Global ETD Search

21	The Prevalence of Coxiella burnetii in Hard Ticks in Europe and Their Role in Q Fever Transmission Revisited—A Systematic Review Körner, Sophia, Makert, Gustavo R., Ulbert, Sebastian, Pfeffer, Martin, Mertens-Scholz, Katja 30 March 2023 (has links) The zoonosis Q fever is caused by the obligate intracellular bacterium Coxiella burnetii. Besides the main transmission route via inhalation of contaminated aerosols, ticks are discussed as vectors since the first isolation of the pathogen from a Dermacentor andersonii tick. The rare detection of C. burnetii in ticks and the difficult differentiation of C. burnetii from Coxiella-like endosymbionts (CLEs) are questioning the relevance of ticks in the epidemiology of Q fever. In this review, literature databases were systematically searched for recent prevalence studies concerning C. burnetii in ticks in Europe and experimental studies evaluating the vector competence of tick species. A total of 72 prevalence studies were included and evaluated regarding DNA detection methods and collectionmethods, country, and tested tick species. Specimens ofmore than 25 different tick species were collected in 23 European countries. Overall, an average prevalence of 4.8% was determined. However, in half of the studies, no Coxiella-DNA was detected. In Southern European countries, a significantly higher prevalence was observed, possibly related to the abundance of different tick species here, namely Hyalomma spp. and Rhipicephalus spp. In comparison, a similar proportion of studies used ticks sampled by flagging and dragging or tick collection from animals, under 30% of the total tick samples derived from the latter. There was no significant difference in the various target genes used for the molecular test. In most of the studies, no distinction was made between C. burnetii and CLEs. The application of specific detection methods and the confirmation of positive results are crucial to determine the role of ticks in Q fever transmission. Only two studies were available, which assessed the vector competence of ticks for C. burnetii in the last 20 years, demonstrating the need for further research. info:eu-repo/classification/ddc/630 ddc:630
22	Interactions of maize bushy stunt phytoplasma with the leafhopper vector, Dalbulus maidis (Delong and Wolcott) (Hemiptera: Cicadellidae) and associated microbiota / Interações de \'maize bushy stunt phytoplasma\' com a cigarrinha vetora Dalbulus maidis (Delong and Wolcott) (Hemiptera: Cicadellidae) e microbiota associada Gonzalez, Javier Garcia 29 January 2016 (has links) Phytoplasmas are bacteria with a persistent propagative transmission by insect vectors that generates direct and indirect interactions among them. In order to understand these interactions for maize bushy stunt phytoplasma (MBSP) and the leafhopper vector Dalbulus maidis (Hemiptera: Cicadellidae), two research lines were addressed. The first one aimed to determine the indirect effects of maize infection by MBSP on some biological and behavioral parameters of the vector, whereas a second line investigated direct interactions of the phytoplasma with D. maidis during its movement through the vector body following acquisition from plants, and associated microbiota. Indirect effects were investigated in choice experiments in which alighting and oviposition preferences by D. maidis were compared on healthy vs. MBSP-infected plants with variable incubation time (diseased plants with early and advanced symptoms, or still asymptomatic). Likewise, indirect effect of MBSP on the D. maidis biology was determined in two life table experiments in which the vector was reared on healthy vs. MBSP-infected plants expressing advanced disease symptoms or still asymptomatic. Choice experiments showed that alighting and oviposition preferences of D. maidis on MBSP-infected plants compared to healthy plants depend on the pathogen incubation period in the plant. The leafhopper preferred MBSP-infected plants over healthy ones during the asymptomatic phase of the disease, but rejected infected plants with advanced symptoms. The vector was able to acquire MBSP from asymptomatic infected plants shortly (3 days) after inoculation, but