Mostrando 10 resultados de: 15
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Memorias do Instituto Oswaldo Cruz(3)
Parasites and Vectors(3)
Acta Tropica(2)
Proceedings of the National Academy of Sciences of the United States of America(2)
Advances in Parasitology(1)
Biogeography and evolution of Amazonian triatomines (Heteroptera: Reduviidae): Implications for Chagas disease surveillance in humid forest ecoregions
Conference ObjectAbstract: An ecological-evolutionary classification of Amazonian triatomines is proposed based on a revision oPalabras claves:amazonía, Biogeography, Chagas disease, Ecology, EVOLUTION, triatominaeAutores:Fernando Abad-Franch, Monteiro F.A.Fuentes:scopusCorrection to: Under pressure: phenotypic divergence and convergence associated with microhabitat adaptations in Triatominae (Parasites & Vectors, (2021), 14, 1, (195), 10.1186/s13071-021-04647-z)
OtherAbstract: Following publication of the original article [1], it was brought to our attention that the second aPalabras claves:Autores:Bargues M.D., Beard C.B., Fernando Abad-Franch, Marcelo Aguilar, Mas-Coma S., Miles M.A., Monteiro F.A., Patterson J.S., Pavan M.G., Zuriaga M.Á.Fuentes:scopusGenome of Rhodnius prolixus, an insect vector of Chagas disease, reveals unique adaptations to hematophagy and parasite infection
ArticleAbstract: Rhodnius prolixus not only has served as a model organism for the study of insect physiology, but alPalabras claves:Chagas disease, genome, Hematophagy, immunity, Rhodnius prolixusAutores:Alves-Bezerra M., Amaral L.R., Araujo H.M., Araujo R.N., Aravind L., Atella G.C., Azambuja P., Berni M., Bittencourt-Cunha P.R., Braz G.R.C., Calderón-Fernández G., Carvalho A.B., Christensen M.B., Claudia C.M., Costa I.R., Costa S.G., Da Fonseca R.N., Dansa M., Daumas-Filho C.R.O., De-Paula I.F., Dias F.A., Dimopoulos G., Emrich S.J., Esponda-Behrens N., Fampa P., Fernandez-Medina R.D., Fernando Abad-Franch, Fontenele M., Fronick C., Fulton L.A., Gandara A.C., Garcia E.S., Genta F.A., Giraldo-Calderón G.I., Gomes B., Gondim K.C., Granzotto A., Guarneri A.A., Guigó R., Harry M., Hughes D.S.T., Jablonka W., Jacquin-Joly E., Juárez M.P., Koerich L.B., Latorre-Estivalis J.M., Lavore A., Lawson D., Lazoski C., Lazzari C.R., Lorenzo M.G., Lowenberger C., Majerowicz D., Mariotti M., Masuda H., Megy K., Melo A.C.A., Mesquita R.D., Minx P., Missirlis F., Montague M.J., Monteiro F.A., Mota T., Noriega F.G., Nunes R.D., Oliveira R.L.L., Oliveira-Silveira G., Ons S., Pagola L., Paiva-Silva G.O., Panzera P., Pascual A., Pavan M.G., Peixoto A.A., Pereira M.H., Pike A., Polycarpo C., Prosdocimi F., Ribeiro J.M.C., Ribeiro-Rodrigues R., Rivera-Pomar R., Robertson H.M., Salerno A.P., Salmon D., Santesmasses D., Schama R., Seabra-Junior E.S., Silva-Cardoso L., Silva-Neto M.A.C., Sorgine M.H.F., Souza-Gomes M., Spieth J., Sterkel M., Taracena M.L., Tojo M., Torres A.Q., Tu Z.J., Tubio J.M.C., Vionette-Amaral R.J., Waterhouse R.M.Fuentes:scopusErratum: Genome of Rhodnius prolixus, an insect vector of Chagas disease, reveals unique adaptations to hematophagy and parasite infection (Proceedings of the National Academy of Sciences of the United States of America (2015) 112 (14936-14941) DOI 10.1073/pnas.1506226112)
