Gonotrophic Cycle (gonotrophic + cycle)

Distribution by Scientific Domains


Selected Abstracts


Molecular characterization of two novel milk proteins in the tsetse fly (Glossina morsitans morsitans)

INSECT MOLECULAR BIOLOGY, Issue 2 2010
G. Yang
Abstract Purpose: Milk proteins are an essential component of viviparous reproduction in the tsetse fly. Milk proteins are synthesized in and secreted from the milk gland tissue and constitute 50% of the secretions from which the intrauterine larva derives its nourishment. To understand milk protein function and regulation during viviparous reproduction, milk proteins need to be identified and characterized. Methods: Two putative unknown secretory proteins (GmmMGP2 and GmmMGP3) were selected by bioinformatic analysis of tissue specific tsetse cDNA libraries. RT-PCR analysis was performed to verify their milk gland/fat body specific expression profile. Detailed characterization of developmental and tissue specific expression of these proteins was performed by northern blot analysis and fluorescent in situ hybridization. Functional analysis of the milk gland proteins during the tsetse gonotrophic cycle was performed using RNA interference (RNAi). Results: The predicted proteins from gmmmgp2 and gmmmgp3 are small ,22 kD and contain a high proportion of hydrophobic amino acids and potential phosphorylation sites. Expression of both genes is tissue specific to the secretory cells of the milk gland. Transcript abundance for both genes increases over the course of intrauterine larval development and parallels that of gmmmgp, a well characterized milk protein gene considered to be the major milk protein. Phenotypic analysis of flies after RNA interference treatment revealed a significant effect upon fecundity in the gmmmgp2 knockdown flies, but not the gmmmgp3 flies. Knockdown of gmmmgp2 resulted in disruption of ovulation and consequent oocyte accumulation and degradation. Gmmmgp2 knockdown also had a significant impact on fly mortality. Conclusions: This work identifies two novel genes, the proteins of which appear to function in response to intrauterine larvigenesis in tsetse. These proteins may be nutritional components of the milk secretions provided to the larva from the mother. Phenotypic data from knockdown of gmmmgp2 suggests that this protein may also have a regulatory function given the defect in ovulation observed in knockdown flies. Further analysis of these genes will be important (in conjunction with other milk proteins) for identification of transcriptional regulation mechanisms that direct milk gland/pregnancy specific gene expression. [source]


Molecular analysis of the serine/threonine kinase Akt and its expression in the mosquito Aedes aegypti

INSECT MOLECULAR BIOLOGY, Issue 3 2003
M. A. Riehle
Abstract A key component of the insulin-signalling pathway, the protein kinase Akt, was identified and cloned as a cDNA from ovaries of the mosquito Aedes aegypti. An ortholog gene was found in the Anopheles gambiae genome database, and like other Akts, both mosquito Akts possess pleckstrin homology domains for membrane binding and a serine/threonine kinase domain. When Ae. aegypti ovaries were treated with bovine insulin in vitro, a putative Akt was threonine-phosphorylated, as expected for Akts. AaegAKT was only expressed in embryos for the first 6 h after oviposition and in ovaries before and during a gonotrophic cycle. [source]


Influence of the spatial distribution of human hosts and large size containers on the dispersal of the mosquito Aedes aegypti within the first gonotrophic cycle

MEDICAL AND VETERINARY ENTOMOLOGY, Issue 1 2010
R. MACIEL-DE-FREITAS
It is generally accepted that Aedes aegypti (L.) (Diptera: Culicidae) has a short dispersal capacity, and that displacement can be influenced by the availability of oviposition sites in the surroundings of emergence or release sites. In the present article, we observed the influence of spatial heterogeneity of large containers and human hosts on the cumulative flight direction of Ae. aegypti females during the first gonotrophic cycle, testing the hypothesis that they aggregate in resource-rich areas, i.e. where there are higher concentrations of large containers and/or humans per habitation. We analysed data from pupal surveys and mark-release-recapture experiments (non-blood-fed females were released) carried out in two dengue endemic neighbourhoods of Rio de Janeiro, Brazil: Tubiacanga (a suburb, with a human density of 337 inhabitants/ha) and Favela do Amorim (a slum, with a human density of 901 inhabitants/ha). In both areas, host-seeking females of three different release cohorts showed an overall non-uniform and extensive dispersal from their release point within 1,2 days post-release. At 4,5 days post-release, when many of the released females would be expected to be gravid, in Tubiacanga most mosquitoes were collected in areas with a relatively higher density of containers/premise, independently of the density of residents/house, whereas in Favela do Amorim, almost half of the captured mosquitoes were collected in relatively resource-poorer areas. Although Ae. aegypti dispersal patterns varied between sites, overall the distances travelled from the release point and the cumulative flight directions were correlated with the density of containers and hosts, more markedly in Tubiacanga than in Favela do Amorim. [source]


Courtship and mating by the sandfly Phlebotomus duboscqi, a vector of zoonotic cutaneous leishmaniasis in the Afrotropical region

MEDICAL AND VETERINARY ENTOMOLOGY, Issue 2 2000
D. T. Valenta
Summary Courtship behaviour of males of the Afrotropical sandfly Phlebotomus duboscqi Neveu-Lemaire (Diptera: Psychodidae) involved mounting the female and clasping her ,waist' with the male coxites placed between the female's thorax and abdomen. This behaviour, which we call ,piggy-backing', was preceded by male wing beating, perhaps involving mate recognition and contact pheromones. It did not seem to be pre- or postcopulatory mate guarding. Piggy-backing was attempted by P. duboscqi males on females of other species (P. papatasi and P. perniciosus) and even on other male P. duboscqi. The majority of female P. duboscqi piggy-backed by males were already inseminated, and most of the courting did not lead to copulation. This, coupled with the presence of a mating plug (semen) in each spermatheca of inseminated females, suggests that female P. duboscqi are monogamous for at least the first gonotrophic cycle. Male courtship with piggy-backing was more intense when females could feed on a hamster than when a hamster was present but the females were denied access to the host. It is suggested that, when a hamster was available to the females, the conditions in the laboratory are similar to those in rodent holes, the natural habitat of P. duboscqi. [source]