Host selection by the aphid parasite, Aphidus ervi Haliday /

Goff, Albert Michael

January 1982

No description available.

Biology

Aphids

Host-parasite relationships

Regulação do desenvolvimento e resposta imune de lagartas de Diatraea saccharalis (Fabricius) (Lepidoptera: Crambidae) por Cotesia flavipes (Cameron) (Hymenoptera: Braconidae) / Diatraea saccharalis (Fabricius) (Lepidoptera: Crambidae) larval development and immune response regulation by Cotesia flavipes (Cameron) (Hymenoptera: Braconidae)

Lopes, Carolina Schultz

31 July 2008

Cotesia flavipes (Cameron) (Hym.: Braconidae), como outros cenobiontes, é capaz de regular seu hospedeiro, criando um ambiente que sustenta e promove o desenvolvimento de suas larvas, comumente em detrimento do hospedeiro. Substâncias derivadas do trato reprodutivo das fêmeas (proteínas ovarianas, veneno e polidnavírus) são injetadas no hospedeiro, afetando a resposta imune e outros processos fisiológicos com o propósito de regular os níveis hormonais, nutrição e comportamento. O presente trabalho teve por objetivo avaliar o papel dessas substâncias no crescimento e desenvolvimento de Diatraea saccharalis (Fabricius) (Lepidoptera: Crambidae), e avaliar como o parasitismo afeta a resposta imune do hospedeiro. Todas as substâncias derivadas da fêmea foram obtidas após a dissecação do parasitóide, através da coleta do reservatório de veneno ou dos ovários (proteínas ovarianas e polidnavírus) em tampão resfriado. As secreções foram processadas adequadamente e injetadas logo após a coleta. O veneno e as proteínas ovarianas + polidnavírus (PDV) foram injetados juntos ou separadamente em lagartas entre 0-12h do 6º instar. O efeito de cada um dos componentes isolados do parasitóide no desenvolvimento e crescimento do hospedeiro foi avaliado através de observações no ganho de peso, duração e viabilidade da fase larval e pupal. Os efeitos do parasitismo na resposta imune do hospedeiro foram avaliados tanto ao nível celular, através da contagem do número total de hemócitos e capacidade de encapsulação, como ao nível bioquímico, medindo-se a ativação da profenoloxidase e produção de óxido nítrico na hemolinfa das lagartas de D. saccharalis em diferentes estágios de desenvolvimento do parasitóide (0, 1, 3, 5, 7 e 9 dias após o parasitismo). As proteínas ovarianas do parasitóide e o PDV sozinho, ou co-injetado com o veneno, suspenderam o desenvolvimento larval do hospedeiro, enquanto que o veneno, sozinho, afetou o processo de metamorfose. A resposta imune do hospedeiro também foi afetada por C. flavipes, de maneira dependente do tempo. Lagartas parasitadas apresentaram declínio no número total de hemócitos a partir do 3º dia e a capacidade de encapsulação foi afetada ao longo do desenvolvimento do parasitóide. A atividade da fenoloxidase do hospedeiro foi alterada apenas no final do desenvolvimento imaturo do parasitóide, enquanto que o óxido nítrico foi afetado nas 24 h iniciais após parasitismo. / Cotesia flavipes (Cameron) (Hym., Braconidae), as other koinobionts, is capable of regulating the host development to produce an suitable host environment to sustain and promote its own larval development at the host expenses. Female-derived substances from the reproductive tract (ovarian proteins, venom, polydnavirus) are injected into the host, affecting the host immune response and other physiological processes aiming to regulate the host hormone levels, nutrition and behavior. Our goal was to evaluate the role of these substances on Diatraea saccharalis (F.) (Lepidoptera: Crambidae) growth and development, and how the parasitism affects the host immune response. All female-derived substances were collected after parasitoid dissection by collecting the venom reservoir or the ovaries (ovarian proteins and polydnavirus). Dissections were carried out in ice-cold buffer, collected tissues were processed accordingly and the desired substances injected immediately after collection. Venom and ovarian proteins+polydnavirus (PDV) were injected jointly and separated in 0-12 hold 6th instars of D. saccharalis. The effect of these substances on host development and growth was evaluated by measuring the host weight gain, larval and pupal survivorship and developmental time. The effects of the parasitism on the host immune response was evaluated either at the cellular level, by measuring the total hemocyte count and the encapsulation capacity, and at the biochemical level, by measuring the prophenoloxidase activity and nitric oxide levels at different stages of parasitoid development (0, 1, 3, 5, 7 and 9 days after parasitism). Parasitoid ovarian proteins and PDV alone or co-injected with the venom arrested the host larval development, while the venom by itself only affected the host metamorphosis process. The host immune response was also affected by C. flavipes at a time-dependent manner. The total hemocyte count dropped at day 3 of parasitism, while the host encapsulation capacity was reduced during parasitoid development. The host prophenoloxidase activity was also affected mainly towards the end of parasitoid larval development, while the nitric oxide at the first 24 h after parasitism.