transmission efficiency increased when acquisition occurred at later stages of the pathogen incubation period (≥14 days) in the source plants and the test plants showed disease symptoms faster. These results suggest that MBSP modulates D. maidis preference for asymptomatic infected plants in the early stages of the crop, allowing rapid spread of this pathogen. Maize infection by the phytoplasma had a neutral effect on most life table parameters of D. maidis; a lower net reproductivity rate (Ro) was observed in the cohort reared on MBSP-infected plants with advanced symptoms, which was compensated to some extent by a higher sexual ratio. MBSP acquisition by all vector nymphal stadia was confirmed by PCR, and the pathogen as detected in both male and female reproductive organs. Concerning direct MBSP-vector interactions, transmission electron microscopy analyses showed phytoplasma-like cells in the midgut lumen, microvilli and epithelial cells, suggesting that MBSP enters the epithelium midgut through the microvilli wall. Within the epithelial cells, mitochondria and bacteria-like cells (possibly endosymbionts) were observed together with masses of phythoplasma-like cells. In the hemocoel, phytoplasma-like cells grouped into a matrix were also observed in association with bacteria-like cells similar to those observed in the midgut epithelium. Similar associations were found in the salivary gland. Interestingly, in-situ hybridization (FISH) technique revealed a variation in diversity and abundance of the microbiota in intestine and salivary glands of D. maidis adults over time after MBSP acquisition from plants. Sulcia sp., Cardinium sp. and eubacteria increased their abundance over time, whereas Rickettsia sp. decreased. The frequent association of the vector microbiota with the phytoplasma in some tissues of D. maidis suggests that endosymbiotic bacteria may play some role in MBSP-vector interactions. / Fitoplasmas são bactérias transmitidas de forma persistente propagativa por insetos vetores, havendo interações diretas e indiretas envolvendo tais organismos. Para entender algumas dessas interações no caso do enfezamento vermelho do milho, associado ao \'maize bushy stunt phytoplasma\' (MBPS) e à cigarrinha vetora Dalbulus maidis (Hemiptera: Cicadellidae), foram desenvolvidas duas linhas de trabalho. Na primeira determinou-se o efeito indireto de MBSP no comportamento e biologia do vetor, enquanto que na segunda estudaram-se as interações diretas do fitoplasma com o vetor durante sua movimentação através de órgãos internos e associação com a microbiota do inseto. O efeito indireto no comportamento foi demostrado em testes de escolha nos quais se variou o período de incubação de MBSP na planta (plantas com sintomas iniciais ou avançados da doença, e plantas infectadas assintomáticas) sobre a preferência para pouso e oviposição pelo vetor. O efeito indireto na biologia do D. maidis foi estabelecido em dois experimentos de tabela de vida, alimentando o inseto durante seu ciclo de vida em plantas de milho sadias ou plantas infectadas com o fitoplasma em dois tempos de incubação (plantas com sintomas avançados da doença e plantas infectadas assintomáticas). Os testes de escolha mostraram que a preferência de D. maidis para pouso e oviposição em plantas infectadas por MBSP em relação a plantas sadias depende do período de incubação do patógeno na planta. A cigarrinha preferiu plantas infectadas por MBSP na fase assintomática da doença, mas rejeitou plantas com sintomas avançados. Ocorreu aquisição do fitoplasma pelo vetor em plantas assintomáticas a partir de 3 dias após a inoculação, mas a eficiência de transmissão aumentou após 14 dias de incubação do patógeno na planta-fonte, e diminuiu o tempo para expressão de sintomas nas plantas-teste inoculadas. Os resultados sugerem que MBSP modula a preferência do vetor para plantas infectadas no estágio inicial da cultura de modo a permitir sua rápida disseminação. O efeito da infecção de plantas por MBSP na biologia de D. maidis mostrou ser neutro para a maioria dos parâmetros biológicos estimados; houve menor taxa líquida de reprodução (Ro), que foi compensada por maior razão sexual, para insetos criados em plantas