Introduction

The importance of RNA tertiary structure is evident from the growing number of published high resolution NMR and X-ray crystallographic structures of RNA molecules. These structures provide insights into function and create a knowledge base that is leveraged by programs such as Assemble, ModeRNA, RNABuilder, NAST, FARNA, Mc-Sym, RNA2D3D, and iFoldRNA for tertiary structure prediction and design. While these methods sample native-like RNA structures during simulations, all struggle to capture the native RNA conformation after scoring. We propose RSIM, an improved RNA fragment assembly method that preserves RNA global secondary structure while sampling conformations. This approach enhances the quality of predicted RNA tertiary structure, provides insights into the native state dynamics, and generates a powerful visualization of the RNA conformational space. RSIM is available for download from http://www.github.com/jpbida/rsim.

Publications

  1. Improved prediction of RNA tertiary structure with insights into native state dynamics.
    Cite this
    Bida JP, Maher LJ 3rd, 2012-03-01 - RNA (New York, N.Y.)

Credits

  1. John Paul Bida
    Developer

    Department of Biochemistry and Molecular Biology, Mayo Clinic College of Medicine, United States of America

  2. L James Maher
    Investigator

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Summary
AccessionBT006418
Tool TypeApplication
Category
PlatformsLinux/Unix
TechnologiesC++
User InterfaceTerminal Command Line
Download Count0
Submitted ByL James Maher