We explicitly show the connection between the protein folding problem and spin glass transition. This is then used to identify appropriate quantities that are required to describe the transition. A possible way of observing the spin glass transition is proposed
Librational motions in the region of the protein "glass" (or dynamic) transition are analysed for sp...
Proteins are polymers, whose complex chemistry and physics, in the course of evo-lution, permitted t...
Folded proteins and spin glasses share various properties, such as seemingly random interactions bet...
The similarity between spin glasses and proteins is that both have complex energy landscapes with mu...
URL: http://www-spht.cea.fr/articles/T93/023 (sur invitation). AbstractInternational audienceProtein...
The way in which the three-dimensional structure of a protein is determined by the one dimensional s...
A simple spin system is studied as an analog for proteins. We investigate how the introduction of ra...
In this thesis we have used concepts from the physics of disordered materials to study protein fold...
Recent progress in understanding the principals of protein folding by a study of a simple lattice mo...
Background: Protein engineering has been used extensively to evaluate the properties of transition s...
The existing experimental data on protein folding is briefly reviewed. It is argued that the optima...
The physics of self-organization and complexity is manifested on a variety of biological scales, fro...
Fully understanding protein folding is a current problem at the interface of biology and physics wit...
Protein folding-unfolding is a key issue in metabolism, also involved in several diseases, such as ...
We present a formalism which turns out to be very successful in the description of the polypeptide f...
Librational motions in the region of the protein "glass" (or dynamic) transition are analysed for sp...
Proteins are polymers, whose complex chemistry and physics, in the course of evo-lution, permitted t...
Folded proteins and spin glasses share various properties, such as seemingly random interactions bet...
The similarity between spin glasses and proteins is that both have complex energy landscapes with mu...
URL: http://www-spht.cea.fr/articles/T93/023 (sur invitation). AbstractInternational audienceProtein...
The way in which the three-dimensional structure of a protein is determined by the one dimensional s...
A simple spin system is studied as an analog for proteins. We investigate how the introduction of ra...
In this thesis we have used concepts from the physics of disordered materials to study protein fold...
Recent progress in understanding the principals of protein folding by a study of a simple lattice mo...
Background: Protein engineering has been used extensively to evaluate the properties of transition s...
The existing experimental data on protein folding is briefly reviewed. It is argued that the optima...
The physics of self-organization and complexity is manifested on a variety of biological scales, fro...
Fully understanding protein folding is a current problem at the interface of biology and physics wit...
Protein folding-unfolding is a key issue in metabolism, also involved in several diseases, such as ...
We present a formalism which turns out to be very successful in the description of the polypeptide f...
Librational motions in the region of the protein "glass" (or dynamic) transition are analysed for sp...
Proteins are polymers, whose complex chemistry and physics, in the course of evo-lution, permitted t...
Folded proteins and spin glasses share various properties, such as seemingly random interactions bet...
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