Literature DB >> 27183195

Structure of the Dcp2-Dcp1 mRNA-decapping complex in the activated conformation.

Eugene Valkov1, Sowndarya Muthukumar1, Chung-Te Chang1, Stefanie Jonas1, Oliver Weichenrieder1, Elisa Izaurralde1.   

Abstract

The removal of the mRNA 5' cap (decapping) by Dcp2 shuts down translation and commits mRNA to full degradation. Dcp2 activity is enhanced by activator proteins such as Dcp1 and Edc1. However, owing to conformational flexibility, the active conformation of Dcp2 and the mechanism of decapping activation have remained unknown. Here, we report a 1.6-Å-resolution crystal structure of the Schizosaccharomyces pombe Dcp2-Dcp1 heterodimer in an unprecedented conformation that is tied together by an intrinsically disordered peptide from Edc1. In this ternary complex, an unforeseen rotation of the Dcp2 catalytic domain allows residues from both Dcp2 and Dcp1 to cooperate in RNA binding, thus explaining decapping activation by increased substrate affinity. The architecture of the Dcp2-Dcp1-Edc1 complex provides a rationale for the conservation of a sequence motif in Edc1 that is also present in unrelated decapping activators, thus indicating that the presently described mechanism of decapping activation is evolutionarily conserved.

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Year:  2016        PMID: 27183195     DOI: 10.1038/nsmb.3232

Source DB:  PubMed          Journal:  Nat Struct Mol Biol        ISSN: 1545-9985            Impact factor:   15.369


  43 in total

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Review 8.  The role of disordered protein regions in the assembly of decapping complexes and RNP granules.

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  27 in total

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Review 6.  New insights into decapping enzymes and selective mRNA decay.

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Review 7.  Structural and molecular mechanisms for the control of eukaryotic 5'-3' mRNA decay.

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9.  Discovery of cellular substrates of human RNA-decapping enzyme DCP2 using a stapled bicyclic peptide inhibitor.

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