao intestino médio e aparelho reprodutivo de Euschistus heros (F.) (Hemiptera: Pentatomidae) / Symbionts associated with the midgut and reproductive tract of Euschistus heros (F.) (Hemiptera: Pentatomidae)Scopel, Wanessa 13 July 2017 (has links)
Bactérias simbiontes foram fundamentais no processo evolutivo de eucariotos. Em insetos, essa associação permitiu a exploração de novos nichos ecológicos pela íntima associação estabelecida com bactérias que fornecem nutrientes essenciais a hospedeiros cuja dieta apresenta limitação em sua composição nutritiva, assim como proteção a condições de estresse e fatores bióticos e abióticos. Um grande número de associações facultativas, aquelas em que o simbionte não é essencial para a sobrevivência do hospedeiro, mas pode impactar na aptidão biológica, tem sido descobertas. Pentatomídeos estão comumente associados a bactérias extracelulares facultativas presentes nas invaginações da região final do intestino médio, sendo alvos de investigação para a determinação da diversidade de simbiontes e, principalmente, sua função na interação com o inseto hospedeiro. Porém, na ausência destes simbiontes, o desenvolvimento e a aptidão reprodutiva do hospedeiro podem ser prejudicados. Adicionalmente, bactérias livres associadas a insetos podem se associar a outros tecidos, como as estruturas reprodutivas, e causar efeitos nocivos ao hospedeiro. A intensidade dos efeitos induzidos por essa microbiota depende de vários fatores, como a sua diversidade, a idade e o tecido do hospedeiro. Nesta tese utilizamos como modelo de estudo o percevejo Euschistus heros (F.) (Hemiptera: Pentatomidae), uma importante praga de diversas culturas agrícolas, para investigar i) a diversidade de simbiontes cultiváveis associada às estruturas reprodutivas (ovários, espermateca e vesícula seminal) e digestivas (criptas da região final do intestino médio); ii) a diversidade de simbiontes associada a embriões e ventrículos do intestino médio de ninfas de último ínstar e adultos; o efeito de tratamentos para a eliminação de bactérias associadas iii) à vesícula seminal e iv) região V4 do intestino médio na aptidão reprodutiva de E. heros. A região V4 do intestino médio, ovário, espermateca e vesícula seminal apresentou Proteobacteria (Enterobacteriaceae) e Firmicutes (Enterococcaceae e Staphylococcaceae) como simbiontes cultiváveis, sendo a região V4 do intestino médio a mais diversa entre as estruturas avaliadas. Entre os filotipos isolados, foram encontrados filotipos comuns a todas as estruturas analisadas, mas também aqueles associados exclusivamente ao trato reprodutivo e aparelho digestivo. A análise de metagenômica indicou o embrião de E. heros como sendo o mais diverso, seguido pelas regiões V1 e V2 do intestino médio de ninfas e adultos. A região V4 foi a menos diversa, sendo habitada praticamente por uma Enterobacteriaceae. A espermateca e a vesícula seminal são naturalmente infectadas por simbiontes e a eliminação dessas bactérias após tratamento com antibióticos não resultou em alterações na capacidade reprodutiva de fêmeas. O tratamento de adultos com antibióticos e a esterilização superficial dos ovos não interferiu no desenvolvimento e reprodução de E. heros, ocorrendo, porém, redução da fertilidade e na mortalidade de ninfas quando os parentais foram alimentados com antibióticos. / Bacterial symbionts are fundamental in the evolutionary process of eukaryotes. In insects this association allowed the exploitation of new ecological niches, because the bacteria provide essential nutrients for those whose diet is nutritionally limited. Bacterial symbionts also provide protection against biotic and abiotic factors, allowing insects to exploit a range of food types. In recent years, a large number of facultative associations have been discovered. In such associations, symbionts are not essential for host survival, but may have a significant impact on insect host fitness. Pentatomids are commonly associated with facultative extracellular bacteria present in the invaginations of the posterior region of the midgut and have been targeted in studies for the determination of the diversity and function of these symbionts. However, associations with symbionts can impose adaptive costs to the host; therefore, in the absence of these symbionts, the development and reproduction of the host may be impaired. In addition, facultative symbionts can be