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1.
Summary A dye exclusion test for differentiating between live and dead tissue culture cells ofAedes aegypti is described. Erythrosin B at a final concentration of 20 mg/100 ml cell suspension stained these cells differentially; dead cells were stained red but the live ones did not take up the dye. There was a close correlation between the number of unstained cells and incorporation of14C-leucine. No significant increase was observed in the number of stained cells over a 1-hr staining period. Keeping the cells at 5°C up to 24 hr prior to addition of the dye affected neither total cell number nor the proportion of stained cells. Contribution 202, based on a paper read at the 21st Annual Meeting of the Tissue Culture Association held at Washington, D. C., June 15–18, 1970.  相似文献   

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Aedes aegypti feeding on chickens infected with Plasmodium gallinaceum take less blood and lay fewer eggs than those feeding on uninfected hosts. Both activities show an inverse correlation with the degree of parasitemia. Mosquitoes feeding on infected chickens ingest blood in amounts directly proportional to the length of time spent on the hosts, whereas there is no relationship between host contact and blood meal size for mosquitoes feeding on uninfected hosts. Feeding and probing choice experiments demonstrate that infected chickens are less attractive to Aedes aegypti than uninfected chickens.  相似文献   

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Summary Metabolic activity ofA. aegypti cells grown in vitro has been studied by incorporation of3H-uridine and14C-leucine. “Chase” experiments with unlabeled precursors, and the use of actinomycin D and puromycin, showed that3H-uridine was incorporated into cellular RNA, and that14C-leucine was incorporated into protein of these cells. Incorporation of3H-uridine was inhibited when actinomycin D was used at a concentration of 10 μg/ml, and14C-leucine incorporation was inhibited to the same extent by puromycin at a concentration of 100 μg/ml medium. Contribution No. 148.  相似文献   

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A trisomic (2n=6+1) pupa of the yellow fever mosquito Aedes aegypti has been found. The trisomy involved chromosome 3 which is intermediate in size between 1 and 2. The extra chromosome formed a univalent or a trivalent during meiosis.  相似文献   

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Diseases transmitted by hematophagous (blood-feeding) insects are responsible for millions of human deaths worldwide. In hematophagous insects, the blood meal is important for regulating egg maturation. Although a high concentration of iron is toxic for most organisms, hematophagous insects seem unaffected by the iron load in a blood meal. One means by which hematophagous insects handle this iron load is, perhaps, by the expression of iron-binding proteins, specifically the iron storage protein ferritin. In vertebrates, ferritin is an oligomer composed of two types of subunits called heavy and light chains, and is part of the constitutive antioxidant response. Previously, we found that the insect midgut, a main site of iron load, is also a primary site of ferritin expression and that, in the yellow fever mosquito, Aedes aegypti, the expression of the ferritin heavy-chain homologue (HCH) is induced following blood feeding. We now show that the expression of the Aedes ferritin light-chain homologue (LCH) is also induced with blood-feeding, and that the genes of the LCH and HCH are tightly clustered. mRNA levels for both LCH- and HCH-genes increase with iron, H2O2 and hemin treatment, and the temporal expression of the genes is very similar. These results confirm that ferritin could serve as the cytotoxic protector in mosquitoes against the oxidative challenge of the bloodmeal. Finally, although the Aedes LCH has no iron responsive element (IRE) at its 5'-untranslated region (UTR), the 5'-UTR contains several introns that are alternatively spliced, and this alternative splicing event is different from any ferritin message seen to date.  相似文献   

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A bioassay of mosquito iridescent virus (MIV) of Aedes taeniorhynchus was developed using cell cultures of Aedes aegypti. The dilution end point technique was based on the occurrence of cytopathic effects which were optimum at 31°C. Peleg's A. aegypti cell line was more sensitive and reliable than Singh's A. aegypti cell line for infectivity titration of the “R” and “T” strains of MIV. The highest tissue culture infectivity dose 50s (TCID50) were elicited by virion:cell ratios of approximately 10. TCID50 titers were significantly reduced by virus neutralization with either homologous or heterologous antiserum to either RMIV or TMIV. The virus propagated in either cell line was not infectious to A. taeniorhynchus larvae, or to the respective cells from which the virus was produced. All plaque assay attempts were unsuccessful.  相似文献   

