In a similar way in which the folding of single-domain proteins provides an important test in the study of self-organization, the folding of homodimers constitutes a basic challenge in the quest for the mechanisms that are the basis of biological recognition. Dimerization is studied by following the evolution of two identical 20-letter amino acid chains within the framework of a lattice model and using Monte Carlo simulations. It is found that when design (evolution pressure) selects few, strongly interacting (conserved) amino acids to control the process, a three-state folding scenario follows, where the monomers first fold forming the halves of the eventual dimeric interface independently of each other, and then dimerize ("lock and key" k...
Sequence-based models for protein folding are developed and tested on peptides with both alpha- and ...
AbstractProtein-protein interactions govern a wide range of cellular processes. Molecular recognitio...
We currently have a great deal of experimental data about how particular proteins fold, but no descr...
Square lattice protein models are used to study the competition between folding and aggregation phen...
Fundamental questions about role of the quaternary structures are addressed by using a statistical m...
As they are not subjected to natural selection process, de novo designed proteins usually fold in a ...
A minimalist representation of protein structures using a Go- like potential for interactions is imp...
AbstractA minimalist representation of protein structures using a Go-like potential for interactions...
Protein aggregation is studied by following the simultaneous folding of two designed identical 20-le...
Intrinsically disordered proteins (IDPs) lack a well-defined 3D structure. Their disordered nature e...
The intricate three-dimensional geometries of protein tertiary structures underlie protein function ...
ABSTRACT: A method that employs a transfer matrix treatment combined with Monte Carlo sampling has b...
Background: Over the past few years novel folding mechanisms of globular proteins have been proposed...
A majority of cellular proteins function as part of multimeric complexes of two or more subunits. Mu...
The intricate three-dimensional geometries of protein tertiary structures underlie protein function ...
Sequence-based models for protein folding are developed and tested on peptides with both alpha- and ...
AbstractProtein-protein interactions govern a wide range of cellular processes. Molecular recognitio...
We currently have a great deal of experimental data about how particular proteins fold, but no descr...
Square lattice protein models are used to study the competition between folding and aggregation phen...
Fundamental questions about role of the quaternary structures are addressed by using a statistical m...
As they are not subjected to natural selection process, de novo designed proteins usually fold in a ...
A minimalist representation of protein structures using a Go- like potential for interactions is imp...
AbstractA minimalist representation of protein structures using a Go-like potential for interactions...
Protein aggregation is studied by following the simultaneous folding of two designed identical 20-le...
Intrinsically disordered proteins (IDPs) lack a well-defined 3D structure. Their disordered nature e...
The intricate three-dimensional geometries of protein tertiary structures underlie protein function ...
ABSTRACT: A method that employs a transfer matrix treatment combined with Monte Carlo sampling has b...
Background: Over the past few years novel folding mechanisms of globular proteins have been proposed...
A majority of cellular proteins function as part of multimeric complexes of two or more subunits. Mu...
The intricate three-dimensional geometries of protein tertiary structures underlie protein function ...
Sequence-based models for protein folding are developed and tested on peptides with both alpha- and ...
AbstractProtein-protein interactions govern a wide range of cellular processes. Molecular recognitio...
We currently have a great deal of experimental data about how particular proteins fold, but no descr...