potentially pathogenic bacteria, and can infect the host\'s reproductive system. The intensity of the effects induced by this microbiota depends of several factors, such as its diversity, age and host tissue infected. Transmission of the microbiota usually occurs vertically by specific mechanisms shortly after egg hatching, such as the contamination of the surface of the eggs by a gelatinous mass during deposition and by the deposition of bacterial capsules next to the eggs. Symbionts can be acquired from the environment at each generation, depending on the host species. In here, we used Euschistus heros (F.) (Hemiptera: Pentatomidae), an important agricultural pest of several crops, as a model to investigate: i) the diversity of culturable symbionts of E. heros (ovaries, spermatheca and seminal vesicle) and digestive tract (crypts of the posterior region of the midgut); ii) the diversity of non-culturable symbionts present along the midgut, in embryos, last instar and adults; the effects of symbionts associated with the iii) seminal vesicle and iv) the V4 region of the midgut on the reproductive fitness of E. heros. Our data show that the diversity of culturable symbionts associated with the V4 region of the midgut, ovary, spermatheca and seminal vesicle is represented by Proteobacteria (Enterobacteriaceae) and Firmicutes (Enterococcaceae and Staphylococcaceae). The V4 region of the midgut was the most diverse among the evaluated structures. In addition, unique culturable phylotypes were found in the reproductive and digestive tract. Metagenomic analysis indicated the embryo of E. heros carried the most diverse microbiota, followed by the V1 and V2 region of the gut. The V4 region was mosly inhabited by an Enterobacteriaceae. Symbionts associated with the spermatheca and the seminal vesicle naturally infect E. heros and do not affect the reproductive capacity of females. The sterilization of the egg surface did not interfere directly with the development and reproduction of E. heros, but the progenie of couples treated with antibiotics presented reduced fertility and nymphal mortality.
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Study of Midgut Bacteria in the Red Imported Fire Ant, Solenopsis invicta Büren (Hymenoptera: Formicidae)Medina, Freder 2010 May 1900 (has links)
Ants are capable of building close associations with plants, insects, fungi and bacteria. Symbionts can provide essential nutrients to their insect host, however, the development of new molecular tools has allowed the discovery of new microorganisms that manipulate insect reproduction, development and even provide defense against parasitoids and pathogens. In this study we investigated the presence of bacteria inside the Red Imported Fire Ant midgut using molecular tools and transmission electron microscopy. The midgut bacteria were also characterized by their morphology, biochemical activity, and antibiotic resistance profile.
After isolation, culture, and characterization of these bacteria, the molecular analysis revealed ten unique profiles which were identified to at least the genus level, Enterococcus sp./durans, Klebsiella ornithinolytica, Kluyvera cryocrescens, Lactococ-cus garvieae, Pseudomonas aeruginosa, Achromobacter xylosoxidans, Bacillus pumilus, Listeria innucua, Serratia marcescens, and an uncultured bacterium from the Entero-bacteriaceae. New SEM and TEM techniques revealed a possible functional association of endosymbiotic bacteria with the insect host, and it also showed the absence of bacteriocytes in the epithelial cells of the midgut. The PCR results, from the bacteria abundance and distribution studies, showed that Enterococcus sp., Kluyvera cryocres-cens and Lactococcus garvieae are the most abundant species, but they are not consistently found in all sites throughout the southeastern United States.
Kluyvera cryocrescens, Serratia marcescens, and an uncultured bacterium (isolate #38: Enterobacteriaceae) were genetically modified with the plasmid vector pZeoDsRed and successfully reintroduced into fire ant colonies. Strong fluorescence of DsRed was detected up to seven days after introduction. The transformed bacteria can still be rescued after pupal emergence; however most were passed out in the meconium. We further demonstrated that nurses contributed to the spread of the transformed bacteria within the colony by feeding the meconium to naive larvae.
