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Journal Abstract Search

249 related items for PubMed ID: 30481318

  • 1. An ultra-high affinity ligand of HIV-1 TAR reveals the RNA structure recognized by P-TEFb.
    Shortridge MD, Wille PT, Jones AN, Davidson A, Bogdanovic J, Arts E, Karn J, Robinson JA, Varani G.
    Nucleic Acids Res; 2019 Feb 20; 47(3):1523-1531. PubMed ID: 30481318
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  • 2. Face-time with TAR: Portraits of an HIV-1 RNA with diverse modes of effector recognition relevant for drug discovery.
    Chavali SS, Bonn-Breach R, Wedekind JE.
    J Biol Chem; 2019 Jun 14; 294(24):9326-9341. PubMed ID: 31080171
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  • 3. AFF4 binding to Tat-P-TEFb indirectly stimulates TAR recognition of super elongation complexes at the HIV promoter.
    Schulze-Gahmen U, Lu H, Zhou Q, Alber T.
    Elife; 2014 Apr 24; 3():e02375. PubMed ID: 24843025
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  • 4. Transition step during assembly of HIV Tat:P-TEFb transcription complexes and transfer to TAR RNA.
    D'Orso I, Jang GM, Pastuszak AW, Faust TB, Quezada E, Booth DS, Frankel AD.
    Mol Cell Biol; 2012 Dec 24; 32(23):4780-93. PubMed ID: 23007159
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  • 6. Simultaneous recognition of HIV-1 TAR RNA bulge and loop sequences by cyclic peptide mimics of Tat protein.
    Davidson A, Leeper TC, Athanassiou Z, Patora-Komisarska K, Karn J, Robinson JA, Varani G.
    Proc Natl Acad Sci U S A; 2009 Jul 21; 106(29):11931-6. PubMed ID: 19584251
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  • 7. Crystal structure of HIV-1 Tat complexed with human P-TEFb and AFF4.
    Gu J, Babayeva ND, Suwa Y, Baranovskiy AG, Price DH, Tahirov TH.
    Cell Cycle; 2014 Jul 21; 13(11):1788-97. PubMed ID: 24727379
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  • 8. The TAR binding dynamics and its implication in Tat degradation mechanism.
    Ning S, Zeng C, Zeng C, Zhao Y.
    Biophys J; 2021 Dec 07; 120(23):5158-5168. PubMed ID: 34762866
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  • 9. Latent HIV-1 TAR Regulates 7SK-responsive P-TEFb Target Genes and Targets Cellular Immune Responses in the Absence of Tat.
    Eilebrecht S, Benecke BJ, Benecke AG.
    Genomics Proteomics Bioinformatics; 2017 Oct 07; 15(5):313-323. PubMed ID: 29037489
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  • 10. Super elongation complex promotes early HIV transcription and its function is modulated by P-TEFb.
    Kuzmina A, Krasnopolsky S, Taube R.
    Transcription; 2017 May 27; 8(3):133-149. PubMed ID: 28340332
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  • 13. The chaperone protein p32 stabilizes HIV-1 Tat and strengthens the p-TEFb/RNAPII/TAR complex promoting HIV transcription elongation.
    Li C, Mori LP, Lyu S, Bronson R, Getzler AJ, Pipkin ME, Valente ST.
    Proc Natl Acad Sci U S A; 2023 Jan 03; 120(1):e2217476120. PubMed ID: 36584296
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  • 15. Targeting Tat-TAR RNA Interaction for HIV-1 Inhibition.
    Alanazi A, Ivanov A, Kumari N, Lin X, Wang S, Kovalskyy D, Nekhai S.
    Viruses; 2021 Oct 06; 13(10):. PubMed ID: 34696435
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  • 16. Poly(ADP-ribose) polymerase-1 is a negative regulator of HIV-1 transcription through competitive binding to TAR RNA with Tat.positive transcription elongation factor b (p-TEFb) complex.
    Parent M, Yung TM, Rancourt A, Ho EL, Vispé S, Suzuki-Matsuda F, Uehara A, Wada T, Handa H, Satoh MS.
    J Biol Chem; 2005 Jan 07; 280(1):448-57. PubMed ID: 15498776
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  • 17. Structural mechanism for HIV-1 TAR loop recognition by Tat and the super elongation complex.
    Schulze-Gahmen U, Hurley JH.
    Proc Natl Acad Sci U S A; 2018 Dec 18; 115(51):12973-12978. PubMed ID: 30514815
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  • 18. Inhibition of both HIV-1 reverse transcription and gene expression by a cyclic peptide that binds the Tat-transactivating response element (TAR) RNA.
    Lalonde MS, Lobritz MA, Ratcliff A, Chamanian M, Athanassiou Z, Tyagi M, Wong J, Robinson JA, Karn J, Varani G, Arts EJ.
    PLoS Pathog; 2011 May 18; 7(5):e1002038. PubMed ID: 21625572
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