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Journal Abstract Search

186 related items for PubMed ID: 23718711

  • 21. Computational prediction of microRNAs from Toxoplasma gondii potentially regulating the hosts' gene expression.
    Saçar MD, Bağcı C, Allmer J.
    Genomics Proteomics Bioinformatics; 2014 Oct; 12(5):228-38. PubMed ID: 25462155
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  • 22. Trypanosoma cruzi and Toxoplasma gondii Induce a Differential MicroRNA Profile in Human Placental Explants.
    Medina L, Castillo C, Liempi A, Guerrero-Muñoz J, Rojas-Pirela M, Maya JD, Prieto H, Kemmerling U.
    Front Immunol; 2020 Oct; 11():595250. PubMed ID: 33240284
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  • 25. Dual transcriptional profiling of mice and Toxoplasma gondii during acute and chronic infection.
    Pittman KJ, Aliota MT, Knoll LJ.
    BMC Genomics; 2014 Sep 20; 15(1):806. PubMed ID: 25240600
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  • 29. Transcriptomic analysis of mouse liver reveals a potential hepato-enteric pathogenic mechanism in acute Toxoplasma gondii infection.
    He JJ, Ma J, Elsheikha HM, Song HQ, Huang SY, Zhu XQ.
    Parasit Vectors; 2016 Aug 03; 9(1):427. PubMed ID: 27488578
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  • 30. The host-parasite relationship of Toxoplasma gondii in the brains of chronically infected mice.
    Ferguson DJ, Hutchison WM.
    Virchows Arch A Pathol Anat Histopathol; 1987 Aug 03; 411(1):39-43. PubMed ID: 3107207
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  • 31. Differential Brain MicroRNA Expression Profiles After Acute and Chronic Infection of Mice With Toxoplasma gondii Oocysts.
    Hu RS, He JJ, Elsheikha HM, Zhang FK, Zou Y, Zhao GH, Cong W, Zhu XQ.
    Front Microbiol; 2018 Aug 03; 9():2316. PubMed ID: 30333806
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  • 32. Quantitative assessment of the effects of sulfamethoxazole on Toxoplasma gondii loads in susceptible WT C57BL/6 mice as an immunocompetent host model.
    Belal US, Norose K, Mohamed RM, Sekine S, Nukaga T, Ito K, Abdellatif MZ, Abdelgelil NH, Yano A.
    Parasitol Int; 2016 Feb 03; 65(1):1-4. PubMed ID: 26384856
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  • 33. A quantitative competitive PCR method to determine the parasite load in the brain of Toxoplasma gondii-infected mice.
    Piña-Vázquez C, Saavedra R, Hérion P.
    Parasitol Int; 2008 Sep 03; 57(3):347-53. PubMed ID: 18456545
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  • 34. Study on the effect of koumiss on the intestinal microbiota of mice infected with Toxoplasma gondii.
    Yan X, Han W, Jin X, Sun Y, Gao J, Yu X, Guo J.
    Sci Rep; 2022 Jan 24; 12(1):1271. PubMed ID: 35075239
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  • 35. Association of host cell intermediate filaments with Toxoplasma gondii cysts in murine astrocytes in vitro.
    Halonen SK, Weiss LM, Chiu FC.
    Int J Parasitol; 1998 May 24; 28(5):815-23. PubMed ID: 9650062
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  • 36. 4D label-free proteomic analysis reveals key potential pathways of Toxoplasma invasion into the central nervous system.
    Ren Z, Yang Z, Yuan H, Song Y, He H, Nie L, Wang X, Yuan ZG, Zhang XX.
    Int Immunopharmacol; 2024 Sep 10; 138():112618. PubMed ID: 38996663
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  • 37. A comparative study of small RNAs in Toxoplasma gondii of distinct genotypes.
    Wang J, Liu X, Jia B, Lu H, Peng S, Piao X, Hou N, Cai P, Yin J, Jiang N, Chen Q.
    Parasit Vectors; 2012 Sep 03; 5():186. PubMed ID: 22943187
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  • 38. Toxoplasma gondii Requires Glycogen Phosphorylase for Balancing Amylopectin Storage and for Efficient Production of Brain Cysts.
    Sugi T, Tu V, Ma Y, Tomita T, Weiss LM.
    mBio; 2017 Aug 29; 8(4):. PubMed ID: 28851850
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  • 39. Z-DNA Binding Protein Mediates Host Control of Toxoplasma gondii Infection.
    Pittman KJ, Cervantes PW, Knoll LJ.
    Infect Immun; 2016 Oct 29; 84(10):3063-70. PubMed ID: 27481249
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  • 40. Long-Term Relationships: the Complicated Interplay between the Host and the Developmental Stages of Toxoplasma gondii during Acute and Chronic Infections.
    Pittman KJ, Knoll LJ.
    Microbiol Mol Biol Rev; 2015 Dec 29; 79(4):387-401. PubMed ID: 26335719
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