We discuss how the free energies of wild-type (normal) and mutant proteins can vary below the permissive temperature, and how ‘inverse melting’ behaviour may be possible if the mutant phase orders more quickly than the wild-type phase.<div><br><div>Some interaction between mutant phase molecules will reduce the entropy of the mutant phase relative to the wild phase, and thus facilitate inverse melting. Excessive interaction between mutant phase molecules will likely cause them to aggregate, producing insoluble precipitates of mutant phase.<br></div><div><br></div><div>We suggest that a folding protein molecule will be repelled away from three-dimensional configurations that host unstable dynamic modes, towards arrangements that support stab...
Many proteins are rapidly deactivated when exposed to high or even ambient temperatures. This cannot...
It has been noted by scientists that certain native, protein structures occur more frequently than o...
URL: http://www-spht.cea.fr/articles/T93/023 (sur invitation). AbstractInternational audienceProtein...
A lattice model is used to study mutations and compacting effects on protein folding rates and foldi...
Denatured proteins, which have had essentially all of their native three-dimensional structure disru...
By balancing the average energy gap with its typical change due to mutations for proteinlike heterop...
The physics of self-organization and complexity is manifested on a variety of biological scales, fro...
We study the thermodynamic and kinetic consequences of the competition between single-protein foldin...
Proteins are often described in textbooks as being only "marginally stable" but many proteins, speci...
It is difficult to determine whether transient folding intermediates have a cooperative (or first-or...
Conventional cooperative protein folding invokes discrete ensembles of native and denatured state st...
BackgroundRecent data have suggested two principles that are central to the work we describe here. F...
The properties of biomolecules depend both on physics and on the evolutionary process that formed th...
Thermodynamic hypothesis and kinetic stability are currently used to understand protein folding. The...
The energy landscape theory has been an invaluable theoretical framework in the understanding of bio...
Many proteins are rapidly deactivated when exposed to high or even ambient temperatures. This cannot...
It has been noted by scientists that certain native, protein structures occur more frequently than o...
URL: http://www-spht.cea.fr/articles/T93/023 (sur invitation). AbstractInternational audienceProtein...
A lattice model is used to study mutations and compacting effects on protein folding rates and foldi...
Denatured proteins, which have had essentially all of their native three-dimensional structure disru...
By balancing the average energy gap with its typical change due to mutations for proteinlike heterop...
The physics of self-organization and complexity is manifested on a variety of biological scales, fro...
We study the thermodynamic and kinetic consequences of the competition between single-protein foldin...
Proteins are often described in textbooks as being only "marginally stable" but many proteins, speci...
It is difficult to determine whether transient folding intermediates have a cooperative (or first-or...
Conventional cooperative protein folding invokes discrete ensembles of native and denatured state st...
BackgroundRecent data have suggested two principles that are central to the work we describe here. F...
The properties of biomolecules depend both on physics and on the evolutionary process that formed th...
Thermodynamic hypothesis and kinetic stability are currently used to understand protein folding. The...
The energy landscape theory has been an invaluable theoretical framework in the understanding of bio...
Many proteins are rapidly deactivated when exposed to high or even ambient temperatures. This cannot...
It has been noted by scientists that certain native, protein structures occur more frequently than o...
URL: http://www-spht.cea.fr/articles/T93/023 (sur invitation). AbstractInternational audienceProtein...