Background: RNA secondary structure prediction by energy minimization is the central computational tool for the analysis of structural non-coding RNAs and their interactions. Sparsification has been successfully applied to improve the time efficiency of various structure prediction algorithms while guaranteeing the same result; however, for many such folding problems, space efficiency is of even greater concern, particularly for long RNA sequences. So far, spaceefficient sparsified RNA folding with fold reconstruction was solved only for simple base-pair-based pseudo-energy models. Results: Here, we revisit the problem of space-efficient free energy minimization. Whereas the space-efficient minimization of the free energy has been sketched ...
Thermodynamic folding algorithms and structure probing experiments are commonly used to determine th...
RNA has a diverse array of cellular functions, and relies on molecular structure to carry them out. ...
In molecular biology, the secondary structure of a ribonucleic acid (RNA) molecule is closely relate...
Background: RNA secondary structure prediction by energy minimization is the central computational t...
RNA molecules are crucial in different levels of cellular function, and their functions largely depe...
Algorithms for prediction of RNA secondary structure— the set of base pairs that form when an RNA mo...
AbstractThe currently fastest algorithm for RNA Single Strand Folding requires O(nZ) time and Θ(n2) ...
Motivation: RNA secondary structures with pseudoknots are often predicted by minimizing free energy,...
Abstract. Predicting the folding of an RNA sequence, while allow-ing general pseudoknots (PK), consi...
ABSTRACT: BACKGROUND: Many bioinformatics tools for RNA secondary structure analysis are based on a ...
While computational RNA secondary structure prediction is an important tool in RNA research, it is s...
RNA molecules play important roles, including catalysis of chemical reactions and control of gene ex...
Abstract Background An RNA folding/RNA secondary structure prediction algorithm determines the non-n...
RNA sequence analysis and structure prediction are classical topics of computational biology and a p...
Motivation: The structure of RNA molecules is often crucial for their function. Therefore, secondary...
Thermodynamic folding algorithms and structure probing experiments are commonly used to determine th...
RNA has a diverse array of cellular functions, and relies on molecular structure to carry them out. ...
In molecular biology, the secondary structure of a ribonucleic acid (RNA) molecule is closely relate...
Background: RNA secondary structure prediction by energy minimization is the central computational t...
RNA molecules are crucial in different levels of cellular function, and their functions largely depe...
Algorithms for prediction of RNA secondary structure— the set of base pairs that form when an RNA mo...
AbstractThe currently fastest algorithm for RNA Single Strand Folding requires O(nZ) time and Θ(n2) ...
Motivation: RNA secondary structures with pseudoknots are often predicted by minimizing free energy,...
Abstract. Predicting the folding of an RNA sequence, while allow-ing general pseudoknots (PK), consi...
ABSTRACT: BACKGROUND: Many bioinformatics tools for RNA secondary structure analysis are based on a ...
While computational RNA secondary structure prediction is an important tool in RNA research, it is s...
RNA molecules play important roles, including catalysis of chemical reactions and control of gene ex...
Abstract Background An RNA folding/RNA secondary structure prediction algorithm determines the non-n...
RNA sequence analysis and structure prediction are classical topics of computational biology and a p...
Motivation: The structure of RNA molecules is often crucial for their function. Therefore, secondary...
Thermodynamic folding algorithms and structure probing experiments are commonly used to determine th...
RNA has a diverse array of cellular functions, and relies on molecular structure to carry them out. ...
In molecular biology, the secondary structure of a ribonucleic acid (RNA) molecule is closely relate...