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A conformational switch controls hepatitis delta virus ribozyme catalysis

Ailong Ke, Kaihong Zhou, Fang Ding, Jamie H. D. Cate and Jennifer A. Doudna ()
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Ailong Ke: Department of Molecular and Cell Biology and Department of Chemistry
Kaihong Zhou: University of California at Berkeley
Fang Ding: Department of Molecular and Cell Biology and Department of Chemistry
Jamie H. D. Cate: Department of Molecular and Cell Biology and Department of Chemistry
Jennifer A. Doudna: Department of Molecular and Cell Biology and Department of Chemistry

Nature, 2004, vol. 429, issue 6988, 201-205

Abstract: Abstract Ribozymes enhance chemical reaction rates using many of the same catalytic strategies as protein enzymes. In the hepatitis delta virus (HDV) ribozyme, site-specific self-cleavage of the viral RNA phosphodiester backbone1,2,3 requires both divalent cations and a cytidine nucleotide4,5,6. General acid–base catalysis7,8,9,10,11,12, substrate destabilization1,13 and global and local conformational changes14,15 have all been proposed to contribute to the ribozyme catalytic mechanism. Here we report ten crystal structures of the HDV ribozyme in its pre-cleaved state, showing that cytidine is positioned to activate the 2′-OH nucleophile in the precursor structure. This observation supports its proposed role as a general base in the reaction mechanism. Comparison of crystal structures of the ribozyme in the pre- and post-cleavage states reveals a significant conformational change in the RNA after cleavage and that a catalytically critical divalent metal ion from the active site is ejected. The HDV ribozyme has remarkable chemical similarity to protein ribonucleases and to zymogens for which conformational dynamics are integral to biological activity. This finding implies that RNA structural rearrangements control the reactivity of ribozymes and ribonucleoprotein enzymes.

Date: 2004
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DOI: 10.1038/nature02522

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