Biochem Soc Trans. 2005 Jun;33(Pt 3):485-7.

RNA backbone rotamers--finding your way in seven dimensions.

Murray LJ, Richardson JS, Arendall WB, Richardson DC.

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Department of Biochemistry, Duke University, Durham, NC 27710-3711, U.S.A.

Abstract

Despite the importance of local structural detail for a mechanistic understanding of RNA catalysis and binding functions, RNA backbone conformation has been recalcitrant to analysis. There are too many variable dihedral angles per residue, and their raw empirical distributions are poorly clustered. This study applies quality-filtering techniques (using resolution, crystallographic B factor and all-atom-steric clashes) to the backbone dihedral angle distributions from a selected 8636 residue RNA database. With noise levels significantly decreased, clear signal appears for the underlying angle preferences. We analyse the multidimensional backbone dihedral distributions within sugar-to-sugar 'suites' rather than chemical residues due to the greater base interaction and steric interdependence within the suite. The final result is a small library of RNA backbone rotamers, each represented by a data cluster in seven-dimensional dihedral space, which should provide valid conformations for nearly all RNA backbones encountered in experimental structures. We are in the process of improving that library, and developing tools and applications for it in structure determination and analysis.

PMID:: 15916548; [PubMed - indexed for MEDLINE]

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RNA backbone is rotameric. [Proc Natl Acad Sci U S A. 2003]
RNA backbone is rotameric.
Murray LJ, Arendall WB 3rd, Richardson DC, Richardson JS. Proc Natl Acad Sci U S A. 2003 Nov 25; 100(24):13904-9. Epub 2003 Nov 11.
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Cited by 3 PubMed Central articles

Finding 3D motifs in ribosomal RNA structures. [Nucleic Acids Res. 2009]
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RNA backbone: consensus all-angle conformers and modular string nomenclature (an RNA Ontology Consortium contribution).
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