com sintomas avançados. Verificou-se, por PCR, aquisição do fitoplasma por todos os estádios ninfais do vetor e sua presença em órgãos reprodutivos dos adultos. Por microscopia eletrônica de transmissão, observaram-se células do tipo fitoplasma no lúmen, microvilosidades e células epiteliais do mesêntero de D. maidis, sugerindo que o MBSP penetra no epitélio através das microvilosidades. No epitélio intestinal, foram observadas massas de células do tipo fitoplasma próximas a mitocôndrias e células bacterianas, possíveis endossimbiontes. Na hemocele, também foram observadas células do tipo fitoplasma agrupadas numa matriz, em associação com bactérias similares às observadas no intestino. Associações semelhantes foram observadas na glândula salivar. A técnica de FISH revelou uma variação na riqueza e abundância das espécies na da microbiota no mesêntero e glândula salivar de D. maidis em função do tempo após a aquisição de MBSP. A abundância de Sulcia sp., Cardinium sp. e eubacteria aumentou, enquanto que a de Rickettsia sp. decresceu. A associação frequente dessas bactérias com fitoplasma em alguns tecidos de D. maidis sugere que endossimbiontes possam ter um papel nas interações fitoplasma-vetor. Cigarrinha-do-milho Corn leafhopper Endossimbiontes Endosymbionts Enfezamento vermelho Host preference Maize bushy stunt phytoplasma Preferência hospedeira Ultraestrutura Ultrastructure
23	The Isolation and Characterization of the Microbial Flora in the Alimentary Canal of <em>Gromphadorhina portentosa</em> Based on rDNA Sequences. Robertson, Amy Renee 15 December 2007 (has links) Multicellular organisms are not single individuals but carry a complex natural microflora with them. This complex's diversity and function can be considered a distinct ecosystem. Traditional methods of isolation and identification miss >90% of the actual diversity. This study uses the gut microflora of the Madagascar hissing roach, Gromphadorhina portentosa, as a model to examine this ecosystem. Isolated cultured bacteria were used to establish methods for identifying members of the microflora based on ribosomal RNA sequences. Universal primers for Eubacterial, Archaeal, and Eukaryotic 16s/18s rRNA were then used for PCR amplification of total DNA isolated from gut contents. Sequences from isolates were compared using BLAST, ClustalW, and other programs to recognize the isolates' identities and place them using a phylogenetic tree analysis. Eubacterial, Archaeal, and Eukaryotic organisms were found present in the hissing roach gut which can serve as a model ecosystem since it houses Eubacterial, Archaeal, and Eukaryotic organisms. PCR cloning sequencing insects alimentary canal microflora endosymbionts rDNA sequences Life Sciences Microbiology
24	Molecular characterisation of Sitobion avenae F. clones and their interaction with different host plants / Molekulare Charakterisierung von Sitobion avenae F. Klone und ihre Wechselwirkung mit anderen Wirtspflanzen Alkhedir, Hussein 22 October 2008 (has links) No description available. 570 Biowissenschaften Biologie Agricultural Sciences Land- und Forstwirtschaft Agrarentomologie
25	Interactions of maize bushy stunt phytoplasma with the leafhopper vector, Dalbulus maidis (Delong and Wolcott) (Hemiptera: Cicadellidae) and associated microbiota / Interações de \'maize bushy stunt phytoplasma\' com a cigarrinha vetora Dalbulus maidis (Delong and Wolcott) (Hemiptera: Cicadellidae) e microbiota associada Javier Garcia Gonzalez 29 January 2016 (has links) Phytoplasmas are bacteria with a persistent propagative transmission by insect vectors that generates direct and indirect interactions among them. In order to understand these interactions for maize bushy stunt phytoplasma (MBSP) and the leafhopper vector Dalbulus maidis (Hemiptera: Cicadellidae), two research lines were addressed. The first one aimed to determine the indirect effects of maize infection by MBSP on some biological and behavioral parameters of the vector, whereas a second line investigated direct interactions of the phytoplasma with D. maidis during its movement through the vector body following acquisition from plants, and associated microbiota. Indirect effects were investigated in