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Annals of Tropical Medicine & Parasitology Volume 83, 1989 - Issue 3
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Original Articles

Parasite/host-interrelationships of the trypanosomatids Trypanosoma cruzi and Blastocrithidia triatomae and the reduviid bug Triatoma infestans: influence of starvation of the bug

G. A. SchaubInstitut für Biologie I (Zoologie), Albert-Ludwigs-Universität, Alberstr. 21 a, D-7800Freiburg, Federal Republic of Germany
&
Petra LöschInstitut für Biologie I (Zoologie), Albert-Ludwigs-Universität, Alberstr. 21 a, D-7800Freiburg, Federal Republic of Germany
Pages 215-223 | Received 11 Apr 1988, Published online: 15 Nov 2016

Citations (44)

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Günter A Schaub. (2021) An Update on the Knowledge of Parasite–Vector Interactions of Chagas Disease. Research and Reports in Tropical Medicine 12, pages 63-76.
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Articles from other publishers (43)

Henri Loshouarn & Alessandra A. Guarneri. (2024) The interplay between temperature, Trypanosoma cruzi parasite load, and nutrition: Their effects on the development and life-cycle of the Chagas disease vector Rhodnius prolixus. PLOS Neglected Tropical Diseases 18:2, pages e0011937.
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Francisco Chacón, Antonella Bacigalupo, Bárbara Álvarez-Duhart, Pedro E. Cattan, Rigoberto Solís & Catalina Muñoz-San Martín. (2022) The Parasite Load of Trypanosoma cruzi Modulates Feeding and Defecation Patterns of the Chagas Disease Vector Triatoma infestans. Microorganisms 10:5, pages 1003.
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Alexander O. Frolov, Alexei Y. Kostygov & Vyacheslav Yurchenko. (2021) Development of Monoxenous Trypanosomatids and Phytomonads in Insects. Trends in Parasitology 37:6, pages 538-551.
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Alessandra A. Guarneri & Günter A. Schaub. 2021. Triatominae - The Biology of Chagas Disease Vectors. Triatominae - The Biology of Chagas Disease Vectors 345 386 .
Daniela Estay-Olea, Juana P. Correa, Sophie de Bona, Antonella Bacigalupo, Nicol Quiroga, Esteban San Juan, Aldo Solari & Carezza Botto-Mahan. (2020) Trypanosoma cruzi could affect wild triatomine approaching behaviour to humans by altering vector nutritional status: A field test. Acta Tropica 210, pages 105574.
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Alexander O. Frolov, Marina N. Malysheva, Anna I. Ganyukova, Viktoria V. Spodareva, Jana Králová, Vyacheslav Yurchenko & Alexei Y. Kostygov. (2020) If host is refractory, insistent parasite goes berserk: Trypanosomatid Blastocrithidia raabei in the dock bug Coreus marginatus. PLOS ONE 15:1, pages e0227832.
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Vanessa Garcia, Johsmar Graterol, Angélica López, Sylvia Ortiz & Aldo Solari. (2019) Influence of Trypanosoma cruzi (Kinetoplastida: Trypanosomatidae) Infection on Mortality of the Sylvatic Triatomine Vector, Mepraia spinolai (Heteroptera: Reuviidae), Under Fasting. Journal of Medical Entomology 56:5, pages 1384-1388.
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A. Mc Cabe, F. Yañez, R. Pinto, A. López, S. Ortiz, C. Muñoz-San Martin, C. Botto-Mahan & A. Solari. (2019) Survivorship of wild caught Mepraia spinolai nymphs: The effect of seasonality and Trypanosoma cruzi infection after feeding and fasting in the laboratory. Infection, Genetics and Evolution 71, pages 197-204.
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Verena Strobl, Orlando Yañez, Lars Straub, Matthias Albrecht & Peter Neumann. (2019) Trypanosomatid parasites infecting managed honeybees and wild solitary bees. International Journal for Parasitology 49:8, pages 605-613.
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Alexander O. Frolov, Marina N. Malysheva, Anna I. Ganyukova, Vyacheslav Yurchenko & Alexei Y. Kostygov. (2018) Obligate development of Blastocrithidia papi (Trypanosomatidae) in the Malpighian tubules of Pyrrhocoris apterus (Hemiptera) and coordination of host-parasite life cycles. PLOS ONE 13:9, pages e0204467.
