We discuss the relation between the emergence of new phases with broken symmetry within the framework of simple models of biopolymers. We start with a classic model for a chain molecule of spherical beads tethered together, with the steric constraint that non-consecutive beads cannot overlap, and with a pairwise attractive square well potential accounting for the hydrophobic effect and promoting compaction. We then discuss the consequences of the successive breaking of spurious symmetries. First, we allow the partial interpenetration of consecutive beads. In addition to the standard high temperature coil phase and the low temperature collapsed phase, this results in a new class of marginally compact ground states comprising conformations re...
Self-assembling short peptides are attractive minimal systems for mimicking the constituents of livi...
AbstractPreviously, we employed a Maxwell counting distance constraint model (McDCM) to describe α-h...
This work explores the physics of self-interacting polymer chains, with an eye towards examining the...
We discuss the relation between the emergence of new phases with broken symmetry within the framewor...
We discuss the relation between the emergence of new phases with broken symmetry within the framewor...
A phase of matter is a familiar notion for inanimate physical matter. The nature of a phase of matte...
We use a micro-canonical Wang-Landau technique to study the equilibrium properties of a single flexi...
We present a model, based on symmetry and geometry, for proteins. Using elementary ideas from mathem...
Our work suggests that protein native state structures occupy a novel phase of matter corresponding ...
International audience; By shifting the balance between conformational entropy and internal energy, ...
We use Wang-Landau and replica exchange techniques to study the effect of an increasing stiffness on...
Biological molecules, such as polypeptides, form the basis for most of life's functions. These simpl...
Globular proteins are a critically important component of the network of life. We recently proposed ...
AbstractThis work reports an all-atom molecular dynamics study of the first stages of aggregation of...
In order to study the relation between backbone and side-chain ordering in proteins, we have perform...
Self-assembling short peptides are attractive minimal systems for mimicking the constituents of livi...
AbstractPreviously, we employed a Maxwell counting distance constraint model (McDCM) to describe α-h...
This work explores the physics of self-interacting polymer chains, with an eye towards examining the...
We discuss the relation between the emergence of new phases with broken symmetry within the framewor...
We discuss the relation between the emergence of new phases with broken symmetry within the framewor...
A phase of matter is a familiar notion for inanimate physical matter. The nature of a phase of matte...
We use a micro-canonical Wang-Landau technique to study the equilibrium properties of a single flexi...
We present a model, based on symmetry and geometry, for proteins. Using elementary ideas from mathem...
Our work suggests that protein native state structures occupy a novel phase of matter corresponding ...
International audience; By shifting the balance between conformational entropy and internal energy, ...
We use Wang-Landau and replica exchange techniques to study the effect of an increasing stiffness on...
Biological molecules, such as polypeptides, form the basis for most of life's functions. These simpl...
Globular proteins are a critically important component of the network of life. We recently proposed ...
AbstractThis work reports an all-atom molecular dynamics study of the first stages of aggregation of...
In order to study the relation between backbone and side-chain ordering in proteins, we have perform...
Self-assembling short peptides are attractive minimal systems for mimicking the constituents of livi...
AbstractPreviously, we employed a Maxwell counting distance constraint model (McDCM) to describe α-h...
This work explores the physics of self-interacting polymer chains, with an eye towards examining the...