BaseSpace
Correlation Engine 2.0
Import Your Data
Literature

FAQ

More FAQs

Back to top
Clear Search sequence regions
(e.g. nitric oxide metabolic process, Influenza, Heart, Pharmacogenetics, Clofibrate, PTEN)
Bookmark Forward

sCLIP-an integrated platform to study RNA-protein interactomes in biomedical research: identification of CSTF2tau in alternative processing of small nuclear RNAs.

Yulia Kargapolova, Michal Levin, Karl Lackner, Sven Danckwardt

Nucleic acids research 2017 Jun 02


filter terms:
  • and disease (1)
  • ANK2 (1)
  • binds (1)
  • cardiac function (1)
  • cell (1)
  • concept (1)
  • cstf2t protein, human (1)
  • dna (2)
  • gene (1)
  • gene library (1)
  • humans (1)
  • isoforms (1)
  • library (1)
  • neoplasm proteins (2)
  • neuroblastoma (1)
  • nucleic acids (1)
  • protein human (1)
  • RBPs (5)
  • research (2)
  • rna small nuclear (2)
  • rna small nuclear (4)
  • rnas (15)
  • sCLIP (4)
  • snoRNA (1)
  • ultraviolet rays (1)
    • Sizes of these terms reflect their relevance to your search.

    RNA-binding proteins (RBPs) are central for gene expression by controlling the RNA fate from birth to decay. Various disorders arising from perturbations of RNA-protein interactions document their critical function. However, deciphering their function is complex, limiting the general functional elucidation of this growing class of proteins and their contribution to (patho)physiology. Here, we present sCLIP, a simplified and robust platform for genome-wide interrogation of RNA-protein interactomes based on crosslinking-immunoprecipitation and high-throughput sequencing. sCLIP exploits linear amplification of the immunoprecipitated RNA improving the complexity of the sequencing-library despite significantly reducing the amount of input material and omitting several purification steps. Additionally, it permits a radiolabel-free visualization of immunoprecipitated RNA. In a proof of concept, we identify that CSTF2tau binds many previously not recognized RNAs including histone, snoRNA and snRNAs. CSTF2tau-binding is associated with internal oligoadenylation resulting in shortened snRNA isoforms subjected to rapid degradation. We provide evidence for a new mechanism whereby CSTF2tau controls the abundance of snRNAs resulting in alternative splicing of several RNAs including ANK2 with critical roles in tumorigenesis and cardiac function. Combined with a bioinformatic pipeline sCLIP thus uncovers new functions for established RBPs and fosters the illumination of RBP-protein interaction landscapes in health and disease. © The Author(s) 2017. Published by Oxford University Press on behalf of Nucleic Acids Research.

    Citation

    Yulia Kargapolova, Michal Levin, Karl Lackner, Sven Danckwardt. sCLIP-an integrated platform to study RNA-protein interactomes in biomedical research: identification of CSTF2tau in alternative processing of small nuclear RNAs. Nucleic acids research. 2017 Jun 02;45(10):6074-6086

    Expand section icon Mesh Tags

    Expand section icon Substances


    PMID: 28334977

    View Full Text
    • Copyright © 2024 Illumina Inc. All rights reserved.