Add to ORKGPseudoknots are essential for the functioning of many small RNA molecules. In addition, viral RNAs often exhibit pseudoknots that are required at various stages of the viral life-cycle. Techniques for detecting evolutionarily conserved, and hence most likely functional RNA pseudoknots, are therefore of interest. Here we present an extension of the alidot approach that extracts conserved secondary structures from a multiple sequence alignment and predicted secondary structures of the individual sequences. In contrast to purely phylogenetic methods, this approach yields good results already for small samples of 10 sequences or even less
Pseudoknots are a special kind of RNA structures that play functional roles in a wide variety of bio...
International audienceSeveral algorithms and methods have been developed for RNA secondary structure...
Background: The analysis of sequence-structure relations of RNA is based on a specific notion and fo...
Pseudoknots are essential for the functioning of many small RNA molecules. In addition, viral RNAs o...
Abstract: Pseudoknots are essential for the functioning of many small RNA molecules. In addition, vi...
Abstract: Pseudoknots are essential for the functioning of many small RNA molecules. In addition, vi...
Pseudoknots are essential for the functioning of many small RNA molecules. In addition, viral RNAs o...
Motivation: Today many non-coding RNAs are known to play an active role in various important biologi...
In this paper, we address the problem of discovering novel non-coding RNA (ncRNA) using primary sequ...
In this paper, we address the problem of discovering novel non-coding RNA (ncRNA) using primary sequ...
In this paper, we address the problem of discovering novel non-coding RNA (ncRNA) using primary sequ...
We propose a new method for detecting conserved RNA secondary structures in a family of related RNA ...
We propose a new method for detecting conserved RNA secondary structures in a family of related RNA ...
Most functional RNA molecules have characteristic structures that are highly conserved in evolution....
Pseudoknots are a special kind of RNA structures that play functional roles in a wide variety of bio...
Pseudoknots are a special kind of RNA structures that play functional roles in a wide variety of bio...
International audienceSeveral algorithms and methods have been developed for RNA secondary structure...
Background: The analysis of sequence-structure relations of RNA is based on a specific notion and fo...
Pseudoknots are essential for the functioning of many small RNA molecules. In addition, viral RNAs o...
Abstract: Pseudoknots are essential for the functioning of many small RNA molecules. In addition, vi...
Abstract: Pseudoknots are essential for the functioning of many small RNA molecules. In addition, vi...
Pseudoknots are essential for the functioning of many small RNA molecules. In addition, viral RNAs o...
Motivation: Today many non-coding RNAs are known to play an active role in various important biologi...
In this paper, we address the problem of discovering novel non-coding RNA (ncRNA) using primary sequ...
In this paper, we address the problem of discovering novel non-coding RNA (ncRNA) using primary sequ...
In this paper, we address the problem of discovering novel non-coding RNA (ncRNA) using primary sequ...
We propose a new method for detecting conserved RNA secondary structures in a family of related RNA ...
We propose a new method for detecting conserved RNA secondary structures in a family of related RNA ...
Most functional RNA molecules have characteristic structures that are highly conserved in evolution....
Pseudoknots are a special kind of RNA structures that play functional roles in a wide variety of bio...
Pseudoknots are a special kind of RNA structures that play functional roles in a wide variety of bio...
International audienceSeveral algorithms and methods have been developed for RNA secondary structure...
Background: The analysis of sequence-structure relations of RNA is based on a specific notion and fo...