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Journal Abstract Search

226 related items for PubMed ID: 15893326

  • 1. Identification of amino acid residues in the human immunodeficiency virus type-1 reverse transcriptase tryptophan-repeat motif that are required for subunit interaction using infectious virions.
    Mulky A, Sarafianos SG, Jia Y, Arnold E, Kappes JC.
    J Mol Biol; 2005 Jun 17; 349(4):673-84. PubMed ID: 15893326
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  • 2. Analysis of amino acids in the beta7-beta8 loop of human immunodeficiency virus type 1 reverse transcriptase for their role in virus replication.
    Mulky A, Vu BC, Conway JA, Hughes SH, Kappes JC.
    J Mol Biol; 2007 Feb 02; 365(5):1368-78. PubMed ID: 17141805
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  • 3. The N137 and P140 amino acids in the p51 and the P95 amino acid in the p66 subunit of human immunodeficiency virus type 1 (HIV-1) reverse transcriptase are instrumental to maintain catalytic activity and to design new classes of anti-HIV-1 drugs.
    Auwerx J, Van Nieuwenhove J, Rodríguez-Barrios F, de Castro S, Velázquez S, Ceccherini-Silberstein F, De Clercq E, Camarasa MJ, Perno CF, Gago F, Balzarini J.
    FEBS Lett; 2005 Apr 25; 579(11):2294-300. PubMed ID: 15848161
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  • 4. Subunit-specific analysis of the human immunodeficiency virus type 1 reverse transcriptase in vivo.
    Mulky A, Sarafianos SG, Arnold E, Wu X, Kappes JC.
    J Virol; 2004 Jul 25; 78(13):7089-96. PubMed ID: 15194785
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  • 5. Role of residues in the tryptophan repeat motif for HIV-1 reverse transcriptase dimerization.
    Tachedjian G, Aronson HE, de los Santos M, Seehra J, McCoy JM, Goff SP.
    J Mol Biol; 2003 Feb 14; 326(2):381-96. PubMed ID: 12559908
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  • 6. Glutamic residue 438 within the protease-sensitive subdomain of HIV-1 reverse transcriptase is critical for heterodimer processing in viral particles.
    Navarro JM, Damier L, Boretto J, Priet S, Canard B, Quérat G, Sire J.
    Virology; 2001 Nov 25; 290(2):300-8. PubMed ID: 11883194
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  • 7. Insight into the mechanism of a peptide inhibitor of HIV reverse transcriptase dimerization.
    Depollier J, Hourdou ML, Aldrian-Herrada G, Rothwell P, Restle T, Divita G.
    Biochemistry; 2005 Feb 15; 44(6):1909-18. PubMed ID: 15697216
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  • 8. Effects of efavirenz binding on the subunit equilibria of HIV-1 reverse transcriptase.
    Venezia CF, Howard KJ, Ignatov ME, Holladay LA, Barkley MD.
    Biochemistry; 2006 Mar 07; 45(9):2779-89. PubMed ID: 16503633
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  • 9. The amino acid Asn136 in HIV-1 reverse transcriptase (RT) maintains efficient association of both RT subunits and enables the rational design of novel RT inhibitors.
    Balzarini J, Auwerx J, Rodríguez-Barrios F, Chedad A, Farkas V, Ceccherini-Silberstein F, García-Aparicio C, Velázquez S, De Clercq E, Perno CF, Camarasa MJ, Gago F.
    Mol Pharmacol; 2005 Jul 07; 68(1):49-60. PubMed ID: 15833734
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  • 14. Proteolytic processing of an HIV-1 pol polyprotein precursor: insights into the mechanism of reverse transcriptase p66/p51 heterodimer formation.
    Sluis-Cremer N, Arion D, Abram ME, Parniak MA.
    Int J Biochem Cell Biol; 2004 Sep 07; 36(9):1836-47. PubMed ID: 15183348
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  • 18. p66 Trp24 and Phe61 are essential for accurate association of HIV-1 reverse transcriptase with primer/template.
    Agopian A, Depollier J, Lionne C, Divita G.
    J Mol Biol; 2007 Oct 12; 373(1):127-40. PubMed ID: 17804012
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  • 19. Identification of amino acid residues in HIV-1 reverse transcriptase that are critical for the proteolytic processing of Gag-Pol precursors.
    Nishitsuji H, Yokoyama M, Sato H, Yamauchi S, Takaku H.
    FEBS Lett; 2011 Nov 04; 585(21):3372-7. PubMed ID: 22004763
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  • 20. Tryptophan scanning mutagenesis of aromatic residues within the polymerase domain of HIV-1 reverse transcriptase: critical role of Phe-130 for p51 function and second-site revertant restoring viral replication capacity.
    Olivares I, Gutiérrez-Rivas M, López-Galíndez C, Menéndez-Arias L.
    Virology; 2004 Jul 01; 324(2):400-11. PubMed ID: 15207625
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