choice experiments in which alighting and oviposition preferences by D. maidis were compared on healthy vs. MBSP-infected plants with variable incubation time (diseased plants with early and advanced symptoms, or still asymptomatic). Likewise, indirect effect of MBSP on the D. maidis biology was determined in two life table experiments in which the vector was reared on healthy vs. MBSP-infected plants expressing advanced disease symptoms or still asymptomatic. Choice experiments showed that alighting and oviposition preferences of D. maidis on MBSP-infected plants compared to healthy plants depend on the pathogen incubation period in the plant. The leafhopper preferred MBSP-infected plants over healthy ones during the asymptomatic phase of the disease, but rejected infected plants with advanced symptoms. The vector was able to acquire MBSP from asymptomatic infected plants shortly (3 days) after inoculation, but transmission efficiency increased when acquisition occurred at later stages of the pathogen incubation period (≥14 days) in the source plants and the test plants showed disease symptoms faster. These results suggest that MBSP modulates D. maidis preference for asymptomatic infected plants in the early stages of the crop, allowing rapid spread of this pathogen. Maize infection by the phytoplasma had a neutral effect on most life table parameters of D. maidis; a lower net reproductivity rate (Ro) was observed in the cohort reared on MBSP-infected plants with advanced symptoms, which was compensated to some extent by a higher sexual ratio. MBSP acquisition by all vector nymphal stadia was confirmed by PCR, and the pathogen as detected in both male and female reproductive organs. Concerning direct MBSP-vector interactions, transmission electron microscopy analyses showed phytoplasma-like cells in the midgut lumen, microvilli and epithelial cells, suggesting that MBSP enters the epithelium midgut through the microvilli wall. Within the epithelial cells, mitochondria and bacteria-like cells (possibly endosymbionts) were observed together with masses of phythoplasma-like cells. In the hemocoel, phytoplasma-like cells grouped into a matrix were also observed in association with bacteria-like cells similar to those observed in the midgut epithelium. Similar associations were found in the salivary gland. Interestingly, in-situ hybridization (FISH) technique revealed a variation in diversity and abundance of the microbiota in intestine and salivary glands of D. maidis adults over time after MBSP acquisition from plants. Sulcia sp., Cardinium sp. and eubacteria increased their abundance over time, whereas Rickettsia sp. decreased. The frequent association of the vector microbiota with the phytoplasma in some tissues of D. maidis suggests that endosymbiotic bacteria may play some role in MBSP-vector interactions. / Fitoplasmas são bactérias transmitidas de forma persistente propagativa por insetos vetores, havendo interações diretas e indiretas envolvendo tais organismos. Para entender algumas dessas interações no caso do enfezamento vermelho do milho, associado ao \'maize bushy stunt phytoplasma\' (MBPS) e à cigarrinha vetora Dalbulus maidis (Hemiptera: Cicadellidae), foram desenvolvidas duas linhas de trabalho. Na primeira determinou-se o efeito indireto de MBSP no comportamento e biologia do vetor, enquanto que na segunda estudaram-se as interações diretas do fitoplasma com o vetor durante sua movimentação através de órgãos internos e associação com a microbiota do inseto. O efeito indireto no comportamento foi demostrado em testes de escolha nos quais se variou o período de incubação de MBSP na planta (plantas com sintomas iniciais ou avançados da doença, e plantas infectadas assintomáticas) sobre a preferência para pouso e oviposição pelo vetor. O efeito indireto na biologia do D. maidis foi estabelecido em dois experimentos de tabela de vida, alimentando o inseto durante seu ciclo de vida em plantas de milho sadias ou plantas infectadas com o fitoplasma em dois tempos de incubação (plantas com sintomas avançados da doença e plantas infectadas assintomáticas). Os testes de escolha mostraram que a preferência de D. maidis para pouso e oviposição em plantas