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Journal Abstract Search

325 related items for PubMed ID: 29845414

  • 1. Avian malaria co-infections confound infectivity and vector competence assays of Plasmodium homopolare.
    Carlson JS, Nelms B, Barker CM, Reisen WK, Sehgal RNM, Cornel AJ.
    Parasitol Res; 2018 Aug; 117(8):2385-2394. PubMed ID: 29845414
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  • 2. A method to preserve low parasitaemia Plasmodium-infected avian blood for host and vector infectivity assays.
    Carlson JS, Giannitti F, Valkiūnas G, Tell LA, Snipes J, Wright S, Cornel AJ.
    Malar J; 2016 Mar 11; 15():154. PubMed ID: 26969510
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  • 3. The effect of dietary antioxidant supplementation in a vertebrate host on the infection dynamics and transmission of avian malaria to the vector.
    Delhaye J, Glaizot O, Christe P.
    Parasitol Res; 2018 Jul 11; 117(7):2043-2052. PubMed ID: 29744700
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  • 4. Plasmodium relictum (lineages pSGS1 and pGRW11): complete synchronous sporogony in mosquitoes Culex pipiens pipiens.
    Kazlauskienė R, Bernotienė R, Palinauskas V, Iezhova TA, Valkiūnas G.
    Exp Parasitol; 2013 Apr 11; 133(4):454-61. PubMed ID: 23337824
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  • 5. Description, molecular characterisation, diagnostics and life cycle of Plasmodium elongatum (lineage pERIRUB01), the virulent avian malaria parasite.
    Palinauskas V, Žiegytė R, Iezhova TA, Ilgūnas M, Bernotienė R, Valkiūnas G.
    Int J Parasitol; 2016 Oct 11; 46(11):697-707. PubMed ID: 27349510
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  • 6. Complete sporogony of Plasmodium relictum (lineages pSGS1 and pGRW11) in mosquito Culex pipiens pipiens form molestus, with implications to avian malaria epidemiology.
    Žiegytė R, Bernotienė R, Bukauskaitė D, Palinauskas V, Iezhova T, Valkiūnas G.
    J Parasitol; 2014 Dec 11; 100(6):878-82. PubMed ID: 24979183
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  • 7. Plasmodium spp.: an experimental study on vertebrate host susceptibility to avian malaria.
    Dimitrov D, Palinauskas V, Iezhova TA, Bernotienė R, Ilgūnas M, Bukauskaitė D, Zehtindjiev P, Ilieva M, Shapoval AP, Bolshakov CV, Markovets MY, Bensch S, Valkiūnas G.
    Exp Parasitol; 2015 Jan 11; 148():1-16. PubMed ID: 25450775
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  • 8. Molecular characterization and distribution of Plasmodium matutinum, a common avian malaria parasite.
    Valkiūnas G, Ilgūnas M, Bukauskaitė D, Palinauskas V, Bernotienė R, Iezhova TA.
    Parasitology; 2017 Nov 11; 144(13):1726-1735. PubMed ID: 28931453
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  • 10. Culex quinquefasciatus (Diptera: Culicidae) survivorship following the ingestion of bird blood infected with Haemoproteus sp. parasites.
    Adams DR, Golnar AJ, Hamer SA, Slotman MA, Hamer GL.
    Parasitol Res; 2021 Jul 11; 120(7):2343-2350. PubMed ID: 34110501
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  • 11. Transcriptional response of individual Hawaiian Culex quinquefasciatus mosquitoes to the avian malaria parasite Plasmodium relictum.
    Ferreira FC, Videvall E, Seidl CM, Wagner NE, Kilpatrick AM, Fleischer RC, Fonseca DM.
    Malar J; 2022 Aug 29; 21(1):249. PubMed ID: 36038897
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  • 16. Identifying avian malaria vectors: sampling methods influence outcomes.
    Carlson JS, Walther E, TroutFryxell R, Staley S, Tell LA, Sehgal RN, Barker CM, Cornel AJ.
    Parasit Vectors; 2015 Jul 11; 8():365. PubMed ID: 26160384
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  • 17. Vector incrimination and transmission of avian malaria at an aquarium in Japan: mismatch in parasite composition between mosquitoes and penguins.
    Inumaru M, Yamada A, Shimizu M, Ono A, Horinouchi M, Shimamoto T, Tsuda Y, Murata K, Sato Y.
    Malar J; 2021 Mar 06; 20(1):136. PubMed ID: 33676517
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  • 18. Dynamics of prevalence and diversity of avian malaria infections in wild Culex pipiens mosquitoes: the effects of Wolbachia, filarial nematodes and insecticide resistance.
    Zélé F, Vézilier J, L'Ambert G, Nicot A, Gandon S, Rivero A, Duron O.
    Parasit Vectors; 2014 Sep 16; 7():437. PubMed ID: 25228147
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