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Journal Abstract Search

709 related items for PubMed ID: 16469295

  • 1. The effects of blood feeding and exogenous supply of tryptophan on the quantities of xanthurenic acid in the salivary glands of Anopheles stephensi (Diptera: Culicidae).
    Okech B, Arai M, Matsuoka H.
    Biochem Biophys Res Commun; 2006 Mar 24; 341(4):1113-8. PubMed ID: 16469295
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  • 3. Malaria infectivity of xanthurenic acid-deficient anopheline mosquitoes produced by TALEN-mediated targeted mutagenesis.
    Yamamoto DS, Sumitani M, Hatakeyama M, Matsuoka H.
    Transgenic Res; 2018 Feb 24; 27(1):51-60. PubMed ID: 29349579
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  • 4. The role of the mosquito peritrophic membrane in bloodmeal digestion and infectivity of Plasmodium species.
    Billingsley PF, Rudin W.
    J Parasitol; 1992 Jun 24; 78(3):430-40. PubMed ID: 1597785
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  • 5. [Effect of anti-mosquito-midgut antibodies on the development of oocysts of Plasmodium yoelii in Anopheles stephensi].
    Wei QF, Gao XZ.
    Zhongguo Ji Sheng Chong Xue Yu Ji Sheng Chong Bing Za Zhi; 2000 Jun 24; 18(4):197-9. PubMed ID: 12567656
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  • 6. Blocking of malaria parasite development in mosquito and fecundity reduction by midgut antibodies in Anopheles stephensi (Diptera: Culicidae).
    Suneja A, Gulia M, Gakhar SK.
    Arch Insect Biochem Physiol; 2003 Feb 24; 52(2):63-70. PubMed ID: 12529861
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  • 7. Mosquito-Plasmodium interactions in response to immune activation of the vector.
    Lowenberger CA, Kamal S, Chiles J, Paskewitz S, Bulet P, Hoffmann JA, Christensen BM.
    Exp Parasitol; 1999 Jan 24; 91(1):59-69. PubMed ID: 9920043
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  • 8. Salivary gland transcriptome analysis during Plasmodium infection in malaria vector Anopheles stephensi.
    Dixit R, Sharma A, Mourya DT, Kamaraju R, Patole MS, Shouche YS.
    Int J Infect Dis; 2009 Sep 24; 13(5):636-46. PubMed ID: 19128996
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  • 11. Re-ingestion of Plasmodium berghei sporozoites after delivery into the host by mosquitoes.
    Kebaier C, Vanderberg JP.
    Am J Trop Med Hyg; 2006 Dec 24; 75(6):1200-4. PubMed ID: 17172393
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  • 12. Identification of xanthurenic acid as the putative inducer of malaria development in the mosquito.
    Billker O, Lindo V, Panico M, Etienne AE, Paxton T, Dell A, Rogers M, Sinden RE, Morris HR.
    Nature; 1998 Mar 19; 392(6673):289-92. PubMed ID: 9521324
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  • 15. [Effect of anti-midgut-protein-ingredient antibodies of Anopheles stephensi on the oocysts of Plasmodium yoelii].
    Wei QF, Zeng LE, Sun BQ, Shao CL, Wang FY, Zhu XP.
    Zhongguo Ji Sheng Chong Xue Yu Ji Sheng Chong Bing Za Zhi; 2006 Dec 19; 24(6):441-4. PubMed ID: 17366975
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  • 17. Disruption of the Plasmodium berghei 2-Cys peroxiredoxin TPx-1 gene hinders the sporozoite development in the vector mosquito.
    Yano K, Otsuki H, Arai M, Komaki-Yasuda K, Tsuboi T, Torii M, Kano S, Kawazu S.
    Mol Biochem Parasitol; 2008 Jun 19; 159(2):142-5. PubMed ID: 18417228
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  • 18. Plasmodium yoelii sporozoite infectivity varies as a function of sporozoite loads in Anopheles stephensi mosquitoes.
    Pumpuni CB, Mendis C, Beier JC.
    J Parasitol; 1997 Aug 19; 83(4):652-5. PubMed ID: 9267407
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  • 19. Artificial nighttime lighting impacts Plasmodium falciparum mature stage V gametocytes infectivity in Anopheles stephensi.
    Llergo JL, Garuti H, Lopez C, Sanchez J, Calvo D.
    Malar J; 2024 Feb 08; 23(1):42. PubMed ID: 38326842
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  • 20. Effect of anti-mosquito midgut antibodies on development of malaria parasite, Plasmodium vivax and fecundity in vector mosquito Anopheles culicifacies (Diptera: culicidae).
    Chugh M, Adak T, Sehrawat N, Gakhar SK.
    Indian J Exp Biol; 2011 Apr 08; 49(4):245-53. PubMed ID: 21614887
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