Add to ORKGRNA pseudoknots are functional structure elements with key roles in viral and cellular processes. Prediction of a pseudoknotted minimum free energy structure is an NP-complete problem. Practical algorithms for RNA structure prediction including restricted classes of pseudoknots suffer from high runtime and poor accuracy for longer sequences. A heuristic approach is to search for promising pseudoknot candidates in a sequence and verify those. Afterwards, the detected pseudoknots can be further analysed using bioinformatics or laboratory techniques. We present a novel pseudoknot detection method called DotKnot that extracts stem regions from the secondary structure probability dot plot and assem-bles pseudoknot candidates in a constructive fa...
This work explores a new approach in using genetic algorithm to predict RNA secondary structures wit...
Abstract Background RNA secondary structure prediction is one major task in bioinformatics, and vari...
Accurate prediction of pseudoknotted RNA secondary structure is an important computational challenge...
RNA molecules are sequences of nucleotides that serve as more than mere intermediaries between DNA a...
We present HotKnots, a new heuristic algorithm for the prediction of RNA secondary structures includ...
The secondary structure of an RNA molecule is known to be critical in its biological function. Howev...
International audienceThe computational prediction of RNA secondary structure by free energy minimiz...
Predicting the secondary structure with minimum free energy of an RNA molecule is an important probl...
Background: Improving accuracy and efficiency of computational methods that predict...
We present TT2NE, a new algorithm to predict RNA secondary structures with pseudoknots. The method i...
Background: RNA secondary structure prediction is one major task in bioinformatics, and various comp...
Predicting RNA secondary structure is often the first step to determining the structure of RNA. Pred...
Motivation: Pseudoknots have generally been excluded from the prediction of RNA secondary structures...
1 What is DotKnot? DotKnot is a heuristic method for pseudoknot prediction in a given RNA sequence. ...
Most ab initio pseudoknot predicting methods pro-vide very few folding scenarios for a given RNA seq...
This work explores a new approach in using genetic algorithm to predict RNA secondary structures wit...
Abstract Background RNA secondary structure prediction is one major task in bioinformatics, and vari...
Accurate prediction of pseudoknotted RNA secondary structure is an important computational challenge...
RNA molecules are sequences of nucleotides that serve as more than mere intermediaries between DNA a...
We present HotKnots, a new heuristic algorithm for the prediction of RNA secondary structures includ...
The secondary structure of an RNA molecule is known to be critical in its biological function. Howev...
International audienceThe computational prediction of RNA secondary structure by free energy minimiz...
Predicting the secondary structure with minimum free energy of an RNA molecule is an important probl...
Background: Improving accuracy and efficiency of computational methods that predict...
We present TT2NE, a new algorithm to predict RNA secondary structures with pseudoknots. The method i...
Background: RNA secondary structure prediction is one major task in bioinformatics, and various comp...
Predicting RNA secondary structure is often the first step to determining the structure of RNA. Pred...
Motivation: Pseudoknots have generally been excluded from the prediction of RNA secondary structures...
1 What is DotKnot? DotKnot is a heuristic method for pseudoknot prediction in a given RNA sequence. ...
Most ab initio pseudoknot predicting methods pro-vide very few folding scenarios for a given RNA seq...
This work explores a new approach in using genetic algorithm to predict RNA secondary structures wit...
Abstract Background RNA secondary structure prediction is one major task in bioinformatics, and vari...
Accurate prediction of pseudoknotted RNA secondary structure is an important computational challenge...