Although the role of midgut bacteria in the fire ant is still unknown, we have no indication that they cause any pathology. Studies emphasizing the role of these bacteria in fire ant physiology are still ongoing. These results are the foundation for a fire ant biological control program using endosymbiotic bacteria as vectors to introduce foreign genes that express proteins with insecticidal properties.
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Morfogênese do bacterioma e multiplicação de simbiontes ao longo do desenvolvimento de Diaphorina citri (Hemiptera: Liviidae) e sua resposta ao estresse térmico / Bacteriome morphogenesis and symbiont growth during development of Diaphorina citri (Hemiptera: Liviidae), and its response to heat stressFábio Cleisto Alda Dossi 12 August 2013 (has links)
Diaphorina citri depende dos endossimbiontes presentes em seu bacterioma, as bactérias Carsonella e Profftella, para o fornecimento de nutrientes essenciais ao seu desenvolvimento. D. citri também está associada à bactéria Wolbachia, que infecta inúmeros tecidos desse inseto, incluindo seu bacterioma. Esses simbiontes são transmitidos verticalmente, sendo incorporados ao bacterioma. Neste estudo, são abordados os eventos relacionados à formação do bacterioma, à dinâmica da densidade dos simbiontes durante o ciclo biológico do hospedeiro e à sensibilidade dos simbiontes ao estresse térmico. A morfogênese do bacterioma durante a embriogênese de D. citri foi descrita por meio de histologia e marcação com sondas oligonucleotídicas fluorescentes (FISH) específicas para os simbiontes do bacterioma. No início da embriogênese, as bactérias permanecem agrupadas em uma massa no polo posterior do ovo. Vitelófagos se aderem à massa de simbiontes no início da blastulação, precedendo à formação dos bacteriócitos. O bacterioma transitório resultante possui bacteriócitos que contém o simbionte do sincício (Profftella), localizado externamente aos que contém o simbionte do bacteriócito (Carsonella). Na sequência do desenvolvimento, ocorre a reorganização dos bacteriócitos, evento seguido pela formação da região sincicial. O bacterioma é movido para a região abdominal do embrião durante a catatrepsis, passando ao formato trilobado típico ao final da embriogênese. A densidade dos simbiontes associados ao psílideo dos citros durante o seu desenvolvimento foi determinada por PCR quantitativo em tempo real (qPCR). A densidade dos diferentes simbiontes, dada pela análise do número de cópias dos genes 16S rRNA (Carsonella e Profftella) e ftsZ (Wolbachia), revelaram o crescimento contínuo dos simbiontes ao longo do desenvolvimento do hospedeiro. As curvas e taxas de crescimento dos simbiontes, estimadas por meio da equação de Gompertz, indicaram relação inversamente proporcional à especificidade das relações simbiontehospedeiro e o tempo para atingir a taxa máxima de crescimento. A densidade de Carsonella foi significativamente menor daquela de Profftella em todos os estágios analisados, apesar da tendência de aumento paralelo. As taxas de crescimento de Wolbachia foram similares às de Carsonella, mas a densidade foi inferior. Nos adultos, a densidade dos três simbiontes foi maior nos machos. Entretanto, esses simbiontes continuaram a apresentar crescimento em fêmeas em atividade de oviposição, mesmo com a sua incorporação aos oócitos, o que diverge da diminuição normalmente observada em outros sistemas. Os simbiontes de D. citri responderam de forma variável ao estresse térmico. Os diferentes simbiontes apresentaram resposta própria aos diversos períodos de exposição às diferentes condições térmicas de estresse. Ainda, foi detectada a influência de um simbionte na capacidade de resposta do outro, demonstrando a existência de mecanismos de comunicação e regulação entre os simbiontes de D. citri. O estudo demonstra a influência do estresse térmico sobre a densidade dos simbiontes e a necessidade de se compreender melhor a biologia das interações insetosimbiontes e a dinâmica das relações com o ambiente. / Diaphorina citri feeds on phloem-sap and depends on bacterial symbionts harbored in the bacteriome as a supplementary source of nutrients lacking in the diet. These bacteria are vertically transmitted, being incorporated into the developing bacteriome. Here, we