We present a generic, problem-independent algorithm for exploration of the low-energy portion of the energy landscape of discrete systems and apply it to the energy landscape of lattice proteins. Starting from a set of optimal and near-optimal conformations derived from a constraint-based search technique, we are able to selectively investigate the lower part of lattice protein energy landscapes in two and three dimensions. This novel approach allows, in contrast to exhaustive enumeration, for an efficient calculation of optimal and near-optimal structures below a given energy threshold and is only limited by the available amount of memory. A straightforward application of the algorithm is the calculation of barrier trees (representing the ...
We evaluate the efficiency of multiple variants of energy landscape paving in all-atom simulations o...
Recent advances in the potential energy landscapes approach are highlighted, including both theoreti...
Understanding how and why a protein folds to a well defined structure would be a great scientific ad...
We present a generic, problem-independent algorithm for exploration of the low-energy portion of the...
We present a generic, problem-independent algorithm for exploration of the low-energy portion of th...
The folding of biopolymers is crucially determined by the properties and the topology of the underly...
The ability of biomolecules like DNA, RNA or pro-teins to fold into a well-defined native state is a...
The energy landscape of two-dimensional lattice polymers is investigated, using the so-called lid a...
International audienceThe number of local minima of the potential energy landscape (PEL) of molecula...
International audienceThe number of local minima of the potential energy landscape (PEL) of molecula...
This thesis discusses recent results using the Associative-memory, Water-mediated, Structure and Ene...
International audienceWe present novel algorithms and software addressing four core problemsin compu...
International audienceWe present novel algorithms and software addressing four core problems in comp...
The study of energy landscapes of biopolymers and their models is an important field in bioinformati...
The energy landscape theory of protein fol9.ing is based on a statistical description of a protein'...
We evaluate the efficiency of multiple variants of energy landscape paving in all-atom simulations o...
Recent advances in the potential energy landscapes approach are highlighted, including both theoreti...
Understanding how and why a protein folds to a well defined structure would be a great scientific ad...
We present a generic, problem-independent algorithm for exploration of the low-energy portion of the...
We present a generic, problem-independent algorithm for exploration of the low-energy portion of th...
The folding of biopolymers is crucially determined by the properties and the topology of the underly...
The ability of biomolecules like DNA, RNA or pro-teins to fold into a well-defined native state is a...
The energy landscape of two-dimensional lattice polymers is investigated, using the so-called lid a...
International audienceThe number of local minima of the potential energy landscape (PEL) of molecula...
International audienceThe number of local minima of the potential energy landscape (PEL) of molecula...
This thesis discusses recent results using the Associative-memory, Water-mediated, Structure and Ene...
International audienceWe present novel algorithms and software addressing four core problemsin compu...
International audienceWe present novel algorithms and software addressing four core problems in comp...
The study of energy landscapes of biopolymers and their models is an important field in bioinformati...
The energy landscape theory of protein fol9.ing is based on a statistical description of a protein'...
We evaluate the efficiency of multiple variants of energy landscape paving in all-atom simulations o...
Recent advances in the potential energy landscapes approach are highlighted, including both theoreti...
Understanding how and why a protein folds to a well defined structure would be a great scientific ad...