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ALINE FAUSER, CHRISTOPH SANDROCK, PETER NEUMANN & BEN M. SADD. (2017) Neonicotinoids override a parasite exposure impact on hibernation success of a key bumblebee pollinator. Ecological Entomology 42:3, pages 306-314.
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Alessandra Aparecida Guarneri & Marcelo Gustavo Lorenzo. (2017) Triatomine physiology in the context of trypanosome infection. Journal of Insect Physiology 97, pages 66-76.
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JENNIFER K. PETERSON, ANDREA L. GRAHAM, RYAN J. ELLIOTT, ANDREW P. DOBSON & OMAR TRIANA CHÁVEZ. (2016) Trypanosoma cruzi–Trypanosoma rangeli co-infection ameliorates negative effects of single trypanosome infections in experimentally infected Rhodnius prolixus . Parasitology 143:9, pages 1157-1167.
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Camila Egaña, Raquel Pinto, Fernanda Vergara, Sylvia Ortiz, Ricardo Campos & Aldo Solari.. (2016) Fluctuations in Trypanosoma cruzi discrete typing unit composition in two naturally infected triatomines: Mepraia gajardoi and M. spinolai after laboratory feeding. Acta Tropica 160, pages 9-14.
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Jennifer K. PetersonAndrea L. Graham. (2016) What is the ‘true’ effect of Trypanosoma rangeli on its triatomine bug vector? . Journal of Vector Ecology 41:1, pages 27-33.
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Omar Triana Chávez, Andrea L. Graham, Andrew P. Dobson & Jennifer K. Peterson. (2015) Rhodnius prolixus Life History Outcomes Differ when Infected with Different Trypanosoma cruzi I Strains. The American Journal of Tropical Medicine and Hygiene 93:3, pages 564-572.
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Newmar Pinto Marliére, José Manuel Latorre-Estivalis, Marcelo Gustavo Lorenzo, David Carrasco, Juliana Alves-Silva, Juliana de Oliveira Rodrigues, Luciana de Lima Ferreira, Luisa de Melo Lara, Carl Lowenberger & Alessandra Aparecida Guarneri. (2015) Trypanosomes Modify the Behavior of Their Insect Hosts: Effects on Locomotion and on the Expression of a Related Gene. PLOS Neglected Tropical Diseases 9:8, pages e0003973.
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Simon L. Elliot, Juliana de O. Rodrigues, Marcelo G. Lorenzo, Olindo A. Martins-Filho & Alessandra A. Guarneri. (2015) Trypanosoma cruzi, Etiological Agent of Chagas Disease, Is Virulent to Its Triatomine Vector Rhodnius prolixus in a Temperature-Dependent Manner. PLOS Neglected Tropical Diseases 9:3, pages e0003646.
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Felipe de Almeida Dias, Luiz Ricardo da Costa Vasconcellos, Alexandre Romeiro, Marcia Attias, Thais Cristina Souto-Padrón & Angela Hampshire Lopes. (2014) Transovum Transmission of Trypanosomatid Cysts in the Milkweed Bug, Oncopeltus fasciatus. PLoS ONE 9:9, pages e108746.
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S Gourbière, P Dorn, F Tripet & E Dumonteil. (2011) Genetics and evolution of triatomines: from phylogeny to vector control. Heredity 108:3, pages 190-202.
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Michele Repetto & Blaine D. Griffen. (2012) Physiological consequences of parasite infection in the burrowing mud shrimp, Upogebia pugettensis, a widespread ecosystem engineer. Marine and Freshwater Research 63:1, pages 60.
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Carsten Balczun, Christian K. Meiser & Günter A. Schaub. 2012. Arthropods as Vectors of Emerging Diseases. Arthropods as Vectors of Emerging Diseases 275 299 .
Günter A. Schaub, Christian K. Meiser & Carsten Balczun. 2011. Progress in Parasitology. Progress in Parasitology 155 178 .
Christian Karl Meiser & Günter A. Schaub. 2011. Nature Helps.... Nature Helps... 273 299 .
André Stadler, Christian Karl Meiser & Günter A. Schaub. 2011. Nature Helps.... Nature Helps... 243 271 .
M. ACUÑA‐RETAMAR, C. BOTTO‐MAHAN, M. CANALS, J. P. CORREA & P. E. CATTAN. (2009) Comparative population dynamics of the bug Mepraia spinolai , a sylvatic vector of Chagas’ disease, in different hosts . Medical and Veterinary Entomology 23:2, pages 106-110.
