Most ab initio pseudoknot predicting methods pro-vide very few folding scenarios for a given RNA sequence and have low sensitivities. RNA resear-chers, in many cases, would rather sacrifice the specificity for a much higher sensitivity for pseudo-knot detection. In this study, we introduce the Pseudoknot Local Motif Model and Dynamic Partner Sequence Stacking (PLMM_DPSS) algorithm which predicts all PLM model pseudoknots within an RNA sequence in a neighboring-region-interference-free fashion. The PLM model is derived from the existing Pseudobase entries. The innovative DPSS approach calculates the optimally lowest stacking energy between two partner sequences. Combined with the Mfold, PLMM_DPSS can also be used in predicting complicated ps...
Abstract. The prediction of RNA secondary structure including pseudoknots remains a challenge due to...
Background: Improving accuracy and efficiency of computational methods that predict...
The prediction of RNA secondary structure including pseudoknots remains a challenge due to the in-tr...
Most ab initio pseudoknot predicting methods pro-vide very few folding scenarios for a given RNA seq...
RNA pseudoknots are functional structure elements with key roles in viral and cellular processes. Pr...
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...
Abstract. Efficient exact algorithms for finding optimal secondary structures of RNA sequences have ...
International audienceThe computational prediction of RNA secondary structure by free energy minimiz...
The secondary structure of an RNA molecule is known to be critical in its biological function. Howev...
Most functional RNA molecules have characteristic structures that are highly conserved in evolution....
International audienceSeveral algorithms and methods have been developed for RNA secondary structure...
Obtaining valuable clues for noncoding RNA (ribonucleic acid) subsequences remains a significant cha...
We present HotKnots, a new heuristic algorithm for the prediction of RNA secondary structures includ...
Ab initio RNA secondary structure predictions have long dismissed helices interior to loops, so-call...
Abstract. The prediction of RNA secondary structure including pseudoknots remains a challenge due to...
Background: Improving accuracy and efficiency of computational methods that predict...
The prediction of RNA secondary structure including pseudoknots remains a challenge due to the in-tr...
Most ab initio pseudoknot predicting methods pro-vide very few folding scenarios for a given RNA seq...
RNA pseudoknots are functional structure elements with key roles in viral and cellular processes. Pr...
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...
Abstract. Efficient exact algorithms for finding optimal secondary structures of RNA sequences have ...
International audienceThe computational prediction of RNA secondary structure by free energy minimiz...
The secondary structure of an RNA molecule is known to be critical in its biological function. Howev...
Most functional RNA molecules have characteristic structures that are highly conserved in evolution....
International audienceSeveral algorithms and methods have been developed for RNA secondary structure...
Obtaining valuable clues for noncoding RNA (ribonucleic acid) subsequences remains a significant cha...
We present HotKnots, a new heuristic algorithm for the prediction of RNA secondary structures includ...
Ab initio RNA secondary structure predictions have long dismissed helices interior to loops, so-call...
Abstract. The prediction of RNA secondary structure including pseudoknots remains a challenge due to...
Background: Improving accuracy and efficiency of computational methods that predict...
The prediction of RNA secondary structure including pseudoknots remains a challenge due to the in-tr...