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The 7SK small nuclear RNA inhibits the CDK9/cyclin T1 kinase to control transcription

Author

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  • Zhiyuan Yang

    (University of California at Berkeley)

  • Qingwei Zhu

    (University of California at Berkeley
    Lawrence Berkeley National Laboratory)

  • Kunxin Luo

    (University of California at Berkeley
    Lawrence Berkeley National Laboratory)

  • Qiang Zhou

    (University of California at Berkeley)

Abstract

The human positive transcription elongation factor P-TEFb, consisting of a CDK9/cyclin T1 heterodimer, functions as both a general and an HIV-1 Tat-specific transcription factor1,2. P-TEFb activates transcription by phosphorylating RNA polymerase (Pol) II, leading to the formation of processive elongation complexes. As a Tat cofactor, P-TEFb stimulates HIV-1 transcription by interacting with Tat and the transactivating responsive (TAR) RNA structure located at the 5′ end of the nascent viral transcript3. Here we identified 7SK, an abundant and evolutionarily conserved small nuclear RNA (snRNA) of unknown function4,5, as a specific P-TEFb-associated factor. 7SK inhibits general and HIV-1 Tat-specific transcriptional activities of P-TEFb in vivo and in vitro by inhibiting the kinase activity of CDK9 and preventing recruitment of P-TEFb to the HIV-1 promoter. 7SK is efficiently dissociated from P-TEFb by treatment of cells with ultraviolet irradiation and actinomycin D. As these two agents have been shown to significantly enhance HIV-1 transcription and phosphorylation of Pol II (refs 6,7,8), our data provide a mechanistic explanation for their stimulatory effects. The 7SK/P-TEFb interaction may serve as a principal control point for the induction of cellular and HIV-1 viral gene expression during stress-related responses. Our studies demonstrate the involvement of an snRNA in controlling the activity of a Cdk–cyclin kinase.

Suggested Citation

  • Zhiyuan Yang & Qingwei Zhu & Kunxin Luo & Qiang Zhou, 2001. "The 7SK small nuclear RNA inhibits the CDK9/cyclin T1 kinase to control transcription," Nature, Nature, vol. 414(6861), pages 317-322, November.
    • Handle: RePEc:nat:nature:v:414:y:2001:i:6861:d:10.1038_35104575
    DOI: 10.1038/35104575
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    Cited by:

    1. Jennifer Porat & Moaine El Baidouri & Jorg Grigull & Jean-Marc Deragon & Mark A. Bayfield, 2022. "The methyl phosphate capping enzyme Bmc1/Bin3 is a stable component of the fission yeast telomerase holoenzyme," Nature Communications, Nature, vol. 13(1), pages 1-14, December.
    2. Kaori Asamitsu & Takatsugu Hirokawa & Takashi Okamoto, 2017. "MD simulation of the Tat/Cyclin T1/CDK9 complex revealing the hidden catalytic cavity within the CDK9 molecule upon Tat binding," PLOS ONE, Public Library of Science, vol. 12(2), pages 1-14, February.
    3. Ryan Damme & Kongpan Li & Minjie Zhang & Jianhui Bai & Wilson H. Lee & Joseph D. Yesselman & Zhipeng Lu & Willem A. Velema, 2022. "Chemical reversible crosslinking enables measurement of RNA 3D distances and alternative conformations in cells," Nature Communications, Nature, vol. 13(1), pages 1-13, December.
    4. Roberto Bandiera & Rebecca E. Wagner & Thiago Britto-Borges & Christoph Dieterich & Sabine Dietmann & Susanne Bornelöv & Michaela Frye, 2021. "RN7SK small nuclear RNA controls bidirectional transcription of highly expressed gene pairs in skin," Nature Communications, Nature, vol. 12(1), pages 1-14, December.

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