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Günter A. Schaub. 2009. 177 242 .
Catarina A.C. Araújo, Peter J. Waniek & Ana M. Jansen. (2008) Development of a Trypanosoma cruzi (TcI) isolate in the digestive tract of an unfamiliar vector, Triatoma brasiliensis (Hemiptera, Reduviidae). Acta Tropica 107:2, pages 195-199.
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Günter A. Schaub. (2006) Parasitogenic alterations of vector behaviour. International Journal of Medical Microbiology 296, pages 37-40.
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Mark J. F. Brown, Regula Schmid‐Hempel & Paul Schmid‐Hempel. (2003) Strong context‐dependent virulence in a host–parasite system: reconciling genetic evidence with theory. Journal of Animal Ecology 72:6, pages 994-1002.
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P. Bonay, R. Molina & M. Fresno. (2001) Binding specificity of mannose-specific carbohydrate-binding protein from the cell surface of Trypanosoma cruzi. Glycobiology 11:9, pages 719-729.
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Astrid Kollien & Günter Schaub. (2000) The Development of Trypanosoma cruzi in Triatominae. Parasitology Today 16:9, pages 381-387.
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Astrid H. Kollien & Günter A. Schaub. (2007) The Development of Trypanosoma cruzi (Trypanosomatidae) in the Reduviid Bug Triatoma infestans (Insecta): Influence of Starvation. Journal of Eukaryotic Microbiology 45:1, pages 59-63.
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R H Gooding. (1996) Genetic variation in arthropod vectors of disease-causing organisms: obstacles and opportunities. Clinical Microbiology Reviews 9:3, pages 301-320.
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G.A. Schaub. (1994) Pathogenicity of trypanosomatids on insects. Parasitology Today 10:12, pages 463-468.
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Günter A. Schaub. 1992. Advances in Parasitology Volume 31. Advances in Parasitology Volume 31 255 319 .
Günter A. Schaub. (1991) Pathological effects of Blastocrithidia triatomae (Trypanosomatidae) on the reduviid bug Triatoma infestans after infection by membrane feeding and long-tern starvation. Journal of Invertebrate Pathology 58:1, pages 57-66.
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Günter A. Schaub. (1990) The effect of Blastocrithidia triatomae (Trypanosomatidae) on the reduviid bug Triatoma infestans: Influence of group size. Journal of Invertebrate Pathology 56:2, pages 249-257.
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G. Arnqvist & M. Mäki. (1990) Infection rates and pathogenicity of trypanosomatid gut parasites in the water strider Gerris odontogaster (Zett.) (Heteroptera: Gerridae). Oecologia 84:2, pages 194-198.
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C. Jensen, G. A. Schaub & D. H. Molyneux. (2009) The effect of Blastocrithidia triatomae (Trypanosomatidae) on the midgut of the reduviid bug Triatoma infestans . Parasitology 100:1, pages 1-9.
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Günter A. Schaub & Cord Jensen. (1990) Developmental time and mortality of the reduviid bug Triatoma infestans with differential exposure to coprophagic infections with Blastocrithidia triatomae (Trypanosomatidae). Journal of Invertebrate Pathology 55:1, pages 17-27.
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Günter A. Schaub, Angela Schmidt & Johannes Ullrich. (1990) The effect of moulting and of infection with Blastocrithidia triatomae (Trypanosomatidae) on the concentration of free amino acids in the haemolymph of the reduviid bug Triatoma infestans. Journal of Insect Physiology 36:11, pages 843-853.
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G. A. Schaub. (1990) Membrane feeding for infection of the reduviid bugTriatoma infestans withBlastocrithidia triatomae (Trypanosomatidae) and pathogenic effects of the flagellate. Parasitology Research 76:4, pages 306-310.
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