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The structural stabilization of the kappa three-way junction by Mg(II) represents the first step in the folding of a group II intron

Type of publication Peer-reviewed
Publikationsform Original article (peer-reviewed)
Author Donghi Daniela, Pechlaner Maria, Finazzo Cinzia, Knobloch Bernd, Sigel Roland K. O.,
Project Coordination Chemistry within the Core of Large RNAs: Regulating Tertiary Contacts and Function
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Original article (peer-reviewed)

Journal Nucleic Acids Research
Page(s) 00
Title of proceedings Nucleic Acids Research
DOI 10.1093/nar/gks1179

Open Access

URL http://nar.oxfordjournals.org/
Type of Open Access Publisher (Gold Open Access)

Abstract

Folding of group II introns is characterized by a first slow compaction of domain 1 (D1) followed by the rapid docking of other domains to this scaffold. D1 compaction initiates in a small subregion encompassing the κ and ζ elements. These two tertiary elements are also the major interaction sites with domain 5 (D5) to form the catalytic core. Here we provide the first characterization of the structure adopted at an early folding step and show that the folding control element can be narrowed down to the three-way junction with the κ motif. In our NMR studies of this substructure derived from the yeast mitochondrial group II intron Sc.ai5γ we show that a high affinity Mg(II) ion stabilizes the κ tetraloop and enables coaxial stacking between helices d’ and d’’, favoring a rigid duplex across the three-way junction. The κ-element folds into a stable GAAA-tetraloop and engages in A-minor interactions with helix d’. The addition of cobalt(III)hexammine reveals three distinct binding sites. The Mg(II)-promoted structural rearrangement and rigidification of the D1 core can be identified as the first micro-step of D1 folding.
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