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Journal Abstract Search

404 related items for PubMed ID: 1444271

  • 41. Key proteins in the polyamine-trypanothione pathway as drug targets against Trypanosoma cruzi.
    Maya JD, Salas CO, Aguilera-Venegas B, Diaz MV, López-Muñoz R.
    Curr Med Chem; 2014; 21(15):1757-71. PubMed ID: 24251576
    [Abstract] [Full Text] [Related]

  • 42. Stress-Induced Protein S-Glutathionylation and S-Trypanothionylation in African Trypanosomes-A Quantitative Redox Proteome and Thiol Analysis.
    Ulrich K, Finkenzeller C, Merker S, Rojas F, Matthews K, Ruppert T, Krauth-Siegel RL.
    Antioxid Redox Signal; 2017 Sep 20; 27(9):517-533. PubMed ID: 28338335
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  • 43. Targeting Trypanothione Metabolism in Trypanosomatids.
    González-Montero MC, Andrés-Rodríguez J, García-Fernández N, Pérez-Pertejo Y, Reguera RM, Balaña-Fouce R, García-Estrada C.
    Molecules; 2024 May 09; 29(10):. PubMed ID: 38792079
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  • 44. Substrate specificity of trypanothione reductase.
    Marsh IR, Bradley M.
    Eur J Biochem; 1997 Feb 01; 243(3):690-4. PubMed ID: 9057833
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  • 45. In vivo effects of difluoromethylornithine on trypanothione and polyamine levels in bloodstream forms of Trypanosoma brucei.
    Fairlamb AH, Henderson GB, Bacchi CJ, Cerami A.
    Mol Biochem Parasitol; 1987 Jun 01; 24(2):185-91. PubMed ID: 3114634
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  • 46. Trypanothione efficiently intercepts nitric oxide as a harmless iron complex in trypanosomatid parasites.
    Bocedi A, Dawood KF, Fabrini R, Federici G, Gradoni L, Pedersen JZ, Ricci G.
    FASEB J; 2010 Apr 01; 24(4):1035-42. PubMed ID: 19952282
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  • 47. Mono- and dithiol glutaredoxins in the trypanothione-based redox metabolism of pathogenic trypanosomes.
    Comini MA, Krauth-Siegel RL, Bellanda M.
    Antioxid Redox Signal; 2013 Sep 01; 19(7):708-22. PubMed ID: 22978520
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  • 52. The trypanothione system and its implications in the therapy of trypanosomatid diseases.
    Flohé L.
    Int J Med Microbiol; 2012 Oct 01; 302(4-5):216-20. PubMed ID: 22889611
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  • 53. Mutational analysis of parasite trypanothione reductase: acquisition of glutathione reductase activity in a triple mutant.
    Sullivan FX, Sobolov SB, Bradley M, Walsh CT.
    Biochemistry; 1991 Mar 19; 30(11):2761-7. PubMed ID: 2007114
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  • 54. The dithiol glutaredoxins of african trypanosomes have distinct roles and are closely linked to the unique trypanothione metabolism.
    Ceylan S, Seidel V, Ziebart N, Berndt C, Dirdjaja N, Krauth-Siegel RL.
    J Biol Chem; 2010 Nov 05; 285(45):35224-37. PubMed ID: 20826822
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  • 57. Genetic and chemical analyses reveal that trypanothione synthetase but not glutathionylspermidine synthetase is essential for Leishmania infantum.
    Sousa AF, Gomes-Alves AG, Benítez D, Comini MA, Flohé L, Jaeger T, Passos J, Stuhlmann F, Tomás AM, Castro H.
    Free Radic Biol Med; 2014 Aug 05; 73():229-38. PubMed ID: 24853758
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  • 58. Targeting the polyamine biosynthetic enzymes: a promising approach to therapy of African sleeping sickness, Chagas' disease, and leishmaniasis.
    Heby O, Persson L, Rentala M.
    Amino Acids; 2007 Aug 05; 33(2):359-66. PubMed ID: 17610127
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  • 59. Substrate interactions between trypanothione reductase and N1-glutathionylspermidine disulphide at 0.28-nm resolution.
    Bailey S, Smith K, Fairlamb AH, Hunter WN.
    Eur J Biochem; 1993 Apr 01; 213(1):67-75. PubMed ID: 8477734
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  • 60. Ellman's-reagent-mediated regeneration of trypanothione in situ: substrate-economical microplate and time-dependent inhibition assays for trypanothione reductase.
    Hamilton CJ, Saravanamuthu A, Eggleston IM, Fairlamb AH.
    Biochem J; 2003 Feb 01; 369(Pt 3):529-37. PubMed ID: 12416994
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