Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
10825754 | Methods | 2014 | 10 Pages |
Abstract
Protein-RNA interactions play fundamental roles in many biological processes, such as regulation of gene expression, RNA splicing, and protein synthesis. The understanding of these processes improves as new structures of protein-RNA complexes are solved and the molecular details of interactions analyzed. However, experimental determination of protein-RNA complex structures by high-resolution methods is tedious and difficult. Therefore, studies on protein-RNA recognition and complex formation present major technical challenges for macromolecular structural biology. Alternatively, protein-RNA interactions can be predicted by computational methods. Although less accurate than experimental measurements, theoretical models of macromolecular structures can be sufficiently accurate to prompt functional hypotheses and guide e.g. identification of important amino acid or nucleotide residues. In this article we present an overview of strategies and methods for computational modeling of protein-RNA complexes, including software developed in our laboratory, and illustrate it with practical examples of structural predictions.
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Authors
Irina Tuszynska, Dorota Matelska, Marcin Magnus, Grzegorz Chojnowski, Joanna M. Kasprzak, Lukasz P. Kozlowski, Stanislaw Dunin-Horkawicz, Janusz M. Bujnicki,