OtherAbstract:Palabras claves:Autores:Alves-Bezerra M., Amaral L.R., Araujo H.M., Araujo R.N., Aravind L., Atella G.C., Azambuja P., Berni M., Bittencourt-Cunha P.R., Braz G.R.C., Calderón-Fernández G., Carvalho A.B., Christensen M.B., Claudia C.M., Costa I.R., Costa S.G., Da Fonseca R.N., Dansa M., Daumas-Filho C.R.O., De-Paula I.F., Dias F.A., Dimopoulos G., Emrich S.J., Esponda-Behrens N., Fampa P., Fernandez-Medina R.D., Fernando Abad-Franch, Fontenele M., Fronick C., Fulton L.A., Gandara A.C., Garcia E.S., Genta F.A., Giraldo-Calderón G.I., Gomes B., Gondim K.C., Granzotto A., Guarneri A.A., Guigó R., Harry M., Hughes D.S.T., Jablonka W., Jacquin-Joly E., Juárez M.P., Koerich L.B., Lange A.B., Latorre-Estivalis J.M., Lavore A., Lawrence G.G., Lawson D., Lazoski C., Lazzari C.R., Lopes R.R., Lorenzo M.G., Lowenberger C., Lugon M.D., Majerowicz D., Marcet P.L., Mariotti M., Masuda H., Megy K., Melo A.C.A., Mesquita R.D., Minx P., Missirlis F., Montague M.J., Monteiro F.A., Mota T., Noriega F.G., Nouzova M., Nunes R.D., Oliveir R.L.L., Oliveira-Silveira G., Ons S., Orchard I., Pagola L., Paiva-Silva G.O., Panzera P., Pascual A., Pavan M.G., Pedrini N., Peixoto A.A., Pereira M.H., Pike A., Polycarpo C., Prosdocimi F., Ribeiro J.M.C., Ribeiro-Rodrigues R., Rivera-Pomar R., Robertson H.M., Salerno A.P., Salmon D., Santesmasses D., Schama R., Seabra E.S., Sorgine M.H.F., Spieth J., Torres A.Q., Vionette-Amaral R.J., Waterhouse R.M.Fuentes:scopusEvolution, Systematics, and Biogeography of the Triatominae, Vectors of Chagas Disease
Book PartAbstract: In this chapter, we review and update current knowledge about the evolution, systematics, and biogeoPalabras claves:Biogeography, Chagas disease, EVOLUTION, HEMIPTERA, phylogeny, Reduviidae, SYSTEMATICS, taxonomy, triatominae, VECTORAutores:Felix M., Fernando Abad-Franch, Lazoski C., Monteiro F.A., Weirauch C.Fuentes:scopusEcology, evolution, and the long-term surveillance of vector-borne Chagas disease: A multi-scale appraisal of the tribe Rhodniini (Triatominae)
ArticleAbstract: Chagas disease incidence has sharply declined over the last decade. Long-term disease control will,Palabras claves:Biogeography, Chagas disease surveillance, Ecology, EVOLUTION, Rhodniini, Rhodnius nasutus, Rhodnius neglectus, Species composition, Species richness, triatominaeAutores:Dias F.B.S., Diotaiuti L., Fernando Abad-Franch, Gurgel-Gonçalves R., Jaramillo-Ocampo N., Monteiro F.A.Fuentes:scopusMolecular research and the control of Chagas disease vectors
ArticleAbstract: Chagas disease control initiatives are yielding promising results. Molecular research has helped sucPalabras claves:Allozymes, Chagas disease, DNA, Molecular systematics, triatominaeAutores:Fernando Abad-Franch, Monteiro F.A.Fuentes:scopusOn palms, bugs, and Chagas disease in the Americas
ArticleAbstract: Palms are ubiquitous across Neotropical landscapes, from pristine forests or savannahs to large citiPalabras claves:ARECACEAE, Chagas disease, Palms, Rhodnius, Site-occupancy, triatominae, Vector ecologyAutores:Angulo V.M., Bar M.E., Calzada J.E., Dias F.B.S., Diotaiuti L., Esteban L., Fernando Abad-Franch, Francisco S. Palomeque, Gottdenker N.L., Gurgel-Gonçalves R., Lima M.M., Monteiro F.A., Saldaña A., Sánchez-Martín M., Santos W.S., Sarquis O.Fuentes:scopusMitochondrial DNA Variation of Triatoma infestans Populations and its Implication on the Specific Status of T. melanosoma
ArticleAbstract: DNA sequence comparison of 412 base-pairs fragments of the mitochondrial cytochrome B gene was usedPalabras claves:Allozymes, Chagas disease vectors, Cytogenetics, mitochondrial DNA, Molecular systematics, phylogeny, Triatoma infestans, Triatoma melanosomaAutores:Beard C.B., Galvão C., Jean Pierre Al Dujardin, Monteiro F.A., Noireau F., Panzera P., Pérez R., Rocha D., Schofield C.J.Fuentes:scopusMitochondrial DNA sequence variation among triatomine vectors of Chagas' disease
ArticleAbstract: Kissing bugs or triatomines (Reduviidae: Triatominae) are vectors of the Chagas' disease agent TrypaPalabras claves:Autores:Beard C.B., Cordon-Rosales C., Escalante A., Jean Pierre Al Dujardin, Lyman D., Monteiro F.A., Wesson D.M.Fuentes:scopus