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Alternative splicing

Proteomic rewiring through transcriptomic diversity

Nature Reviews Genetics volume 13, pages 518–519 (2012)Cite this article

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Buljan et al. carried out sequence analyses to compare different constitutive and alternative exon types in humans. They focused on alternative exons that are spliced in a tissue-specific manner, and they found these exons to be enriched for sequences encoding disordered protein regions; however, an increased evolutionary conservation suggested that these regions were functionally important. Indeed, these regions were enriched for PPI motifs and for sites of post-translational modification. This led to the hypothesis that the tissue-specific inclusion of exons may fine-tune PPI networks in different tissues. In support of this, PPI network analysis showed that proteins affected by tissue-specific splicing occupied more central and connected positions.

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References

ORIGINAL RESEARCH PAPERS

  1. Buljan, M. et al. Tissue-specific splicing of disordered segments that embed binding motifs rewires protein interaction networks. Mol. Cell 46, 871–883 (2012)

    Article  CAS  PubMed  PubMed Central  Google Scholar 

  2. Ellis, J. D. et al. Tissue-specific alternative splicing remodels protein-protein interaction networks. Mol. Cell 46, 884–892 (2012)

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FURTHER READING

  1. Weatheritt, R. J., Davey, N. E. & Gibson, T. J. Linear motifs confer functional diversity onto splice variants. Nucleic Acids Res. 25 May 2012 (doi:10.1093/nar/gks442)

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  2. Davis, M. J. et al. Rewiring the dynamic interactome. Mol. Biosyst. 8, 2054–2066 (2012)

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Authors
  1. Darren J. Burgess
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Burgess, D. Proteomic rewiring through transcriptomic diversity. Nat Rev Genet 13, 518–519 (2012). https://doi.org/10.1038/nrg3288

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