A tool for a thorough investigation of RNA energy landscapes is presented. The topological details of these landscapes are represented by so called 'barrier trees', which give an ecient impression of the land-scape and its overall shape and characteristics. RNA Secondary Structure An interesting aspect concerning biomolecules is structure prediction. As RNA folding is thought to be of hierarchical nature [2], secondary structures can be seen as a coarse grained approach to the three di-mensional structures. G
Abstract In recent years it has become evident that functional RNAs in living organisms are not just...
In the realm of nucleic acid structures, secondary structure forms a conceptually important intermed...
Understanding of structure-function mapping is crucial to the study of the nature of biopolymers. Th...
Abstract: The analysis of RNA folding landscapes yields insights into the kinetic fold-ing behavior ...
Motivation: The function of an RNA molecule is not only linked to its native structure, which is usu...
The landscape concept is an old metaphor used by Sewall Wright to illustrate the evolution of specie...
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 ...
A wealth of information on RNA folding and ribonucleoprotein assembly has emerged from analyses of s...
In molecular biology, the secondary structure of a ribonucleic acid (RNA) molecule is closely relate...
Detailed knowledge of the energy landscape of a biopolymer molecule is a prerequisite for understand...
Barrier trees consisting of local minima and their connecting saddle points imply a natural coarse-g...
In recent years it has become evident that functional RNAs in living organisms are not just curious ...
Understanding the structural repertoire of RNA is crucial for RNA genomics research. Yet current met...
Background: The ability to access, search and analyse secondary structures of a lar...
Abstract In recent years it has become evident that functional RNAs in living organisms are not just...
In the realm of nucleic acid structures, secondary structure forms a conceptually important intermed...
Understanding of structure-function mapping is crucial to the study of the nature of biopolymers. Th...
Abstract: The analysis of RNA folding landscapes yields insights into the kinetic fold-ing behavior ...
Motivation: The function of an RNA molecule is not only linked to its native structure, which is usu...
The landscape concept is an old metaphor used by Sewall Wright to illustrate the evolution of specie...
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 ...
A wealth of information on RNA folding and ribonucleoprotein assembly has emerged from analyses of s...
In molecular biology, the secondary structure of a ribonucleic acid (RNA) molecule is closely relate...
Detailed knowledge of the energy landscape of a biopolymer molecule is a prerequisite for understand...
Barrier trees consisting of local minima and their connecting saddle points imply a natural coarse-g...
In recent years it has become evident that functional RNAs in living organisms are not just curious ...
Understanding the structural repertoire of RNA is crucial for RNA genomics research. Yet current met...
Background: The ability to access, search and analyse secondary structures of a lar...
Abstract In recent years it has become evident that functional RNAs in living organisms are not just...
In the realm of nucleic acid structures, secondary structure forms a conceptually important intermed...
Understanding of structure-function mapping is crucial to the study of the nature of biopolymers. Th...