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Journal Abstract Search

216 related items for PubMed ID: 11578967

  • 41. Sub1 contacts the RNA polymerase II stalk to modulate mRNA synthesis.
    Garavís M, González-Polo N, Allepuz-Fuster P, Louro JA, Fernández-Tornero C, Calvo O.
    Nucleic Acids Res; 2017 Mar 17; 45(5):2458-2471. PubMed ID: 27924005
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  • 44. TFIIF-associating carboxyl-terminal domain phosphatase dephosphorylates phosphoserines 2 and 5 of RNA polymerase II.
    Lin PS, Dubois MF, Dahmus ME.
    J Biol Chem; 2002 Nov 29; 277(48):45949-56. PubMed ID: 12351650
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  • 45. The emerging picture of CDK9/P-TEFb: more than 20 years of advances since PITALRE.
    Paparidis NF, Durvale MC, Canduri F.
    Mol Biosyst; 2017 Jan 31; 13(2):246-276. PubMed ID: 27833949
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  • 47. FCP1 phosphorylation by casein kinase 2 enhances binding to TFIIF and RNA polymerase II carboxyl-terminal domain phosphatase activity.
    Palancade B, Dubois MF, Bensaude O.
    J Biol Chem; 2002 Sep 27; 277(39):36061-7. PubMed ID: 12138108
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  • 48. CDK-9/cyclin T (P-TEFb) is required in two postinitiation pathways for transcription in the C. elegans embryo.
    Shim EY, Walker AK, Shi Y, Blackwell TK.
    Genes Dev; 2002 Aug 15; 16(16):2135-46. PubMed ID: 12183367
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  • 50. The Ssu72 phosphatase mediates the RNA polymerase II initiation-elongation transition.
    Rosado-Lugo JD, Hampsey M.
    J Biol Chem; 2014 Dec 05; 289(49):33916-26. PubMed ID: 25339178
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  • 51. Runx1 binds positive transcription elongation factor b and represses transcriptional elongation by RNA polymerase II: possible mechanism of CD4 silencing.
    Jiang H, Zhang F, Kurosu T, Peterlin BM.
    Mol Cell Biol; 2005 Dec 05; 25(24):10675-83. PubMed ID: 16314494
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  • 52. The transcriptional inhibitors, actinomycin D and alpha-amanitin, activate the HIV-1 promoter and favor phosphorylation of the RNA polymerase II C-terminal domain.
    Cassé C, Giannoni F, Nguyen VT, Dubois MF, Bensaude O.
    J Biol Chem; 1999 Jun 04; 274(23):16097-106. PubMed ID: 10347161
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  • 55. Three cyclin-dependent kinases preferentially phosphorylate different parts of the C-terminal domain of the large subunit of RNA polymerase II.
    Pinhero R, Liaw P, Bertens K, Yankulov K.
    Eur J Biochem; 2004 Mar 04; 271(5):1004-14. PubMed ID: 15009212
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  • 56. Transcriptional activity and substrate recognition of cyclin T2 from P-TEFb.
    Kurosu T, Zhang F, Peterlin BM.
    Gene; 2004 Dec 08; 343(1):173-9. PubMed ID: 15563843
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  • 57. Rat1p maintains RNA polymerase II CTD phosphorylation balance.
    Jimeno-González S, Schmid M, Malagon F, Haaning LL, Jensen TH.
    RNA; 2014 Apr 08; 20(4):551-8. PubMed ID: 24501251
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  • 58. Evidence that two Pcl-like cyclins control Cdk9 activity during cell differentiation in Aspergillus nidulans asexual development.
    Kempf C, Bathe F, Fischer R.
    Eukaryot Cell; 2013 Jan 08; 12(1):23-36. PubMed ID: 23104571
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  • 59. Control of RNA polymerase II elongation potential by a novel carboxyl-terminal domain kinase.
    Marshall NF, Peng J, Xie Z, Price DH.
    J Biol Chem; 1996 Oct 25; 271(43):27176-83. PubMed ID: 8900211
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  • 60. Functional interaction of human Ssu72 with RNA polymerase II complexes.
    Spector BM, Turek ME, Price DH.
    PLoS One; 2019 Oct 25; 14(3):e0213598. PubMed ID: 30901332
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