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An electron microscopical study was conducted on the pathology of the mosquito iridescent virus (MIV) of Aedes taeniorhynchus in monolayer cultures of Aedes aegypti cells. The sequence of events in the pathology, from the initiation of attachment through maturation and release, is presented.MIV attaches to cells and is taken up by the process of viropexis (phagocytosis) within 15 min after inoculation. Intact virions are released into the cytoplasm at 30–60 min by disruption of the phagocytic vesicles. Discrete foci of replication (viroplasm) develop in the cytoplasm within 1 day after infection. Progeny virus is assembled in the viroplasm within 2 days after infection and later appears at the cell surface, where it acquires an envelope from the plasma membrane upon budding from the cell. Virus does not accumulate to form aggregates in the cytoplasm; instead, it buds from the cell after assembly.  相似文献   

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Background

Pyrethroid insecticides, especially permethrin and deltamethrin, have been used extensively worldwide for mosquito control. However, insecticide resistance can spread through a population very rapidly under strong selection pressure from insecticide use. The upregulation of aldehyde dehydrogenase (ALDH) has been reported upon pyrethroid treatment. In Aedes aegypti, the increase in ALDH activity against the hydrolytic product of pyrethroid has been observed in DDT/permethrin-resistant strains. The objective of this study was to identify the role of individual ALDHs involved in pyrethroid metabolism.

Methodology/Principal Findings

Three ALDHs were identified; two of these, ALDH9948 and ALDH14080, were upregulated in terms of both mRNA and protein levels in a DDT/pyrethroid-resistant strain of Ae. aegypti. Recombinant ALDH9948 and ALDH14080 exhibited oxidase activities to catalyse the oxidation of a permethrin intermediate, phenoxybenzyl aldehyde (PBald), to phenoxybenzoic acid (PBacid).

Conclusions/Significance

ALDHs have been identified in association with permethrin resistance in Ae. aegypti. Characterisation of recombinant ALDHs confirmed the role of this protein in pyrethroid metabolism. Understanding the biochemical and molecular mechanisms of pyrethroid resistance provides information for improving vector control strategies.  相似文献   

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Cultured cells of Aedes aegypti were fixed with glutaraldehyde and prepared for scanning electron microscopy by four procedures: air drying, lyophilization, ethanol dehydration and air drying, and ethanol dehydration and critical point drying. Comparison of the resulting electron micrographs with phase contrast photomicrographs of living cells revealed that although cultured insect cells dried by the critical point method are not completely without artifacts, this method of preservation is superior to other techniques currently used.  相似文献   

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Adult Aedes aegypti mosquitoes were collected in Puerto Triunfo, central Colombia, where dengue is endemic, during a six month period. Viral infection within the head of each individual mosquito was identified by an immunofluorescent assay (IFA) using a flavivirus-specific monoclonal antibody. The dengue virus serotype, present in each flavivirus-positive specimen, was then determined in portions of the remaining thorax using IFAs with serotype-specific monoclonal antibodies. Among 2065 female Aedes aegypti collected and tested, twenty-four flavivirus-positive individuals were found (minimum infection rate 11.6%), three identified as dengue type-1 and twenty-one as dengue type-2 virus. This was consistent with the isolation of only these two serotypes of dengue virus from dengue fever patients within this town. No vertical transmission of dengue virus could be detected in 1552 male Aedes aegypti collected. This method is inexpensive, simple, rapid to perform and suitable for use in developing countries to identify and distinguish different serotypes of dengue virus in their vectors during eco-epidemiological investigations.  相似文献   

