Literature DB >> 23809764

Eukaryote-specific insertion elements control human ARGONAUTE slicer activity.

Kotaro Nakanishi1, Manuel Ascano, Tasos Gogakos, Satoko Ishibe-Murakami, Artem A Serganov, Daniel Briskin, Pavel Morozov, Thomas Tuschl, Dinshaw J Patel.   

Abstract

We have solved the crystal structure of human ARGONAUTE1 (hAGO1) bound to endogenous 5'-phosphorylated guide RNAs. To identify changes that evolutionarily rendered hAGO1 inactive, we compared our structure with guide-RNA-containing and cleavage-active hAGO2. Aside from mutation of a catalytic tetrad residue, proline residues at positions 670 and 675 in hAGO1 introduce a kink in the cS7 loop, forming a convex surface within the hAGO1 nucleic-acid-binding channel near the inactive catalytic site. We predicted that even upon restoration of the catalytic tetrad, hAGO1-cS7 sterically hinders the placement of a fully paired guide-target RNA duplex into the endonuclease active site. Consistent with this hypothesis, reconstitution of the catalytic tetrad with R805H led to low-level hAGO1 cleavage activity, whereas combining R805H with cS7 substitutions P670S and P675Q substantially augmented hAGO1 activity. Evolutionary amino acid changes to hAGO1 were readily reversible, suggesting that loading of guide RNA and pairing of seed-based miRNA and target RNA constrain its sequence drift.
Copyright © 2013 The Authors. Published by Elsevier Inc. All rights reserved.

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Year:  2013        PMID: 23809764      PMCID: PMC3757560          DOI: 10.1016/j.celrep.2013.06.010

Source DB:  PubMed          Journal:  Cell Rep            Impact factor:   9.423


  31 in total

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3.  Version 1.2 of the Crystallography and NMR system.

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Journal:  RNA       Date:  2011-07-20       Impact factor: 4.942

6.  tRNAscan-SE: a program for improved detection of transfer RNA genes in genomic sequence.

Authors:  T M Lowe; S R Eddy
Journal:  Nucleic Acids Res       Date:  1997-03-01       Impact factor: 16.971

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Authors:  Jin-Biao Ma; Yu-Ren Yuan; Gunter Meister; Yi Pei; Thomas Tuschl; Dinshaw J Patel
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9.  Structure of the guide-strand-containing argonaute silencing complex.

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Journal:  Nature       Date:  2008-08-27       Impact factor: 49.962

10.  Structure of yeast Argonaute with guide RNA.

Authors:  Kotaro Nakanishi; David E Weinberg; David P Bartel; Dinshaw J Patel
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  55 in total

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Authors:  Catalina Méndez; Chantelle L Ahlenstiel; Anthony D Kelleher
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4.  Structural Basis for Target-Directed MicroRNA Degradation.

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5.  Multidomain Convergence of Argonaute during RISC Assembly Correlates with the Formation of Internal Water Clusters.

Authors:  Mi Seul Park; Raul Araya-Secchi; James A Brackbill; Hong-Duc Phan; Audrey C Kehling; Ekram W Abd El-Wahab; Daniel M Dayeh; Marcos Sotomayor; Kotaro Nakanishi
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Review 6.  Evolutionary conservation and expression of human RNA-binding proteins and their role in human genetic disease.

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Review 7.  Structural Foundations of RNA Silencing by Argonaute.

Authors:  Jessica Sheu-Gruttadauria; Ian J MacRae
Journal:  J Mol Biol       Date:  2017-07-27       Impact factor: 5.469

8.  A Seed Mismatch Enhances Argonaute2-Catalyzed Cleavage and Partially Rescues Severely Impaired Cleavage Found in Fish.

Authors:  Grace R Chen; Hazel Sive; David P Bartel
Journal:  Mol Cell       Date:  2017-12-21       Impact factor: 17.970

9.  Structural and functional analyses reveal the contributions of the C- and N-lobes of Argonaute protein to selectivity of RNA target cleavage.

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Review 10.  Evaluation and control of miRNA-like off-target repression for RNA interference.

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