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Journal Abstract Search

588 related items for PubMed ID: 26818093

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  • 3. Mixed domestic infestation by Rhodnius prolixus Stal, 1859 and Panstrongylus geniculatus Latreille, 1811, vector incrimination, and seroprevalence for Trypanosoma cruzi among inhabitants in El Guamito, Lara State, Venezuela.
    Feliciangeli MD, Carrasco H, Patterson JS, Suarez B, Martínez C, Medina M.
    Am J Trop Med Hyg; 2004 Oct; 71(4):501-5. PubMed ID: 15516649
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  • 4. Involvement of sulfated glycosaminoglycans on the development and attachment of Trypanosoma cruzi to the luminal midgut surface in the vector, Rhodnius prolixus.
    Gonzalez MS, Silva LC, Albuquerque-Cunha JM, Nogueira NF, Mattos DP, Castro DP, Azambuja P, Garcia ES.
    Parasitology; 2011 Dec; 138(14):1870-7. PubMed ID: 21902871
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  • 5. Bioactive lipids regulate Trypanosoma cruzi development.
    Chagas-Lima AC, Pereira MG, Fampa P, Lima MS, Kluck GEG, Atella GC.
    Parasitol Res; 2019 Sep; 118(9):2609-2619. PubMed ID: 31267245
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  • 7. Parasite polymorphism may serve to enhance fitness in different host environments.
    Takano-Lee M, Edman JD, Herrera EM, Tussie-Luna MI, Pereira ME.
    Vector Borne Zoonotic Dis; 2002 Sep; 2(1):29-36. PubMed ID: 12656128
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  • 9. A Kazal-type inhibitor is modulated by Trypanosoma cruzi to control microbiota inside the anterior midgut of Rhodnius prolixus.
    Soares TS, Buarque DS, Queiroz BR, Gomes CM, Braz GR, Araújo RN, Pereira MH, Guarneri AA, Tanaka AS.
    Biochimie; 2015 May; 112():41-8. PubMed ID: 25731714
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  • 10. TcI/TcII co-infection can enhance Trypanosoma cruzi growth in Rhodnius prolixus.
    Araújo CA, Waniek PJ, Jansen AM.
    Parasit Vectors; 2014 Mar 04; 7():94. PubMed ID: 24593987
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  • 11. Trypanosoma cruzi, etiological agent of Chagas disease, is virulent to its triatomine vector Rhodnius prolixus in a temperature-dependent manner.
    Elliot SL, Rodrigues Jde O, Lorenzo MG, Martins-Filho OA, Guarneri AA.
    PLoS Negl Trop Dis; 2015 Mar 04; 9(3):e0003646. PubMed ID: 25793495
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  • 12. Trypanosoma cruzi: effects of azadirachtin and ecdysone on the dynamic development in Rhodnius prolixus larvae.
    Cortez MR, Provençano A, Silva CE, Mello CB, Zimmermann LT, Schaub GA, Garcia ES, Azambuja P, Gonzalez MS.
    Exp Parasitol; 2012 Jul 04; 131(3):363-71. PubMed ID: 22626520
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  • 13. Trypanosoma cruzi: involvement of glycoinositolphospholipids in the attachment to the luminal midgut surface of Rhodnius prolixus.
    Nogueira NF, Gonzalez MS, Gomes JE, de Souza W, Garcia ES, Azambuja P, Nohara LL, Almeida IC, Zingales B, Colli W.
    Exp Parasitol; 2007 Jun 04; 116(2):120-8. PubMed ID: 17306256
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  • 14. Effects of Trypanosoma cruzi on the phenoloxidase and prophenoloxidase activity in the vector Meccus pallidipennis (Hemiptera: Reduviidae).
    Favila-Ruiz G, Jiménez-Cortés JG, Córdoba-Aguilar A, Salazar-Schettino PM, Gutiérrez-Cabrera AE, Pérez-Torres A, De Fuentes-Vicente JA, Vences-Blanco MO, Bucio-Torres MI, Flores-Villegas AL, Cabrera-Bravo M.
    Parasit Vectors; 2018 Jul 27; 11(1):434. PubMed ID: 30053904
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  • 15. Trypanosoma cruzi TcSMUG L-surface mucins promote development and infectivity in the triatomine vector Rhodnius prolixus.
    Gonzalez MS, Souza MS, Garcia ES, Nogueira NF, Mello CB, Cánepa GE, Bertotti S, Durante IM, Azambuja P, Buscaglia CA.
    PLoS Negl Trop Dis; 2013 Nov 27; 7(11):e2552. PubMed ID: 24244781
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  • 16. Exposure to Trypanosoma parasites induces changes in the microbiome of the Chagas disease vector Rhodnius prolixus.
    Eberhard FE, Klimpel S, Guarneri AA, Tobias NJ.
    Microbiome; 2022 Mar 10; 10(1):45. PubMed ID: 35272716
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