Detecting protein-induced folding of the U4 snRNA kink-turn by single-molecule multiparameter FRET measurements

Woźniak, Anna; Nottrott, Stephanie; Kühn-Hölsken, Eva; Schröder, Gunnar F.; Grubmüller, Helmut; Lührmann, Reinhard; Seidel, Claus A. M.; Oesterhelt, Filipp

doi:10.1261/rna.2950605

Cited by 47 publications

(40 citation statements)

References 28 publications

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“…32,35,40 To quantitatively identify this motion, principal component analysis (PCA) was carried out on the bound sRNA separately for each trajectory. In general, the three most principal components (named PC1, PC2, and PC3) represent over 80% of the overall fluctuations for ten trajectories.…”

Section: Closing-opening Motion On Two Stems Of Srnamentioning

confidence: 99%

Kink turn sRNA folding upon L7Ae binding using molecular dynamics simulations

Wei¹,

Yang²,

Yu³

et al. 2013

Phys. Chem. Chem. Phys.

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Section: Closing-opening Motion On Two Stems Of Srnamentioning

confidence: 99%

Kink turn sRNA folding upon L7Ae binding using molecular dynamics simulations

Wei¹,

Yang²,

Yu³

et al. 2013

Phys. Chem. Chem. Phys.

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“…The structural principles of K-turns have been analyzed in detail using isostericity matrices by Westhof and colleagues (Lescoute et al 2005). 1 The structure of free K-turn RNA is very dynamic and dependent on the binding of metal ions (Goody et al 2003) or L7Ae-related protein (Turner et al 2005;Wozniak et al 2005). In the absence of protein binding, K-turn RNA exists in an equilibrium between the tightly kinked and a more extended structure, and the position of equilibrium is determined by metal ion concentration.…”

Section: Introductionmentioning

confidence: 99%

The role of specific 2′-hydroxyl groups in the stabilization of the folded conformation of kink-turn RNA

Liu

Lilley²

2006

RNA

137

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The role of 29-hydroxyl groups in stabilizing the tightly kinked geometry of the kink-turn (K-turn) has been investigated. Individual 29-OH groups have been removed by chemical synthesis, and the kinking of the RNA has been studied by gel electrophoresis and fluorescence resonance energy transfer. The results have been analyzed by reference to a database of 11 different crystallographic structures of K-turns. The potential hydrogen bonds fall into several classes. The most important are those in the core of the turn and ribose-phosphate interactions around the bulge. Of these the single most important hydrogen bond is one donated from the 29-OH of the 59 nucleotide of the bulge to the N1 of the adenine of the kink-proximal A d G pair. This is present in all known K-turn structures, and removal of the 29-OH completely prevents metal ion-induced folding. Hydrogen bonds formed in the minor grooves of the helical stems are less important, and removal of the participating 29-OH groups leads to reduced impairment of folding. These interactions are generally more polymorphic, and hydrogen bonds probably form where possible, as permitted by the global structure.

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“…They are very commonly found in C/D and H/ACA guide snoRNAs and in U3 snoRNA species (Kuhn et al 2002;Watkins et al 2002;Bortolin et al 2003;Marmier-Gourrier et al 2003;Rozhdestvensky et al 2003;Hamma and Ferré-D'Amaré 2004;Moore et al 2004;Szewczak et al 2005;Youssef et al 2007). There is also a near-canonical k-turn in a stem-loop of the human U4 snRNA (Vidovic et al 2000;Wozniak et al 2005). Some k-turns have been identified unequivocally, from their structure in situ within crystal structures of larger RNA structures or complexes.…”

Section: The Occurrence Of K-turns In Rnamentioning

confidence: 99%

A structural database for k-turn motifs in RNA

Schroeder¹,

McPhee²,

Ouellet³

et al. 2010

RNA

108

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The kink-turn (k-turn) is a common structural motif in RNA that introduces a tight kink into the helical axis. k-turns play an important architectural role in RNA structures and serve as binding sites for a number of proteins. We have created a database of known and postulated k-turn sequences and three-dimensional (3D) structures, available via the internet. This site provides (1) a database of sequence and structure, as a resource for the RNA community, and (2) a tool to enable the manipulation and comparison of 3D structures where known.

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Detecting protein-induced folding of the U4 snRNA kink-turn by single-molecule multiparameter FRET measurements

Cited by 47 publications

References 28 publications

Kink turn sRNA folding upon L7Ae binding using molecular dynamics simulations

Kink turn sRNA folding upon L7Ae binding using molecular dynamics simulations

The role of specific 2′-hydroxyl groups in the stabilization of the folded conformation of kink-turn RNA

A structural database for k-turn motifs in RNA

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