infectadas por MBSP em relação a plantas sadias depende do período de incubação do patógeno na planta. A cigarrinha preferiu plantas infectadas por MBSP na fase assintomática da doença, mas rejeitou plantas com sintomas avançados. Ocorreu aquisição do fitoplasma pelo vetor em plantas assintomáticas a partir de 3 dias após a inoculação, mas a eficiência de transmissão aumentou após 14 dias de incubação do patógeno na planta-fonte, e diminuiu o tempo para expressão de sintomas nas plantas-teste inoculadas. Os resultados sugerem que MBSP modula a preferência do vetor para plantas infectadas no estágio inicial da cultura de modo a permitir sua rápida disseminação. O efeito da infecção de plantas por MBSP na biologia de D. maidis mostrou ser neutro para a maioria dos parâmetros biológicos estimados; houve menor taxa líquida de reprodução (Ro), que foi compensada por maior razão sexual, para insetos criados em plantas com sintomas avançados. Verificou-se, por PCR, aquisição do fitoplasma por todos os estádios ninfais do vetor e sua presença em órgãos reprodutivos dos adultos. Por microscopia eletrônica de transmissão, observaram-se células do tipo fitoplasma no lúmen, microvilosidades e células epiteliais do mesêntero de D. maidis, sugerindo que o MBSP penetra no epitélio através das microvilosidades. No epitélio intestinal, foram observadas massas de células do tipo fitoplasma próximas a mitocôndrias e células bacterianas, possíveis endossimbiontes. Na hemocele, também foram observadas células do tipo fitoplasma agrupadas numa matriz, em associação com bactérias similares às observadas no intestino. Associações semelhantes foram observadas na glândula salivar. A técnica de FISH revelou uma variação na riqueza e abundância das espécies na da microbiota no mesêntero e glândula salivar de D. maidis em função do tempo após a aquisição de MBSP. A abundância de Sulcia sp., Cardinium sp. e eubacteria aumentou, enquanto que a de Rickettsia sp. decresceu. A associação frequente dessas bactérias com fitoplasma em alguns tecidos de D. maidis sugere que endossimbiontes possam ter um papel nas interações fitoplasma-vetor. Cigarrinha-do-milho Endossimbiontes Enfezamento vermelho Preferência hospedeira Ultraestrutura Corn leafhopper Endosymbionts Host preference Maize bushy stunt phytoplasma Ultrastructure
26	Wolbachia distribution in selected beetle taxa characterized by PCR screens and MLST data Sontowski, Rebekka, Bernhard, Detlef, Bleidorn, Christoph, Schlegel, Martin, Gerth, Michael January 2015 (has links) Wolbachia (Alphaproteobacteria) is an inherited endosymbiont of arthropods and filarial nematodes and was reported to be widespread across insect taxa. While Wolbachia’s effects on host biology are not understood from most of these hosts, known Wolbachia-induced phenotypes cover a spectrum from obligate beneficial mutualism to reproductive manipulations and pathogenicity. Interestingly, data on Wolbachia within the most species-rich order of arthropods, the Coleoptera (beetles), are scarce. Therefore, we screened 128 species from seven beetle families (Buprestidae, Hydraenidae, Dytiscidae, Hydrophilidae, Gyrinidae, Haliplidae, and Noteridae) for the presence of Wolbachia. Our data show that, contrary to previous estimations, Wolbachia frequencies in beetles (31% overall) are comparable to the ones in other insects. In addition, we used Wolbachia MLST data and host phylogeny to explore the evolutionary history of Wolbachia strains from Hydraenidae, an aquatic lineage of beetles. Our data suggest that Wolbachia from Hydraenidae might be largely host genus specific and that Wolbachia strain phylogeny is not independent to that of its hosts. As this contrasts with most terrestrial Wolbachia–arthropod systems, one potential conclusion is that aquatic lifestyle of hosts may result in Wolbachia distribution patterns distinct from those of terrestrial hosts. Our data thus provide both insights into Wolbachia distribution among beetles in general and a first glimpse of Wolbachia distribution patterns among aquatic host lineages. info:eu-repo/classification/ddc/570 ddc:570
