24 research outputs found
Antennal sensilla of two female anopheline sibling species with differing host ranges
BACKGROUND: Volatile odors are important sensory inputs that shape the behaviour of insects, including agricultural pests and disease vectors. Anopheles gambiae s.s. is a highly anthropophilic mosquito and is the major vector for human malaria in sub-Sahara Africa, while Anopheles quadriannulatus, largely due to its zoophilic behaviour, is considered a non-vector species in the same region. Careful studies of olfaction in these sibling species may lead to insights about the mechanisms that drive host preference behaviour. In the present study, the external anatomy of the antenna, the principle olfactory organ in the female mosquito of both species, was examined as an initial step toward more detailed comparisons. METHODS: Scanning electron and light microscopy were used to examine the antennae ultrastructures of adult female An. gambiae s.s. and An. quadriannulatus. Sensory structures, called sensilla, were categorized and counted; their distributions are reported here as well as densities calculated for each species. RESULTS: Both An. gambiae s.s. and An. quadriannulatus bear five classes of sensilla on their antennae: chaetica (bristles), trichodea (hairs), basiconica (pegs), coeloconica (pitted pegs), and ampullacea (pegs in tubes). Female An. quadriannulatus antennae have approximately one-third more sensilla, and a proportionally larger surface area, than female An. gambiae s.s. antennae. CONCLUSION: The same types of sensilla are found on the antennae of both species. While An. quadriannulatus has greater numbers of each sensilla type, sensilla densities are very similar for each species, suggesting that other factors may be more important to such olfactory-driven behaviours as host preference
Reduced Mitochondrial Membrane Potential is a Late Adaptation of Trypanosoma brucei brucei to Isometamidium Preceded by Mutations in the γ Subunit of the F1Fo- ATPase
Background:
Isometamidium is the main prophylactic drug used to prevent the infection of livestock with trypanosomes that cause Animal African Trypanosomiasis. As well as the animal infective trypanosome species, livestock can also harbor the closely related human infective subspecies T. b. gambiense and T. b. rhodesiense. Resistance to isometamidium is a growing concern, as is cross-resistance to the diamidine drugs diminazene and pentamidine.
Methodology/Principal Findings:
Two isometamidium resistant Trypanosoma brucei clones were generated (ISMR1 and ISMR15), being 7270- and 16,000-fold resistant to isometamidium, respectively, which retained their ability to grow in vitro and establish an infection in mice. Considerable cross-resistance was shown to ethidium bromide and diminazene, with minor cross-resistance to pentamidine. The mitochondrial membrane potentials of both resistant cell lines were significantly reduced compared to the wild type. The net uptake rate of isometamidium was reduced 2-3-fold but isometamidium efflux was similar in wild-type and resistant lines. Fluorescence microscopy and PCR analysis revealed that ISMR1 and ISMR15 had completely lost their kinetoplast DNA (kDNA) and both lines carried a mutation in the nuclearly encoded γ subunit gene of F1 ATPase, truncating the protein by 22 amino acids. The mutation compensated for the loss of the kinetoplast in bloodstream forms, allowing near-normal growth, and conferred considerable resistance to isometamidium and ethidium as well as significant resistance to diminazene and pentamidine, when expressed in wild type trypanosomes. Subsequent exposure to either isometamidium or ethidium led to rapid loss of kDNA and a further increase in isometamidium resistance.
Conclusions/Significance:
Sub-lethal exposure to isometamidium gives rise to viable but highly resistant trypanosomes that, depending on sub-species, are infective to humans and cross-resistant to at least some diamidine drugs. The crucial mutation is in the F1 ATPase γ subunit, which allows loss of kDNA and results in a reduction of the mitochondrial membrane potential
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Human migration: the big data perspective
How can big data help to understand the migration phenomenon? In this paper, we try to answer this question through an analysis of various phases of migration, comparing traditional and novel data sources and models at each phase. We concentrate on three phases of migration, at each phase describing the state of the art and recent developments and ideas. The first phase includes the journey, and we study migration flows and stocks, providing examples where big data can have an impact. The second phase discusses the stay, i.e. migrant integration in the destination country. We explore various data sets and models that can be used to quantify and understand migrant integration, with the final aim of providing the basis for the construction of a novel multi-level integration index. The last phase is related to the effects of migration on the source countries and the return of migrants
Calibrating the Late Ordovician glaciation and mass extinction by the eccentricity cycles of Earth's orbit.
NatuurwetenskappeAardwetenskappePlease help us populate SUNScholar with the post print version of this article. It can be e-mailed to: [email protected]
The effect of holes in long-lasting insecticidal nets on malaria in Malawi: results from a case–control study
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Estudo fenotÃpico e genotÃpico da resistência aos macrolÃdeos de "Streptococcus pneumoniae" isolados em hospitais de Porto Alegre - RS
OBJETIVO: O objetivo deste estudo foi determinar a prevalência do S. pneumoniae resistente aos macrolÃdeos e identificar suas caracterÃsticas fenotÃpicas e genotÃpicas. MÉTODOS: Amostras de S. pneumoniae isoladas entre maio de 2002 e agosto de 2004, em Porto Alegre (RS), a partir de materiais clÃnicos coletados de diferentes sÃtios anatômicos foram analisadas. Para o teste de difusão em ágar foram utilizados discos de eritromicina, claritromicina, azitromicina e clindamicina. As concentrações inibitórias mÃnimas de eritromicina foram determinadas nos isolados resistentes aos macrolÃdeos pelo método de diluição em ágar. Os fenótipos dos isolados resistentes aos macrolÃdeos foram investigados pelo teste de difusão em ágar e a genotipagem pela reação em cadeia da polimerase. RESULTADOS: Foram avaliados 229 isolados de pneumococos, e 12 mostraram-se resistentes aos macrolÃdeos (5,2%). Entre estes, 9 apresentaram o fenótipo MLSB (75%) e 3 o fenótipo M (25%). A reação em cadeia da polimerase indicou que 8 isolados com o fenótipo MLSB portavam apenas o gene ermB, enquanto que o gene mefE estava presente em todos os 3 isolados com o fenótipo M. Um isolado com o fenótipo MLSB apresentou ambos os genes. CONCLUSÃO: A resistência aos macrolÃdeos do S. pneumoniae em Porto Alegre permanece baixa, sendo devida principalmente à presença do gene ermB, com expressão do fenótipo MLSB.<br>OBJECTIVE: The aim of this study was to determine the prevalence of macrolide-resistant S. pneumoniae and to identify its phenotypic and genotypic characteristics. METHODS: Strains of S. pneumoniae isolated in the city of Porto Alegre between May 2002 and August 2004 from samples collected from different anatomical sites were analyzed. For the agar diffusion test, disks of erythromycin, clarithromycin, azithromycin and clindamycin were used. The minimum inhibitory concentrations of erythromycin were determined for macrolide-resistant isolates by the agar dilution method. Macrolide-resistant isolates were phenotyped by agar diffusion test and genotyped by polymerase chain reaction. RESULTS: A total of 229 pneumococcal strains were evaluated, 12 (5.2%) of which were macrolide-resistant. Among the 12 resistant strains, 9 (75%) presented the MLSB phenotype, and 3 (25%) presented the M phenotype. Polymerase chain reaction testing indicated that 8 MLSB phenotype isolates harbored the ermB gene only, whereas the mefE gene was present in all 3 M phenotype isolates. One MLSB phenotype isolate presented both genes. CONCLUSION: In Porto Alegre, the S. pneumoniae resistance to macrolides is still low since such resistance is due primarily to the presence of the ermB gene expressing the MLSB phenotype