Brocas (insetos nocivos)

Host immune response

Host regulation

Host-parasitoid interactions

Imunobiologia

Parasitimo

polydnavirus.

Vespas.

The evolutionary ecology of circadian rhythms in malaria parasites

Prior, Kimberley Faith

January 2018

Biological rhythms are thought to have evolved to enable organisms to organise their activities according to the Earth’s predictable cycles, but quantifying the fitness advantages of rhythms is challenging and data revealing their costs and benefits are scarce. More difficult still is explaining why parasites that exclusively live within the bodies of other organisms have biological rhythms. Rhythms exist in the development and traits of parasites, in host immune responses, and in disease susceptibility. This raises the possibility that timing matters for how hosts and parasites interact and, consequently, for the severity and transmission of diseases. Despite their obvious importance in other fields, circadian rhythms are a neglected aspect of ecology and evolutionary biology. The ambitions of this thesis are to integrate chronobiology, parasitology and evolutionary theory with mathematical models to obtain a greater understanding about how and suggest why malaria parasites have rhythms as well as the effect of infection on host rhythms. First, I identify how malaria parasites lose their developmental rhythms in culture, when they lack any potential time cues from the host. Next, I characterise parasite rhythms inside the mammalian host in terms of synchrony and timing and demonstrate there is genotype by environment interactions for characteristics of parasite rhythms. Then, I investigate the effect that parasite infection has on host rhythms and show there is variation between parasite genotypes in their effect on host locomotor activity and body temperature rhythms during infections. Finally, I explore which host rhythms may be driving parasite synchrony and timing and demonstrate the importance of peripheral host rhythms for the timing of malaria parasite developmental rhythms. The data presented here provides novel and important information on the role of rhythms during disease and opens up a new arena for studying host-parasite coevolution.

Regulação do desenvolvimento e resposta imune de lagartas de Diatraea saccharalis (Fabricius) (Lepidoptera: Crambidae) por Cotesia flavipes (Cameron) (Hymenoptera: Braconidae) / Diatraea saccharalis (Fabricius) (Lepidoptera: Crambidae) larval development and immune response regulation by Cotesia flavipes (Cameron) (Hymenoptera: Braconidae)