27	Ultraestrutura do aparelho reprodutor feminino e mecanismos de transmissão transovariana de endossimbiontes de Diaphorina citri Kuwayama, 1908 (Hemiptera: Psyllidae) / Ultrastructure of the female reproductive system and mechanisms of transovarial transmission of endosymbionts of Diaphorina citri Kuwayama, 1908 (Hemiptera: Psyllidae) Dossi, Fábio Cleisto Alda 30 January 2009 (has links) Diaphorina citri Kuwayama, 1908 (Hemiptera: Psyllidae) tornou-se um psilídeo de grande importância para a citricultura paulista após a constatação da bactéria Candidatus Liberibacter sp., causadora do Huanglongbing (greening). Sabe-se que esse inseto abriga microrganismos endossimbiontes, os quais desempenham papel fundamental em sua ecologia nutricional, sendo transmitidos verticalmente à progênie. Dessa forma, propomos caracterizar a morfologia do aparelho reprodutor feminino durante o seu desenvolvimento para embasar a identificação do processo de migração dos simbiontes do bacterioma aos tecidos reprodutivos. D. citri possui ovário do tipo telotrófico, com ovaríolos organizados em bouquet e características gerais semelhantes às observadas para outros Sternorrhyncha. Os trofócitos parecem ser desprovidos de delimitação por membrana no ovaríolo desenvolvido. Um único oócito se desenvolve por ciclo no vitelário, o qual mantém-se em contato com a câmara trófica por um prolongamento citoplasmático, denominado cordão trófico. As informações morfo-estruturais do aparelho reprodutor de D. citri obtidas indicam similaridades importantes a de outros membros de Sternorryncha. Nesse contexto, a migração de simbiontes do bacterioma para os oócitos em maturação de D. citri, ocorre de modo semelhante ao descrito para aleirodídeos, caracterizandose pela migração de bacteriócito intacto. Este último, atravessa o epitélio de revestimento do oócito, formado por células foliculares, e invade o oócito, liberando as bactérias nele contidas. Entretanto, os simbiontes associados ao sincício do bacterioma, são liberados na hemocele através de uma pequena abertura formada no epitélio de revestimento dessa estrutura, invadindo o oócito por um mecanismo distinto. Os simbiontes contidos no oócito, formam um agrupamento de aspecto arredondado (= symbiont ball) na região posterior do oócito, próximo ao pedicelo. / Diaphorina citri Kuwayama, 1908 (Hemiptera: Psyllidae) became a serious problem to the citrus industry in São Paulo State once the Huanglongbing disease (greening), which is caused by the bacteria Candidatus Liberibacter sp., was detected. Psyllids are known to harbor endosymbiont microorganisms, which are vertically transmitted to the progeny and play a key role in the nutritional ecology of their hosts. Therefore, we aimed to characterize the morphology of the reproductive system during D. citri development as a tool for further investigation on the symbiont migration from the bacteriome to the reproductive tissues. D. citri has telotrophic ovaries with ovarioles organized in a bouquet, sharing all other characteristics with the remaining Sternorrhyncha. In developed ovarioles, trophocytes seems to lack any membrane delimitation. Only one oocyte develops at a time in the vitellarium, remaining in communication with the trophic chamber by a citoplasmatic brigde, named trophic cord. The morphostructural information reported in here on the D. citri reproductive system shows important similarities with other Sternorryncha. Symbionts associated to the bacteriome of D. citrus migrate to the ovaries and invade the oocytes during ovary maturation, as previously reported for aleyrodids. In this case, symbionts will move within the bacteriocyte as it detaches from the bacteriome and moves through the oocyte follicular epithelium, releasing the contained bacteria into the oocyte. However, symbionts associated to the bacteriome syncitium are relased into the hemocoel through small openings on the bacteriome epithelium, invading the oocyte by a different mechanism. All symbionts that invaded or were discharged into the oocyte aggregate into a balllike symbiont structure at the posterior pole close to the egg pedicel. Bactérias Citrus psyllid Endosymbionts Greening (Doença de planta) Insetos sugadores Insetos vetores Morfologia animal Morphology Oogenesis Ovários - Ultra-estrutura. Ovary Simbiose Ultrastructure.
