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Literature DB >> 27665593

A Method to Predict the Structure and Stability of RNA/RNA Complexes.

Abstract

RNA/RNA interactions are essential for genomic RNA dimerization and regulation of gene expression. Intermolecular loop-loop base pairing is a widespread and functionally important tertiary structure motif in RNA machinery. However, computational prediction of intermolecular loop-loop base pairing is challenged by the entropy and free energy calculation due to the conformational constraint and the intermolecular interactions. In this chapter, we describe a recently developed statistical mechanics-based method for the prediction of RNA/RNA complex structures and stabilities. The method is based on the virtual bond RNA folding model (Vfold). The main emphasis in the method is placed on the evaluation of the entropy and free energy for the loops, especially tertiary kissing loops. The method also uses recursive partition function calculations and two-step screening algorithm for large, complicated structures of RNA/RNA complexes. As case studies, we use the HIV-1 Mal dimer and the siRNA/HIV-1 mutant (T4) to illustrate the method.

Entities: Chemical Disease Gene Species

Keywords: Partition function; RNA/RNA complex; Tertiary motif entropy; Two-step screening

Mesh：

Substances：
RNA, Viral
RNA

Year: 2016 PMID： 27665593 PMCID： PMC5508871 DOI： 10.1007/978-1-4939-6433-8_5

Source DB: PubMed Journal: Methods Mol Biol ISSN： 1064-3745

32 in total

A Method to Predict the Structure and Stability of RNA/RNA Complexes.

1. Crystal structures of coaxially stacked kissing complexes of the HIV-1 RNA dimerization initiation site.

2. Prediction of hybridization and melting for double-stranded nucleic acids.

3. Predicting structures and stabilities for H-type pseudoknots with interhelix loops.

Review 4. RNA folding: conformational statistics, folding kinetics, and ion electrostatics.

5. NCp7 activates HIV-1Lai RNA dimerization by converting a transient loop-loop complex into a stable dimer.

6. Large-scale mapping of branchpoints in human pre-mRNA transcripts in vivo.

7. Partition function and base pairing probabilities for RNA-RNA interaction prediction.

8. Predicting kissing interactions in microRNA-target complex and assessment of microRNA activity.

9. Stabilities of HIV-1 DIS type RNA loop-loop interactions in vitro and in vivo.

10. Predicting RNA pseudoknot folding thermodynamics.

1. HNADOCK: a nucleic acid docking server for modeling RNA/DNA-RNA/DNA 3D complex structures.

2. Modeling Loop Composition and Ion Concentration Effects in RNA Hairpin Folding Stability.

3. Determination of an effective scoring function for RNA-RNA interactions with a physics-based double-iterative method.

4. VfoldMCPX: predicting multistrand RNA complexes.

5. In silico Design of Linear DNA for Robust Cell-Free Gene Expression.