Add to ORKGWe review some results concerning the energetic and dynamical consequences of taking a generic hydrophobic model of a random polypeptide chain, where the effective hydrophobic interactions are represented by Hookean springs. Then we present a set of calculations on a microscopic model of hydrophobic interactions, investigating the behaviour of a hydrophobic chain in the vicinity of a hydrophobic boundary. We conclude with some speculations as to the thermodynamics of pre-biotic functions proteins may have discharged very early on in the evolutionary past
AbstractWe revisit a heteropolymer collapse theory originally introduced to explore how the balance ...
Completely microscopic theories of protein folding must take into account chain dynamics. The energ...
A lattice model is used to study mutations and compacting effects on protein folding rates and foldi...
We review some results concerning the energetic and dynamical consequences of taking a generic hydro...
The protein folding problem is addressed focussing on the hydro- phobicity patterns in the amino aci...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Physics, 2016.Cataloged from PD...
In this review of protein folding we consider the noncovalent interactions existing between a...
The physics of self-organization and complexity is manifested on a variety of biological scales, fro...
Sequence-based models for protein folding are developed and tested on peptides with both alpha- and ...
We explore the correlation between the energy landscape and topology in the folding of a model prote...
Starting with the Levinthal paradox, a brief introduction to the protein folding problem is presente...
Globular proteins are produced as a linear chain of aminoacids in water solution in the cell and, in...
We present a statistical mechanics formalism for theoretical description of the process of...
The free energy landscape of a protein-like chain is constructed from exhaustive simulation studies ...
The question of whether proteins originate from random sequences of amino acids is addressed. A stat...
AbstractWe revisit a heteropolymer collapse theory originally introduced to explore how the balance ...
Completely microscopic theories of protein folding must take into account chain dynamics. The energ...
A lattice model is used to study mutations and compacting effects on protein folding rates and foldi...
We review some results concerning the energetic and dynamical consequences of taking a generic hydro...
The protein folding problem is addressed focussing on the hydro- phobicity patterns in the amino aci...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Physics, 2016.Cataloged from PD...
In this review of protein folding we consider the noncovalent interactions existing between a...
The physics of self-organization and complexity is manifested on a variety of biological scales, fro...
Sequence-based models for protein folding are developed and tested on peptides with both alpha- and ...
We explore the correlation between the energy landscape and topology in the folding of a model prote...
Starting with the Levinthal paradox, a brief introduction to the protein folding problem is presente...
Globular proteins are produced as a linear chain of aminoacids in water solution in the cell and, in...
We present a statistical mechanics formalism for theoretical description of the process of...
The free energy landscape of a protein-like chain is constructed from exhaustive simulation studies ...
The question of whether proteins originate from random sequences of amino acids is addressed. A stat...
AbstractWe revisit a heteropolymer collapse theory originally introduced to explore how the balance ...
Completely microscopic theories of protein folding must take into account chain dynamics. The energ...
A lattice model is used to study mutations and compacting effects on protein folding rates and foldi...