Carolina Schultz Lopes

31 July 2008

Cotesia flavipes (Cameron) (Hym.: Braconidae), como outros cenobiontes, é capaz de regular seu hospedeiro, criando um ambiente que sustenta e promove o desenvolvimento de suas larvas, comumente em detrimento do hospedeiro. Substâncias derivadas do trato reprodutivo das fêmeas (proteínas ovarianas, veneno e polidnavírus) são injetadas no hospedeiro, afetando a resposta imune e outros processos fisiológicos com o propósito de regular os níveis hormonais, nutrição e comportamento. O presente trabalho teve por objetivo avaliar o papel dessas substâncias no crescimento e desenvolvimento de Diatraea saccharalis (Fabricius) (Lepidoptera: Crambidae), e avaliar como o parasitismo afeta a resposta imune do hospedeiro. Todas as substâncias derivadas da fêmea foram obtidas após a dissecação do parasitóide, através da coleta do reservatório de veneno ou dos ovários (proteínas ovarianas e polidnavírus) em tampão resfriado. As secreções foram processadas adequadamente e injetadas logo após a coleta. O veneno e as proteínas ovarianas + polidnavírus (PDV) foram injetados juntos ou separadamente em lagartas entre 0-12h do 6º instar. O efeito de cada um dos componentes isolados do parasitóide no desenvolvimento e crescimento do hospedeiro foi avaliado através de observações no ganho de peso, duração e viabilidade da fase larval e pupal. Os efeitos do parasitismo na resposta imune do hospedeiro foram avaliados tanto ao nível celular, através da contagem do número total de hemócitos e capacidade de encapsulação, como ao nível bioquímico, medindo-se a ativação da profenoloxidase e produção de óxido nítrico na hemolinfa das lagartas de D. saccharalis em diferentes estágios de desenvolvimento do parasitóide (0, 1, 3, 5, 7 e 9 dias após o parasitismo). As proteínas ovarianas do parasitóide e o PDV sozinho, ou co-injetado com o veneno, suspenderam o desenvolvimento larval do hospedeiro, enquanto que o veneno, sozinho, afetou o processo de metamorfose. A resposta imune do hospedeiro também foi afetada por C. flavipes, de maneira dependente do tempo. Lagartas parasitadas apresentaram declínio no número total de hemócitos a partir do 3º dia e a capacidade de encapsulação foi afetada ao longo do desenvolvimento do parasitóide. A atividade da fenoloxidase do hospedeiro foi alterada apenas no final do desenvolvimento imaturo do parasitóide, enquanto que o óxido nítrico foi afetado nas 24 h iniciais após parasitismo. / Cotesia flavipes (Cameron) (Hym., Braconidae), as other koinobionts, is capable of regulating the host development to produce an suitable host environment to sustain and promote its own larval development at the host expenses. Female-derived substances from the reproductive tract (ovarian proteins, venom, polydnavirus) are injected into the host, affecting the host immune response and other physiological processes aiming to regulate the host hormone levels, nutrition and behavior. Our goal was to evaluate the role of these substances on Diatraea saccharalis (F.) (Lepidoptera: Crambidae) growth and development, and how the parasitism affects the host immune response. All female-derived substances were collected after parasitoid dissection by collecting the venom reservoir or the ovaries (ovarian proteins and polydnavirus). Dissections were carried out in ice-cold buffer, collected tissues were processed accordingly and the desired substances injected immediately after collection. Venom and ovarian proteins+polydnavirus (PDV) were injected jointly and separated in 0-12 hold 6th instars of D. saccharalis. The effect of these substances on host development and growth was evaluated by measuring the host weight gain, larval and pupal survivorship and developmental time. The effects of the parasitism on the host immune response was evaluated either at the cellular level, by measuring the total hemocyte count and the encapsulation capacity, and at the biochemical level, by measuring the prophenoloxidase activity and nitric oxide levels at different stages of parasitoid development (0, 1, 3, 5, 7 and 9 days after parasitism). Parasitoid ovarian proteins and PDV alone or co-injected with the venom arrested the host larval development, while the venom by itself only affected the host metamorphosis process. The host immune response was also affected by C. flavipes at a time-dependent manner. The total hemocyte count dropped at day 3 of parasitism, while the host encapsulation capacity was reduced during parasitoid development. The host prophenoloxidase activity was also affected mainly towards the end of parasitoid larval development, while the nitric oxide at the first 24 h after parasitism.

Brocas (insetos nocivos)

Imunobiologia

Parasitimo

Vespas.

Host immune response

Host regulation

Host-parasitoid interactions

polydnavirus.

Host-Pathogen Interactions Promoting Pathogen Survival and Potentiating Disease Severity & Morbidity in Invasive Group A Streptococcal Necrotizing Soft Tissue Infections

Chella Krishnan, Karthickeyan

January 2015

No description available.

Microbiology

Group A Streptococcus

Host-pathogen interactions

Host genetic context

Microbial pathogenesis

Pathogenesis and host response

Systems genetics

Genetic differentiation of the parasitoid, Cotesia congregata (Say), based on host-plant complex

