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Structural insights into how Prp5 proofreads the pre-mRNA branch site

Author

Listed:
  • Zhenwei Zhang

    (MPI for Biophysical Chemistry)

  • Norbert Rigo

    (Cellular Biochemistry, MPI for Biophysical Chemistry)

  • Olexandr Dybkov

    (Cellular Biochemistry, MPI for Biophysical Chemistry)

  • Jean-Baptiste Fourmann

    (Cellular Biochemistry, MPI for Biophysical Chemistry)

  • Cindy L. Will

    (Cellular Biochemistry, MPI for Biophysical Chemistry)

  • Vinay Kumar

    (Cellular Biochemistry, MPI for Biophysical Chemistry)

  • Henning Urlaub

    (Bioanalytical Mass Spectrometry, MPI for Biophysical Chemistry
    University Medical Center Göttingen)

  • Holger Stark

    (MPI for Biophysical Chemistry)

  • Reinhard Lührmann

    (Cellular Biochemistry, MPI for Biophysical Chemistry)

Abstract

During the splicing of introns from precursor messenger RNAs (pre-mRNAs), the U2 small nuclear ribonucleoprotein (snRNP) must undergo stable integration into the spliceosomal A complex—a poorly understood, multistep process that is facilitated by the DEAD-box helicase Prp5 (refs. 1–4). During this process, the U2 small nuclear RNA (snRNA) forms an RNA duplex with the pre-mRNA branch site (the U2–BS helix), which is proofread by Prp5 at this stage through an unclear mechanism5. Here, by deleting the branch-site adenosine (BS-A) or mutating the branch-site sequence of an actin pre-mRNA, we stall the assembly of spliceosomes in extracts from the yeast Saccharomyces cerevisiae directly before the A complex is formed. We then determine the three-dimensional structure of this newly identified assembly intermediate by cryo-electron microscopy. Our structure indicates that the U2–BS helix has formed in this pre-A complex, but is not yet clamped by the HEAT domain of the Hsh155 protein (Hsh155HEAT), which exhibits an open conformation. The structure further reveals a large-scale remodelling/repositioning of the U1 and U2 snRNPs during the formation of the A complex that is required to allow subsequent binding of the U4/U6.U5 tri-snRNP, but that this repositioning is blocked in the pre-A complex by the presence of Prp5. Our data suggest that binding of Hsh155HEAT to the bulged BS-A of the U2–BS helix triggers closure of Hsh155HEAT, which in turn destabilizes Prp5 binding. Thus, Prp5 proofreads the branch site indirectly, hindering spliceosome assembly if branch-site mutations prevent the remodelling of Hsh155HEAT. Our data provide structural insights into how a spliceosomal helicase enhances the fidelity of pre-mRNA splicing.

Suggested Citation

  • Zhenwei Zhang & Norbert Rigo & Olexandr Dybkov & Jean-Baptiste Fourmann & Cindy L. Will & Vinay Kumar & Henning Urlaub & Holger Stark & Reinhard Lührmann, 2021. "Structural insights into how Prp5 proofreads the pre-mRNA branch site," Nature, Nature, vol. 596(7871), pages 296-300, August.
  • Handle: RePEc:nat:nature:v:596:y:2021:i:7871:d:10.1038_s41586-021-03789-5
    DOI: 10.1038/s41586-021-03789-5
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    Cited by:

    1. Santiago Martínez-Lumbreras & Lena K. Träger & Miriam M. Mulorz & Marco Payr & Varvara Dikaya & Clara Hipp & Julian König & Michael Sattler, 2024. "Intramolecular autoinhibition regulates the selectivity of PRPF40A tandem WW domains for proline-rich motifs," Nature Communications, Nature, vol. 15(1), pages 1-17, December.
    2. Fenghua Yang & Tong Bian & Xiechao Zhan & Zhe Chen & Zhihan Xing & Nicolas A. Larsen & Xiaofeng Zhang & Yigong Shi, 2023. "Mechanisms of the RNA helicases DDX42 and DDX46 in human U2 snRNP assembly," Nature Communications, Nature, vol. 14(1), pages 1-11, December.

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