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We investigated the mechanisms by which Aedes aegypti mosquitoes are able to metabolize ammonia. When females were given access to solutions containing NH(4)Cl or to a blood meal, hemolymph glutamine and proline concentrations increased markedly, indicating that ammonium/ammonia can be removed from the body through the synthesis of these two amino acids. The importance of glutamine synthetase was shown when an inhibitor of the enzyme was added to the meal causing the glutamine concentration in hemolymph to decrease significantly, while the proline concentration increased dramatically. Unexpectedly, we found an important role for glutamate synthase. When mosquitoes were fed azaserine, an inhibitor of glutamate synthase, the glutamine concentration increased and the proline concentration decreased significantly. This confirms the presence of glutamate synthase in mosquitoes and suggests that this enzyme contributes to the production of glutamate for proline synthesis. Several key enzymes related to ammonium/ammonia metabolism showed activity in homogenates of mosquito fat body and midgut. The mosquito genes encoding glutamate dehydrogenase, glutamine synthetase, glutamate synthase, pyrroline-5-carboxylate synthase were cloned and sequenced. The mRNA expression patterns of these genes were examined by a real-time RT-PCR in fat body and midgut. The results show that female mosquitoes have evolved efficient mechanisms to detoxify large loads of ammonium/ammonia.  相似文献   

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Mosquitoes are responsible for the transmission of many clinically important arboviruses that cause significant levels of annual mortality and socioeconomic health burden worldwide. Deciphering the mechanisms by which mosquitoes modulate arbovirus infection is crucial to understand how viral-host interactions promote vector transmission and human disease. SUMOylation is a post-translational modification that leads to the covalent attachment of the Small Ubiquitin-like MOdifier (SUMO) protein to host factors, which in turn can modulate their stability, interaction networks, sub-cellular localisation, and biochemical function. While the SUMOylation pathway is known to play a key role in the regulation of host immune defences to virus infection in humans, the importance of this pathway during arbovirus infection in mosquito vectors, such as Aedes aegypti (Ae. aegypti), remains unknown. Here we characterise the sequence, structure, biochemical properties, and tissue-specific expression profiles of component proteins of the Ae. aegypti SUMOylation pathway. We demonstrate significant biochemical differences between Ae. aegypti and Homo sapiens SUMOylation pathways and identify cell-type specific patterns of SUMO expression in Ae. aegypti tissues known to support arbovirus replication. Importantly, depletion of core SUMOylation effector proteins (SUMO, Ubc9 and PIAS) in Ae. aegypti cells led to enhanced levels of arbovirus replication from three different families; Zika (Flaviviridae), Semliki Forest (Togaviridae), and Bunyamwera (Bunyaviridae) viruses. Our findings identify an important role for mosquito SUMOylation in the cellular restriction of arboviruses that may directly influence vector competence and transmission of clinically important arboviruses.  相似文献   

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Two-electrode voltage clamp (TEVC) methods were used to explore conductive transport pathways in principal cells, the dominant cell type in Malpighian tubules of the yellow fever mosquito. The basolateral membrane of principal cells had a voltage (Vbl) of -85.1 mV in 49 principal cells under control conditions. Measures of the input resistance Rpc together with membrane fractional resistance yielded estimates of the conductance of the basolateral membrane (gbl = 1.48 μS) and the apical membrane (ga = 3.13 μS). K+ channels blocked by barium accounted for 0.94 μS of gbl. Estimates of transference numbers yielded the basolateral membrane Na+ conductance of 0.24 μS, leaving 0.30 μS (20%) of gbl unaccounted. The secretagogue db-cAMP (0.1 mM), a known activator of the basolateral membrane Na+ conductance, significantly depolarized Vbl to -65.0 mV and significantly increased gbl from 1.48 μS to 2.47 μS. The increase was blocked with amiloride (1 mM), a known blocker of epithelial Na+ transport. The inhibition of metabolism with di-nitrophenol significantly depolarized Vbl to -9.7 mV and significantly increased Rpc from 391.6 kΩ to 2612.5 kΩ. Similar results were obtained with cyanide, but it remains unclear whether the large increases in Rpc stem from the uncoupling of epithelial cells and/or the shutdown of conductive transport pathways in basolateral and apical membranes. Our results indicate that the apical membrane of principal cells is more than twice as conductive as the basolateral membrane. Partial ionic conductances suggest the rate-limiting step for transepithelial Na+ secretion at the basolateral membrane.  相似文献   

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