focus on the events related to bacteriome morphogenesis, symbiont density during host development and the effects of exposure to high temperatures on the establishment of endosymbionts during immature development. The bacteriome morphogenesis during D. citri embryogenesis was investigated by means of histology and fluorescence in situ hybridization analysis (FISH) using symbiont-specific oligonucleotide probes. During early embryogenesis, the bacteria remain aggregated in a symbiont-ball at the posterior pole of the egg. Vitellophages adhere to the symbiont mass during early blastulation, preceding bacteriocyte formation. As a result, the transient bacteriome has the bacteriocytes that harbors the syncytium symbiont (Profftella) arranged externally to those harboring Carsonella. The bacteriome is moved to the embryo abdominal region as a result of katatrepsis, becoming trilobated during the later embryonic development. The infection density of the endosymbionts associated to the Asian citrus psyllid was determined using real-time quantitative PCR (qPCR), throughout the host life cycle. Copy number of genes 16S rRNA (Carsonella and Profftella) and ftsZ (Wolbachia), revealed the continuous growth of symbionts during host development. Growth curves and rates of symbionts estimated using the Gompertz equation indicated an inversely proportional correlation between the degree of symbiont cospeciation with the host and the time to achieve the maximum growth rate. Carsonella density was significantly lower than that of Profftella at all stages analyzed, despite their joint growth trend. The growth rates of Wolbachia were similar to those of Carsonella, but Wolbachia had a lower density. In adults, the density of the three symbionts was higher in males. However, density in reproductive females remained high, despite the incorporation of symbionts in the oocytes. The increased density of symbionts in postreproductive adults contrasts with the decrease observed in other symbiotic systems. The infection density is mutually related to biological effects, but the symbiont may vary the response to heat stress. Density of Profftella and Carsonella was higher than that of Wolbachia, although there were different response patterns related to temperatures and treatment times. Symbionts associated with D. citri have their growth affected by the symbionts. This study demonstrates the effects of the heat shock on symbiont density during nymphal development and illustrates the need of further work the biology of insect-symbiont interactions and the dynamics of its relationships with the environment for a better understading of such associations.
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Similarities and variations of the enterobacterial chemotaxis paradigm in Sinorhizobium melilotiAgbekudzi, Alfred 21 December 2023 (has links)
Sinorhizobium meliloti is a nitrogen-fixing endosymbiont of the legume Medicago sativa commonly known as alfalfa. It uses flagellar rotation and chemotaxis to seek roots of host plants to inhabit. This symbiosis serves as a great model system for studying biological nitrogen fixation and plant-microbe interactions. Since alfalfa brings enormous economic value to the USA, investments into the knowledge of the chemotaxis process that initiates symbiosis have the ability to mitigate deterioration of the environment and significantly increase food supply. The chemotaxis system in the enteric bacteria Escherichia coli is well studied and has been a great resource to understanding the process in other bacterial systems including our model organism S. meliloti.
This dissertation compares and contrasts the chemotaxis features in E. coli and S. meliloti and investigates their molecular functions. Based on the understanding gained so far, we attempt to offer plausible explanations for the underlying mechanisms of the S. meliloti chemotaxis pathway. Chapter 1 describes why biological nitrogen fixation is important for agriculture and the health of our environment. This chapter also sheds light on the symbiotic relationship between alfalfa and S. meliloti, which culminates in the formation of nitrogen fixing nodules. We expound on the chemotaxis systems in E. coli and other bacteria including S. meliloti and Bacillus subtilis.