Karns, Georgia

29 July 2009

Endoparasitoids of herbivorous lepidopterans have intimate relationships with their host species as well as the plant on which their host develops. Characteristics of both hosts and plants can affect parasitoid success in tri-trophic systems and thus, drive diversification. Genetic differentiation was estimated for Cotesia congregata (Say) collected from two distinct host-plant complexes, Manduca sexta L. on tobacco (Nicotiana tabacum L.) and Ceratomia catalpae, (Haworth) on catalpa (Catalpa bignonioides Walker), in the mid-Atlantic region of North America using seven microsatellite loci and the mitochondrial COI locus. Microsatellite allele frequencies were differentiated based on host-plant complex, and COI haplotypes from individuals on the same host-plant were identical despite geographic distances between catalpa sites of up to 830 km and distances between tobacco sites of up to 294 km. Results indicate genetic differentiation of subpopulations of C. congregata based on host-plant complex and not geographic distance, and were designated as host races. Cotesia congregata is a gregarious parasitoid, meaning that many individuals develop in a single host larva. Superparasitism, or repeated egg-laying events in the same host larva, is likely to occur in gregarious species. Brood size was not a good predictor of superparasitism in C. congregata, but within-brood male allele diversity indicates either superparasitism or multiple mating by female wasps.

Host-plant complex differentiation

host associated differentiation

host races

cryptic species

parasitoid

Braconidae

Cotesia congregata (Say)

Biology

Life Sciences

Isolation of the glycoprotein of vesicular stomatitis virus and its binding to cell surfaces

Thimmig, Roberta Leigh.

January 1979

Call number: LD2668 .T4 1979 T516 / Master of Science

Host-virus relationships.

Vesicular stomatitis.

Masters theses

Genomic, epigenomic and transcriptomic factors affecting host-parasite interactions in red grouse (Lagopus lagopus scotica)

Wenzel, Marius

January 2015

Host-parasite interactions are extremely important drivers of evolutionary change, characterised by co-evolutionary dynamics with strong reciprocal selective pressure on both host and parasite genomes. However, little is known about the genomic basis of host-parasite interactions, particularly which genes may affect parasite susceptibility, parasite burden and the ability to resolve energetic life-history trade-offs under chronic parasite insult. This thesis examines the genomic, epigenomic and transcriptomic basis of an avian host's physiological response to chronic parasite infection. The model system throughout is the red grouse (Lagopus lagopus scotica) and its main parasite, the gastrointestinal nematode Trichostrongylus tenuis. T. tenuis is highly prevalent and imposes substantial fitness costs that affect demography and population dynamics through an impact on territorial behaviour, energy balance, fecundity and mortality. Here, the genomic architecture of variation in individual T. tenuis burden is examined via de novo identified candidate genes, genome-wide SNPs and genome-wide cytosine methylation polymorphisms. Further, molecular signatures of natural selection in identified genomic regions are examined across a landscape in northeast Scotland with heterogeneous parasite pressure. Finally, the transcriptomic response of red grouse to experimental T. tenuis infection and manipulation of testosterone titre is harnessed to identify a transcriptomic component in testosterone-driven physiological trade-offs in a sexual selection context.

570

Red grouse ; Host-parasite relationships

Saprolegniosis : studies of the host-pathogen interaction in salmonids

Belmonte da Silva, Rodrigo Caetano

January 2014

Saprolegnia is a fresh water fish parasite responsible for significant economic losses in the aquaculture industry worldwide. The disease caused by this organism is termed saprolegniosis, being characterized by a mycosis-like infection of gills and fish skin. Without sustainable treatments available for controlling or preventing saprolegniosis, it has become a significant problem especially for salmon farming, frequently affecting the fish after vaccination. Little is known regarding how the fish immune system responds to infection and such information is vital for developing future treatments and preventive measures to saprolegniosis. To study the immune response of Atlantic salmon to Saprolegnia, a detailed immune profile of experimentally infected presmolts was performed by analyzing the expression levels of several immunity-related genes. Infected fish exhibit a very strong inflammatory response while the majority of genes associate with the adaptive immunity were found to be down regulated. The mechanisms behind this response were then investigated: It was discovered that the cell wall of Saprolegnia can be recognized by fish immune cells, triggering an inflammatory response. A protease secreted by the parasite that has the ability to degrade fish antibodies was identified and, for the first time in an oomycete, the production of prostaglandin E2 was characterized, a molecule that was later shown to potentiate inflammatory responses while suppressing host adaptive immunity genes. Lastly two metabolic pathways of the oomycete were explored as novel targets for control, prostaglandin and sterol metabolism by the use of cyclooxygenase and CYP51 inhibitors, respectively.

590

Host relationships of some parasitic flies

Cheng, Lanna

January 1968

No description available.

590