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RECOMB
2006
Springer

RNA Secondary Structure Prediction Via Energy Density Minimization

15 years 23 days ago
RNA Secondary Structure Prediction Via Energy Density Minimization
Abstract. There is a resurgence of interest in RNA secondary structure prediction problem (a.k.a. the RNA folding problem) due to the discovery of many new families of non-coding RNAs with a variety of functions. The vast majority of the computational tools for RNA secondary structure prediction are based on free energy minimization. Here the goal is to compute a non-conflicting collection of structural elements such as hairpins, bulges and loops, whose total free energy is as small as possible. Perhaps the most commonly used tool for structure prediction, mfold/RNAfold, is designed to fold a single RNA sequence. More recent methods, such as RNAscf and alifold are developed to improve the prediction quality of this tool by aiming to minimize the free energy of a number of functionally similar RNA sequences simultaneously. Typically, the (stack) prediction quality of the latter approach improves as the number of sequences to be folded and/or the similarity between the sequences increase...
Can Alkan, Emre Karakoç, Süleyman Cenk
Added 03 Dec 2009
Updated 03 Dec 2009
Type Conference
Year 2006
Where RECOMB
Authors Can Alkan, Emre Karakoç, Süleyman Cenk Sahinalp, Peter J. Unrau, H. Alexander Ebhardt, Kaizhong Zhang, Jeremy Buhler
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