Dynamic Programming Algorithms solve many standard problems of RNA bioinformatics in polynomial time. In this contribution we discuss a series of variations on these standard methods that implement refined biophysical models, such as a restriction of RNA folding to canonical structures, and an extension of structural alignments to an explicit scoring of stacking propensities. Furthermore, we demonstrate that a local structural alignment can be employed for ncRNA gene finding. In this context we discuss scanning variants for folding and alignment algorithms
International audienceWe describe a theoretical unifying framework to express the comparison of RNA ...
Non-coding RNAs (ncRNAs) are receiving more and more attention not only as an abundant class of gene...
textThe accurate prediction of an RNA secondary structure from its sequence will enhance the experim...
Dynamic Programming Algorithms solve many standard problems of RNA bioinformatics in polynomial time...
In molecular biology, the secondary structure of a ribonucleic acid (RNA) molecule is closely relate...
In the realm of nucleic acid structures, secondary structure forms a conceptually important intermed...
RNA 3D structural alignment yields valuable information on their functional conservation and evoluti...
AbstractThis paper addresses the problem of aligning multiple sequences of noncoding RNA (ncRNA) gen...
Abstract Background Covariance models (CMs) are probabilistic models of RNA secondary structure, ana...
Abstract. mRNA molecules are folded in the cells and therefore many of their substrings may actually...
functional classes of RNA molecules exhibit a highly conserved secondary structure but little sequen...
International audienceMOTIVATION: Elucidating the functions of non-coding RNAs by homology has been ...
Motivation: Structural RNA genes exhibit unique evolutionary patterns that are designed to conserve ...
Motivation: The regulatory functions performed by non-coding RNAs are related to their 3D struc-ture...
One of the main tasks in computational biology is the computation of alignments of genomic sequences...
International audienceWe describe a theoretical unifying framework to express the comparison of RNA ...
Non-coding RNAs (ncRNAs) are receiving more and more attention not only as an abundant class of gene...
textThe accurate prediction of an RNA secondary structure from its sequence will enhance the experim...
Dynamic Programming Algorithms solve many standard problems of RNA bioinformatics in polynomial time...
In molecular biology, the secondary structure of a ribonucleic acid (RNA) molecule is closely relate...
In the realm of nucleic acid structures, secondary structure forms a conceptually important intermed...
RNA 3D structural alignment yields valuable information on their functional conservation and evoluti...
AbstractThis paper addresses the problem of aligning multiple sequences of noncoding RNA (ncRNA) gen...
Abstract Background Covariance models (CMs) are probabilistic models of RNA secondary structure, ana...
Abstract. mRNA molecules are folded in the cells and therefore many of their substrings may actually...
functional classes of RNA molecules exhibit a highly conserved secondary structure but little sequen...
International audienceMOTIVATION: Elucidating the functions of non-coding RNAs by homology has been ...
Motivation: Structural RNA genes exhibit unique evolutionary patterns that are designed to conserve ...
Motivation: The regulatory functions performed by non-coding RNAs are related to their 3D struc-ture...
One of the main tasks in computational biology is the computation of alignments of genomic sequences...
International audienceWe describe a theoretical unifying framework to express the comparison of RNA ...
Non-coding RNAs (ncRNAs) are receiving more and more attention not only as an abundant class of gene...
textThe accurate prediction of an RNA secondary structure from its sequence will enhance the experim...