In chapter 2, we compare the distribution of C-terminal pentapeptide-bearing receptors and the adaptation proteins that they tether in E. coli and S. meliloti. The stoichiometry data show that the ratio of pentapeptide-bearing chemoreceptors to chemotaxis protein (Che)R and CheB molecules are approximately 500- and 160-fold higher in S. meliloti than in E. coli, respectively. Since not all chemoreceptors in chemotactic bacteria have and utilize the pentapeptide moiety, we investigated the S. meliloti system and observed a strong interaction between CheR, activated CheB and the isolated pentapeptides via in-vitro binding studies. On the contrary, unmodified CheB showed weak binding to the pentapeptide. Through in-vivo studies, we highlighted the physiological necessity of the pentapeptide for chemotaxis. S. meliloti strains with substitutions of the conserved tryptophan residue to alanine in one or all four pentapeptide-bearing Methyl-accepting Chemotaxis Proteins (MCPs) resulted in diminished or loss of chemotaxis to glycine betaine, lysine, and acetate, ligands sensed by pentapeptide-bearing McpX and pentapeptide-lacking McpU and McpV, respectively. The flexible linker connecting the pentapeptide to the MCPs together with the pentapeptide itself were shown to be functional on pentapeptide-lacking chemoreceptors and provided adaptational assistance to other chemoreceptors that lacked a functional pentapeptide. Based on these results, we concluded that S. meliloti employs a pentapeptide-dependent adaptation system with MCPs possessing a consensus pentapeptide motif (N/D)WE(E/N)F). Finally, we postulated that the higher abundance of CheR and CheB in S. meliloti compared to E. coli compensates for the lower number of pentapeptide-bearing chemoreceptors in the chemosensory array.
In chapter 3, we explored the putative phosphatase function of a novel protein, CheT, on phosphorylated S. meliloti response regulators. The kinase CheA phosphorylates both the sink response regulator, CheY1, and the flagellar motor interacting response regulator, CheY2. CheY1 competes with CheY2 for these phosphate groups, but we have discovered another layer of complexity to the story. Sequence comparison of S. meliloti CheT and the E. coli phosphatase CheZ shows little sequence homology. However, both proteins share a DXXXQ phosphatase motif. Phosphorylation assays performed using radiolabeled [γ-32P]-ATP revealed that CheT acts as a phosphatase of CheY1~P and accelerates dephosphorylation of CheY1~P by at least two-fold. Interestingly, we also discovered that CheT interacts with CheR, but this interaction did not affect the enzymatic activity of either protein under the examined conditions. Unexpectedly, a cheT deletion strain and strains carrying mutations in the phosphatase motif exhibit an increased swimming speed, a phenotype that does not conform with the model that the absence of CheT or its activity results in increased CheY2~P levels and reduced swimming speed. We concluded that a revised S. meliloti signal termination pathway should include CheT enhancing dephosphorylation of CheY1~P and sensory adaptation involving the yet unknown function of CheT on CheR.
While the adaptation system in S. meliloti is unexplored, this work provides first insights into fascinating deviations and similarities to the known paradigm. We have also delivered evidence that the S. meliloti signal termination system requires a dedicated phosphatase. The knowledge gained here takes us a step closer to enhance the S. meliloti chemotaxis pathway towards improved symbiosis with alfalfa and to reduce our dependence on environmentally deleterious synthetic fertilizers. / Doctor of Philosophy / Like all living things, bacteria inhabit a constantly changing environment, hence the need to take up and process this information. Bacterial cells have evolved sophisticated biological tools to tackle this challenge of detecting, responding and adapting to environmental signals like nutrients, toxins, temperature changes, light, metabolites, etc. Motile bacteria such as Escherichia coli, a gut resident microbe, and Sinorhizobium meliloti, a soil dwelling bacterium, direct their swimming behavior in response to chemical gradients within the milieu through a process termed chemotaxis. Generally, this vital process enables a bacterium to escape harmful chemicals and gravitate towards beneficial ones. However, S. meliloti specifically employs chemotaxis to locate the roots of its plant host (alfalfa) and to establish a symbiotic relationship through which the bacteria provide essential nitrogen for plant growth in exchange for nourishment. The biological tools employed by S. meliloti for chemotaxis include environmental sensing receptors called Methyl-accepting Chemotaxis Proteins (MCPs) and proteins inside the bacterial cell that transfer information from the sensors to long, helical rotating propeller structures, called flagella. Importantly, the efficiency of this process hinges on a timely termination of information flow and the ability to adapt to prevailing stimuli while maintaining sensitivity to increasing concentration gradients. This work investigates the function of the C-terminal five amino acid motif of MCPs known to be critical for adaptation in E. coli and the phosphatase activity of a novel protein, CheT, in signal termination of S. meliloti chemotaxis system.
