Add to ORKGThe pressure behavior of proteins may be summarized as a the pressure-induced disordering of their structures. This thermodynamic parameter has effects on proteins that are similar but not identical to those induced by temperature, the other thermodynamic parameter. Of particular importance are the intermolecular interactions that follow partial protein unfolding and that give rise to the formation of fibrils. Because some proteins do not form fibrils under pressure, these observations can be related to the shape of the stability diagram. Weak interactions which are differently affected by hydrostatic pressure or temperature play a determinant role in protein stability. Pressure acts on the 2º, 3º and 4º structures of proteins which are mai...
Protein oligomerization has been associated with a wide range of diseases. High-pressure approaches ...
International audienceProtein oligomerization has been associated with a wide range of diseases. Hig...
The evidences are presented that the effects of pressure on proteins are inverted, in the range 2, 0...
The pressure behavior of proteins may be summarized as a the pressure-induced disordering of their s...
A thorough understanding of protein structure and stability requires that we elucidate the molecular...
In the last few years, hydrostatic pressure has been extensively used in the study of both protein f...
101 ref.International audienceHydrostatic pressure, as temperature, constitutes an efficient physica...
Protein aggregation and the subsequent deposition of the insoluble protein aggregates is known to be...
Pressure-induced unfolding of proteins in solution shows analogies to the pressure-induced amorphiza...
Proteins can be denatured by pressures of a few hundred MPa. This finding apparently contradicts the...
High pressure (up to 1000MPa) can affect protein conformation and can lead to protein denaturation, ...
AbstractA structural interpretation of the thermodynamic stability of proteins requires an understan...
Admitting the “Native”, “Unfolded” and “Fibril” states as the three basic generic states of proteins...
Previous studies show parabolic or elliptical regions of protein stability in the pressure–temperatu...
AbstractHigh hydrostatic pressures in the biologically relevant range (⩽ 1,200 bar) are known to cau...
Protein oligomerization has been associated with a wide range of diseases. High-pressure approaches ...
International audienceProtein oligomerization has been associated with a wide range of diseases. Hig...
The evidences are presented that the effects of pressure on proteins are inverted, in the range 2, 0...
The pressure behavior of proteins may be summarized as a the pressure-induced disordering of their s...
A thorough understanding of protein structure and stability requires that we elucidate the molecular...
In the last few years, hydrostatic pressure has been extensively used in the study of both protein f...
101 ref.International audienceHydrostatic pressure, as temperature, constitutes an efficient physica...
Protein aggregation and the subsequent deposition of the insoluble protein aggregates is known to be...
Pressure-induced unfolding of proteins in solution shows analogies to the pressure-induced amorphiza...
Proteins can be denatured by pressures of a few hundred MPa. This finding apparently contradicts the...
High pressure (up to 1000MPa) can affect protein conformation and can lead to protein denaturation, ...
AbstractA structural interpretation of the thermodynamic stability of proteins requires an understan...
Admitting the “Native”, “Unfolded” and “Fibril” states as the three basic generic states of proteins...
Previous studies show parabolic or elliptical regions of protein stability in the pressure–temperatu...
AbstractHigh hydrostatic pressures in the biologically relevant range (⩽ 1,200 bar) are known to cau...
Protein oligomerization has been associated with a wide range of diseases. High-pressure approaches ...
International audienceProtein oligomerization has been associated with a wide range of diseases. Hig...
The evidences are presented that the effects of pressure on proteins are inverted, in the range 2, 0...