Abstract. Predicting the folding of an RNA sequence, while allow-ing general pseudoknots (PK), consists in finding a minimal free-energy matching of its n positions. Assuming independently contributing base-pairs, the problem can be solved in Θ(n3)-time using a variant of the maximal weighted matching. By contrast, the problem was previously proven NP-Hard in the more realistic nearest-neighbor energy model. In this work, we consider an intermediate model, called the stacking-pairs energy model. We extend a result by Lyngsø, showing that RNA folding with PK is NP-Hard within a large class of parametrization for the model. We also show the approximability of the problem, by giving a practical Θ(n3) algorithm that achieves at least a 5-approx...
Most ab initio pseudoknot predicting methods pro-vide very few folding scenarios for a given RNA seq...
Motivation: The function of an RNA molecule is not only linked to its native structure, which is usu...
International audienceThe computational prediction of RNA secondary structure by free energy minimiz...
International audiencePredicting the folding of an RNA sequence, while allowing general pseudoknots ...
International audienceAlthough RNA secondary structure prediction is a textbook application of dynam...
Predicting RNA secondary structure is often the first step to determining the structure of RNA. Pred...
RNA molecules are sequences of nucleotides that serve as more than mere intermediaries between DNA a...
Reeder J, Giegerich R. Design, implementation and evaluation of a practical pseudoknot folding algor...
Predicting the secondary structure with minimum free energy of an RNA molecule is an important probl...
RNA molecules are crucial in different levels of cellular function, and their functions largely depe...
Despite being a textbook application of dynamic programming (DP) and routine task in RNA structure a...
Abstract. Efficient exact algorithms for finding optimal secondary structures of RNA sequences have ...
Ab initio RNA secondary structure predictions have long dismissed helices interior to loops, so-call...
International audienceWe extend an hypergraph representation, introduced by Finkelstein and Roytberg...
Algorithms for prediction of RNA secondary structure— the set of base pairs that form when an RNA mo...
Most ab initio pseudoknot predicting methods pro-vide very few folding scenarios for a given RNA seq...
Motivation: The function of an RNA molecule is not only linked to its native structure, which is usu...
International audienceThe computational prediction of RNA secondary structure by free energy minimiz...
International audiencePredicting the folding of an RNA sequence, while allowing general pseudoknots ...
International audienceAlthough RNA secondary structure prediction is a textbook application of dynam...
Predicting RNA secondary structure is often the first step to determining the structure of RNA. Pred...
RNA molecules are sequences of nucleotides that serve as more than mere intermediaries between DNA a...
Reeder J, Giegerich R. Design, implementation and evaluation of a practical pseudoknot folding algor...
Predicting the secondary structure with minimum free energy of an RNA molecule is an important probl...
RNA molecules are crucial in different levels of cellular function, and their functions largely depe...
Despite being a textbook application of dynamic programming (DP) and routine task in RNA structure a...
Abstract. Efficient exact algorithms for finding optimal secondary structures of RNA sequences have ...
Ab initio RNA secondary structure predictions have long dismissed helices interior to loops, so-call...
International audienceWe extend an hypergraph representation, introduced by Finkelstein and Roytberg...
Algorithms for prediction of RNA secondary structure— the set of base pairs that form when an RNA mo...
Most ab initio pseudoknot predicting methods pro-vide very few folding scenarios for a given RNA seq...
Motivation: The function of an RNA molecule is not only linked to its native structure, which is usu...
International audienceThe computational prediction of RNA secondary structure by free energy minimiz...