28	Zur Biosynthese des Borrelidins sowie Isolierung und Strukturaufklärung von Sekundärmetaboliten aus marinen und terrestrischen Mikroorganismen / Biosynthetic studies on Borrelidin and isolation and structure elucidation of secundary metabolites from marine and terrestrial microorganisms Plitzko, Inken 03 July 2007 (has links) No description available. 540 Chemie Mathematics and Computer Science Borrelidin Glaukothalin Melanine Endosymbionten Screening Borrelidin Glaukothalin Melanines Endosymbionts Screening 35.50 SXE 000: Naturstoffe {Biochemie} SXB 200: Biosynthesen {Biochemie}
29	Ultraestrutura do aparelho reprodutor feminino e mecanismos de transmissão transovariana de endossimbiontes de Diaphorina citri Kuwayama, 1908 (Hemiptera: Psyllidae) / Ultrastructure of the female reproductive system and mechanisms of transovarial transmission of endosymbionts of Diaphorina citri Kuwayama, 1908 (Hemiptera: Psyllidae) Fábio Cleisto Alda Dossi 30 January 2009 (has links) Diaphorina citri Kuwayama, 1908 (Hemiptera: Psyllidae) tornou-se um psilídeo de grande importância para a citricultura paulista após a constatação da bactéria Candidatus Liberibacter sp., causadora do Huanglongbing (greening). Sabe-se que esse inseto abriga microrganismos endossimbiontes, os quais desempenham papel fundamental em sua ecologia nutricional, sendo transmitidos verticalmente à progênie. Dessa forma, propomos caracterizar a morfologia do aparelho reprodutor feminino durante o seu desenvolvimento para embasar a identificação do processo de migração dos simbiontes do bacterioma aos tecidos reprodutivos. D. citri possui ovário do tipo telotrófico, com ovaríolos organizados em bouquet e características gerais semelhantes às observadas para outros Sternorrhyncha. Os trofócitos parecem ser desprovidos de delimitação por membrana no ovaríolo desenvolvido. Um único oócito se desenvolve por ciclo no vitelário, o qual mantém-se em contato com a câmara trófica por um prolongamento citoplasmático, denominado cordão trófico. As informações morfo-estruturais do aparelho reprodutor de D. citri obtidas indicam similaridades importantes a de outros membros de Sternorryncha. Nesse contexto, a migração de simbiontes do bacterioma para os oócitos em maturação de D. citri, ocorre de modo semelhante ao descrito para aleirodídeos, caracterizandose pela migração de bacteriócito intacto. Este último, atravessa o epitélio de revestimento do oócito, formado por células foliculares, e invade o oócito, liberando as bactérias nele contidas. Entretanto, os simbiontes associados ao sincício do bacterioma, são liberados na hemocele através de uma pequena abertura formada no epitélio de revestimento dessa estrutura, invadindo o oócito por um mecanismo distinto. Os simbiontes contidos no oócito, formam um agrupamento de aspecto arredondado (= symbiont ball) na região posterior do oócito, próximo ao pedicelo. / Diaphorina citri Kuwayama, 1908 (Hemiptera: Psyllidae) became a serious problem to the citrus industry in São Paulo State once the Huanglongbing disease (greening), which is caused by the bacteria Candidatus Liberibacter sp., was detected. Psyllids are known to harbor endosymbiont microorganisms, which are vertically transmitted to the progeny and play a key role in the nutritional ecology of their hosts. Therefore, we aimed to characterize the morphology of the reproductive system during D. citri development as a tool for further investigation on the symbiont migration from the bacteriome to the reproductive tissues. D. citri has telotrophic ovaries with ovarioles organized in a bouquet, sharing all other characteristics with the remaining Sternorrhyncha. In developed ovarioles, trophocytes seems to lack any membrane delimitation. Only one oocyte develops at a time in the vitellarium, remaining in communication with the trophic chamber by a citoplasmatic brigde, named trophic cord. The morphostructural information reported in here on the D. citri reproductive system shows important similarities with other Sternorryncha. Symbionts associated to the bacteriome of D. citrus migrate to the ovaries and invade the oocytes during ovary maturation, as previously reported for aleyrodids. In this case, symbionts will move within the bacteriocyte as it detaches from the bacteriome and moves through the oocyte follicular epithelium, releasing the contained bacteria into the oocyte. However, symbionts associated to the bacteriome syncitium are relased into the hemocoel through small openings on the bacteriome epithelium, invading the oocyte by a different mechanism. All symbionts that invaded or were discharged into the oocyte aggregate into a balllike symbiont structure at the posterior pole close to the egg pedicel. Bactérias Greening (Doença de planta) Insetos sugadores Insetos vetores Morfologia animal Ovários - Ultra-estrutura. Simbiose Citrus psyllid Endosymbionts Morphology Oogenesis Ovary Ultrastructure.
