多个正转录延伸因子单元与HEXIM多聚体的转录依赖性结合。

Transcription-dependent association of multiple positive transcription elongation factor units to a HEXIM multimer.

作者信息

Dulac Cyprien, Michels Annemieke A, Fraldi Alessandro, Bonnet François, Nguyen Van Trung, Napolitano Giuliana, Lania Luigi, Bensaude Olivier

机构信息

Unite Mixte de Recherche 8541 CNRS, Ecole Normale Supérieure, Laboratoire de Régulation de l'Expression Génétique, 75230 Paris Cedex 05, France.

出版信息

J Biol Chem. 2005 Aug 26;280(34):30619-29. doi: 10.1074/jbc.M502471200. Epub 2005 Jun 30.

DOI:10.1074/jbc.M502471200

PMID:15994294

Abstract

The positive transcription elongation factor (P-TEFb) comprises a kinase, CDK9, and a Cyclin T1 or T2. Its activity is inhibited by association with the HEXIM1 or HEXIM2 protein bound to 7SK small nuclear RNA. HEXIM1 and HEXIM2 were found to form stable homo- and hetero-oligomers. Using yeast two-hybrid and transfection assays, we have now shown that the C-terminal domains of HEXIM proteins directly interact with each other. Hydrodynamic parameters measured by glycerol gradient ultracentrifugation and gel-permeation chromatography demonstrate that both purified recombinant and cellular HEXIM1 proteins form highly anisotropic particles. Chemical cross-links suggest that HEXIM1 proteins form dimers. The multimeric nature of HEXIM1 is maintained in P-TEFb.HEXIM1.7SK RNA complexes. Multiple P-TEFb modules are found in the inactive P-TEFb.HEXIM1.7SK complexes. It is proposed that 7SK RNA binding to a HEXIM1 multimer promotes the simultaneous recruitment and hence inactivation of multiple P-TEFb units.

摘要

正性转录延伸因子（P-TEFb）由一种激酶CDK9和一个周期蛋白T1或T2组成。其活性通过与结合在7SK小核RNA上的HEXIM1或HEXIM2蛋白结合而受到抑制。发现HEXIM1和HEXIM2能形成稳定的同源和异源寡聚体。通过酵母双杂交和转染实验，我们现已表明HEXIM蛋白的C末端结构域可直接相互作用。通过甘油梯度超速离心和凝胶渗透色谱法测量的流体动力学参数表明，纯化的重组HEXIM1蛋白和细胞内的HEXIM1蛋白均形成高度各向异性的颗粒。化学交联表明HEXIM1蛋白形成二聚体。HEXIM1的多聚体性质在P-TEFb.HEXIM1.7SK RNA复合物中得以维持。在无活性的P-TEFb.HEXIM1.7SK复合物中发现多个P-TEFb模块。有人提出，7SK RNA与HEXIM1多聚体的结合促进了多个P-TEFb单元的同时募集从而使其失活。

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多个正转录延伸因子单元与HEXIM多聚体的转录依赖性结合。

Transcription-dependent association of multiple positive transcription elongation factor units to a HEXIM multimer.

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