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Metabolômica de Aphis citricidus (Kirkaldy) (Hemiptera: Aphididae) infectado por Spiroplasma / Metabolomics of Aphis citricidus (Kirkaldy) (Hemiptera: Aphididae) infected with SpiroplasmaDuarte, Fábio Ramon Martins 07 November 2017 (has links)
A associação de diferentes seres vivos favoreceu a exploração de novos hábitats e outras fontes de alimento, contribuindo nos processos de adaptação e de diversificação biológica. Essa associação, em que duas espécies passam a viver juntas, é denominada simbiose, e as associações de simbiose podem resultar em relações benéficas (mutualismo), neutras (comensalismo) ou prejudiciais (parasitismo) aos organismos envolvidos. Insetos estabelecem associações de simbiose diversas com outros organismos, como leveduras, vírus, protistas e bactérias. Dentre esses organismos, as bactérias são as mais comumente associadas a insetos. Elas podem se localizar no interior do corpo do hospedeiro, tanto no espaço extracelular ou endocelular (endossimbionte), assim como associadas externamente ao corpo do hospedeiro (ectossimbionte). Endossimbiontes são os que mais diretamente influenciam a fisiologia e o metabolismo do hospedeiro, tornando-se, em alguns casos, essenciais à sobrevivência de seu hospedeiro. Exemplo disso são as bactérias endossimbiontes associadas a pulgões, Buchnera aphidicola, que são responsáveis pela síntese de aminoácidos essenciais e vitaminas para complementar os recursos nutricionais explorados pelos pulgões, seiva de plantas, que normalmente apresentam baixo valor nutricional. Mas vários outros simbiontes, mesmo que não estabelecendo essa obrigatoriedade na relação com o hospedeiro, acabam influenciando inúmeros aspectos da bioecologia de seus pulgões hospedeiros, como, por exemplo, a capacidade de defesa de seus hospedeiros a inimigos naturais. Spiroplasma são bactérias que influenciam o sistema de reprodução de borboletas, moscas-das-frutas, joaninhas e pulgões, além de influenciar a resposta de seus hospedeiros ao ataque de inimigos naturais, como parasitoides e nematoides. Porém, pouco se sabe sobre os efeitos desse simbionte no metabolismo de seus hospedeiros. Assim, este trabalho teve por objetivo avaliar o efeito de infecções por Spiroplasma no metaboloma de seu hospedeiro Aphis citricidus (Kirkaldy) (Hemiptera: Aphididae). As análises foram conduzidas utilizando-se de isolinhagens irmãs de A. citricidus, infectadas ou não por Spiroplasma. Fêmeas adultas de A. citricidus, infectadas ou não por Spiroplasma, foram coletadas (25 mg/amostra), submetidas aos processos de extração com solução de clorofórmio, metanol e água (1:3:1) e derivatização com n-metil-n-(trimetilsilil)trifluoroacetamida e trimetilclorosilano, para posterior análise por cromatografia gasosa acoplada à espectrometria de massas (GCMS-TOF) para a detectação de metabólitos. Após tratamento e análise dos dados obtidos, foi observado que 40 metabólitos foram afetados significativamente em pulgões infectados por Spiroplasma. Dentre os metabólitos de A. citricidus alterados pela infecção por Spiroplasma, merecem destaque os hidrocarbonetos cuticulares, compostos nitrogenados e ácidos graxos. Os efeitos metabólicos da interação Aphis citricidus - Spiroplasma revelou informações importantes sobre a influência do endossimbionte na composição química de seus hospedeiros. / The association between different living beings favored the exploitation of new habitats and food sources, contributing to adaptation and biological diversity. This association in which two species live together is named symbiosis, and associations of symbiosis can result in beneficial (mutualism), neutral (comensalism) or prejudicial (parasitism) interactions. Insects established a diverse range of associations with other organisms, such as yeasts, virus, protists and bacteria. Bacteria