30	Phylogéographie comparée d’un système multitrophique : les parasitoïdes du genre Horismenus spp. ont-ils échappé au processus de domestication du haricot au Mexique? Laurin-Lemay, Simon 08 1900 (has links) Cette étude vise à comparer l’histoire évolutive des parasitoïdes du genre Horismenus (Hymenoptera: Eulophidae) à celle de leurs hôtes bruches (Coleoptera: Bruchidae) et plante hôte (Phaseolus vulgaris L.) cultivée dans le contexte d’agriculture traditionnelle, au sein de son centre de domestication Mésoaméricain. Nous avons analysé la structure génétique de 23 populations de quatre espèces de parasitoïdes au Mexique, en utilisant un fragment du gène mitochondrial COI afin de les comparer aux structures précédemment publiées des hôtes bruches et du haricot commun. Nous avons prédit que les structures génétiques des populations d’hôtes (bruches et plante) et de parasitoïdes seraient similaires puisque également influencées par la migration entremise par l’humain (HMM) étant donnée que les parasitoïdes se développent telles que les bruches à l’intérieur des haricots. Compte tenu des stratégies de manipulation reproductive utilisées par l’alpha-protéobactérie endosymbionte Wolbachia spp. pour assurer sa transmission, la structure génétique des populations de parasitoïdes inférée à partir du génome mitochondrial devrait être altérée conséquemment à la transmission conjointe des mitochondries et des bactéries lors de la propagation de l’infection dans les populations de parasitoïdes. Les populations du parasitoïde H. missouriensis sont infectées par Wolbachia spp. Tel que prédit, ces populations ne sont pas différenciées (FST = 0,06), ce qui nous empêche d’inférer sur une histoire évolutive parallèle. Contrairement aux bruches, Acanthoscelides obtectus et A. ovelatus, la HMM n'est pas un processus contemporain qui influence la structure génétique des populations du parasitoïde H. depressus, étant donné la forte différenciation (FST = 0,34) qui existe entre ses populations. La structure génétique observée chez H. depressus est similaire à celle de sa plante hôte (i.e. dispersion aléatoire historique à partir d'un pool génique ancestral très diversifié) et est probablement le résultat d’un flux génique important en provenance des populations de parasitoïdes associées aux haricots spontanées à proximité des champs cultivés. L’étude de l’histoire évolutive intégrant plusieurs niveaux trophiques s’est avérée fructueuse dans la détection des différentes réponses évolutives entre les membres du module trophique face aux interactions humaines et parasitaires, et montre la pertinence d’analyser les systèmes écologiques dans leur ensemble. / This study aims to compare the evolutionary history of Horismenus parasitoids (Hymenoptera: Eulophidae) to that of their bruchid beetle hosts (Coleoptera: Bruchidae) and their domesticated host plant (Phaseolus vulgaris L.) in the context of traditional agriculture within their Mesoamerican center of domestication. We analyzed the genetic structure of 23 populations of four Horismenus species in Mexico using COI mitochondrial gene fragments and compared the structures to previously published data on bean plant and beetle hosts. We predicted that because parasitoids complete their development within their beetle hosts, within the bean, the genetic structure of both the host and the parasitoid would be similar and equally influenced by human-mediated migration (HMM). Furthermore, because of reproductive manipulation strategies often used by the alpha-proteobacteria endosymbionte Wolbachia spp. to ensure its transmission, the genetic structure of parasitoid populations inferred from mitochondrial genome would be bias consequently to the conjoint transmission of mitochondria and the bacteria according to propagation of the infection within parasitoids populations. The populations of H. missouriensis parasitoids are infected by Wolbachia spp. As predicted, these populations are not differentiated (FST = 0.06) which prevents us to infer on a parallel evolutionary history. Unlike their bruchids hosts, Acanthoscelides obtectus and A. ovelatus, the HMM is not a contemporary process influencing H. depressus population genetic structure according to the strong populations differentiation (FST = 0.34). The genetic structure observed within H. depressus populations is similar to that of its host plant (i.e. historical random dispersal from a highly diversified ancestral gene pool) and is probably the result of extensive gene flow from parasitoids associated with wild beans populations adjacent to crop fields. The study of evolutionary history integrating multitrophic levels has proved to be fruitful in detecting different evolutionary responses among members of the trophic module face to human and parasite interactions, but also points out the pertinence of analyzing ecological systems as a whole. Horismenus spp. endosymbiontes Wolbachia spp. processus de domestication interactions multitrophiques phylogéographie Wolbachia spp. endosymbionts domestication process multitrophic interactions phylogeography parasitoid population genetics

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