Add to ORKGABSTRACT We present a coarse-grained approach for modeling the thermodynamic stability of single-domain globular proteins in concentrated aqueous solutions. Our treatment derives effective protein-protein interactions from basic structural and energetic characteristics of the native and denatured states. These characteristics, along with the intrinsic (i.e., infinite dilution) thermodynamics of folding, are calculated from elementary sequence information using a heteropolymer collapse theory. We integrate this information into Reactive Canonical Monte Carlo simulations to investigate the connections between protein sequence hydrophobicity, protein-protein interactions, protein concentration, and the thermodynamic stability of the native sta...
Treballs Finals de Grau de Física, Facultat de Física, Universitat de Barcelona, Any: 2015, Tutor: G...
We study the thermodynamic and kinetic consequences of the competition between single-protein foldin...
Solvation and hydrophobicity drive many critical processes in nature, playing an important role in t...
AbstractWe present a coarse-grained approach for modeling the thermodynamic stability of single-doma...
textIn this dissertation, we develop a coarse-grained model to study protein stability in concentra...
ABSTRACT We use highly efficient transition-matrix Monte Carlo simulations to determine equilibrium ...
AbstractWe use highly efficient transition-matrix Monte Carlo simulations to determine equilibrium u...
AbstractWe extend our coarse-grained modeling strategy described in parts I and II of this investiga...
AbstractWe revisit a heteropolymer collapse theory originally introduced to explore how the balance ...
Globular proteins are produced as a linear chain of aminoacids in water solution in the cell and, in...
The mechanisms of cold and pressure denaturation of proteins are matter of debate and are commonly u...
Recent years have seen an increasing number of biophysical studies of proteins being conducted in ce...
Proteins tend to adopt a single or a reduced ensemble of configurations at natural conditions [1], b...
We study theoretically thermodynamic properties of spherical globular proteins in aqueous solution w...
The dense, heterogeneous cellular environment is known to affect protein stability through interacti...
Treballs Finals de Grau de Física, Facultat de Física, Universitat de Barcelona, Any: 2015, Tutor: G...
We study the thermodynamic and kinetic consequences of the competition between single-protein foldin...
Solvation and hydrophobicity drive many critical processes in nature, playing an important role in t...
AbstractWe present a coarse-grained approach for modeling the thermodynamic stability of single-doma...
textIn this dissertation, we develop a coarse-grained model to study protein stability in concentra...
ABSTRACT We use highly efficient transition-matrix Monte Carlo simulations to determine equilibrium ...
AbstractWe use highly efficient transition-matrix Monte Carlo simulations to determine equilibrium u...
AbstractWe extend our coarse-grained modeling strategy described in parts I and II of this investiga...
AbstractWe revisit a heteropolymer collapse theory originally introduced to explore how the balance ...
Globular proteins are produced as a linear chain of aminoacids in water solution in the cell and, in...
The mechanisms of cold and pressure denaturation of proteins are matter of debate and are commonly u...
Recent years have seen an increasing number of biophysical studies of proteins being conducted in ce...
Proteins tend to adopt a single or a reduced ensemble of configurations at natural conditions [1], b...
We study theoretically thermodynamic properties of spherical globular proteins in aqueous solution w...
The dense, heterogeneous cellular environment is known to affect protein stability through interacti...
Treballs Finals de Grau de Física, Facultat de Física, Universitat de Barcelona, Any: 2015, Tutor: G...
We study the thermodynamic and kinetic consequences of the competition between single-protein foldin...
Solvation and hydrophobicity drive many critical processes in nature, playing an important role in t...