Abstract: The analysis of RNA folding landscapes yields insights into the kinetic fold-ing behavior not available from classical structure prediction methods. This is espe-cially important for multi-stable RNAs whose function is related to structural changes, as in the case of riboswitches. However, exact methods such as barrier tree analysis scale exponentially with sequence length. Here we present an algorithm that com-putes a projection of the energy landscape into two dimensions, namely the distances to two reference structures. This yields an abstraction of the high-dimensional energy landscape that can be conveniently visualized, and can serve as the basis for estimating energy barriers and refolding pathways. With an asymptotic time ...
Dynamical changes of RNA secondary structures play an important role in the function of many regulat...
Energy landscapes provide a valuable means for studying the fold-ing dynamics of short RNA molecules...
Knowledge of the energy landscape of an RNA molecule is necessary to understand its folding kinetics...
Dynamical models that explain the formation of spatial structures of RNA molecules have reached a co...
The increasing complexity of models for prediction of the native spatial structure of RNA molecules ...
Motivation: Energy landscapes provide a valuable means for studying the folding dynamics of short RN...
Motivation: RNA folding is a complicated kinetic process. The minimum free energy structure provides...
In molecular biology, the secondary structure of a ribonucleic acid (RNA) molecule is closely relate...
Barrier trees consisting of local minima and their connecting saddle points imply a natural coarse-g...
Dynamical changes of RNA secondary structures play an important role in the function of many regulat...
Motivation: The function of an RNA molecule is not only linked to its native structure, which is usu...
Background: Accurately predicting low energy barrier folding pathways between conformational seconda...
A tool for a thorough investigation of RNA energy landscapes is presented. The topological details o...
It has recently been found that some RNA functions are determined by the actual folding kinetics and...
The ability to fold into well-defined native conformation is a prerequisite for biologically functio...
Dynamical changes of RNA secondary structures play an important role in the function of many regulat...
Energy landscapes provide a valuable means for studying the fold-ing dynamics of short RNA molecules...
Knowledge of the energy landscape of an RNA molecule is necessary to understand its folding kinetics...
Dynamical models that explain the formation of spatial structures of RNA molecules have reached a co...
The increasing complexity of models for prediction of the native spatial structure of RNA molecules ...
Motivation: Energy landscapes provide a valuable means for studying the folding dynamics of short RN...
Motivation: RNA folding is a complicated kinetic process. The minimum free energy structure provides...
In molecular biology, the secondary structure of a ribonucleic acid (RNA) molecule is closely relate...
Barrier trees consisting of local minima and their connecting saddle points imply a natural coarse-g...
Dynamical changes of RNA secondary structures play an important role in the function of many regulat...
Motivation: The function of an RNA molecule is not only linked to its native structure, which is usu...
Background: Accurately predicting low energy barrier folding pathways between conformational seconda...
A tool for a thorough investigation of RNA energy landscapes is presented. The topological details o...
It has recently been found that some RNA functions are determined by the actual folding kinetics and...
The ability to fold into well-defined native conformation is a prerequisite for biologically functio...
Dynamical changes of RNA secondary structures play an important role in the function of many regulat...
Energy landscapes provide a valuable means for studying the fold-ing dynamics of short RNA molecules...
Knowledge of the energy landscape of an RNA molecule is necessary to understand its folding kinetics...