are by far the most commonly associates of insects. Bacteria can be located within the host body, either at the extra or intracellular space (endosymbionts), as well as on the body surface (ectosymbionts). Endosymbionts are the ones that most influence the host physiology and metabolism, and they may even become essential for the host survival. An example of such dependency is the aphid symbiont Buchnera aphidicola that synthesis essential amino acids and vitamins to complement the natural diet of host, which are of a low nutritional value. But many other symbionts that are not essential do the host can affect a number of bioecological aspects of their host aphids, as the host immune capacity to natural enemies. Spiroplasma are bacteria that can influence the reproduction system of butterflies, fruit flies, ladybugs and aphids, and interfere with the host immune response to parasitoids and nematodes. However, little is known of the effects of secondary symbionts on their host\'s metabolism. Thus, this work is aimed to detect the effects of Spiroplasmainfection on the metabolomics of the apid host Aphis citricidus (Kirkaldy) (Hemiptera: Aphididae). Analysis were conducted using sister isolines A. citricidus, infected or not with Spiroplasma. Infected and uninfected adult females were collected from lab colonied (25 mg/samples), subjected to metabolite extraction in chloroform, methanol and water (1:3:1) and derivatization with n-methyl-n-(trimethylsilyl)trifluoroacetamide and trimethylchlorosilane, followed by metabolite analysis in a gas chromatography coupled with a mass spectrometer (GCMS-TOF). After filtering and data analysis, 40 metabolites were observed in different intensities in between infected and uninfected aphids. The aphid\'s metabolites influenced by infection with Spiroplasma indicated the regulation of the metabolism of fatty acids, hydrocarbons and nitrogen compounds. The metabolic effects of the interaction Aphis citricus - Spiroplasma revealed interesting information on the host metabolism regulation by a secondary symbiont and on the role these changes may play on the associations of the host with other organisms.
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IDENTIFYING MECHANISMS OF HOST PLANT SPECIALIZATION IN <em>APHIS CRACCIVORA</em> AND ITS BACTERIAL SYMBIONTSHansen, Thorsten 01 January 2018 (has links)
Many insects form close relationships with microbial symbionts. Insect symbionts can provide novel phenotypes to their hosts, including influencing dietary breadth. In the polyphagous cowpea aphid, Aphis craccivora, the facultative symbiont Arsenophonus improves aphid performance on one host plant (locust), but decreases performance on other plants. The goal of my thesis was to investigate the mechanism by which Arsenophonus facilitates use of locust. First, I assembled an Aphis craccivora-Arsenophonus-Buchnera reference transcriptome to conduct RNAseq analysis, comparing gene expression in aphids feeding on locust and fava, with and without Arsenophonus infection. Overall, few transcripts were differentially expressed. However, genes that were differentially expressed mapped to a variety of processes, including metabolism of glucose, cytoskeleton regulation, cold and drought regulation, and B-vitamin synthesis. These results imply that Arsenophonus is producing B-vitamins, which might be deficient in locust. In a second set of experiments, I used qPCR to test whether symbiont function across host plants might be mediated by bacterial titer. I measured relative Arsenophonus abundance across plants, and found Arsenophonus titer was variable, but generally greater on locust than fava. In summary, my results suggest that Arsenophonus synthesis of B-vitamins should be further investigated and may be mediated by bacterial titer.
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