Add to ORKGThe bulk thermodynamic properties of proteins originate from a varied and complex combination of interactions. We propose a simple model for the formation of ordered two-dimensional aggregates based on the interactions between pairs of annexinVmolecules. Simulations of this model are shown to reproduce the experimental observations of a honeycomb (p6) and a triangular (p3) crystalline phase. The simulations indicate that the transition between these two phases is first order. While this model is extremely simple in that it relies only on hard body and short-range directional interactions, it nevertheless captures the essential physics of the interactions between the protein molecules and reproduces the phase behavior observed in elec...
The phase behaviour of small globular proteins is often modeled by approximating them as spherical p...
The phase behaviour of small globular proteins is often modeled by approximating them as spherical p...
The phase behaviour of small globular proteins is often modeled by approximating them as spherical p...
The bulk thermodynamic properties of proteins originate from a varied and complex combination of in...
The bulk thermodynamic properties of proteins originate from a varied and complex combination of int...
The bulk thermodynamic properties of proteins originate from a varied and complex combination of int...
The bulk thermodynamic properties of proteins originate from a varied and complex combination of int...
The bulk thermodynamic properties of proteins originate from a varied and complex combination of int...
The bulk thermodynamic properties of membrane proteins originate from a complex combination of molec...
The bulk thermodynamic properties of membrane proteins originate from a complex combination of molec...
Lenhoff, AbrahamSandler, Stanley I.Protein phase behavior encompasses the formation of dense phases,...
We report a numerical simulation of the phase diagram of a simple model for membrane proteins constr...
The phase behaviour of small globular proteins is often modeled by approximating them as spherical p...
The phase behaviour of small globular proteins is often modeled by approximating them as spherical p...
The phase behaviour of small globular proteins is often modeled by approximating them as spherical p...
The phase behaviour of small globular proteins is often modeled by approximating them as spherical p...
The phase behaviour of small globular proteins is often modeled by approximating them as spherical p...
The phase behaviour of small globular proteins is often modeled by approximating them as spherical p...
The bulk thermodynamic properties of proteins originate from a varied and complex combination of in...
The bulk thermodynamic properties of proteins originate from a varied and complex combination of int...
The bulk thermodynamic properties of proteins originate from a varied and complex combination of int...
The bulk thermodynamic properties of proteins originate from a varied and complex combination of int...
The bulk thermodynamic properties of proteins originate from a varied and complex combination of int...
The bulk thermodynamic properties of membrane proteins originate from a complex combination of molec...
The bulk thermodynamic properties of membrane proteins originate from a complex combination of molec...
Lenhoff, AbrahamSandler, Stanley I.Protein phase behavior encompasses the formation of dense phases,...
We report a numerical simulation of the phase diagram of a simple model for membrane proteins constr...
The phase behaviour of small globular proteins is often modeled by approximating them as spherical p...
The phase behaviour of small globular proteins is often modeled by approximating them as spherical p...
The phase behaviour of small globular proteins is often modeled by approximating them as spherical p...
The phase behaviour of small globular proteins is often modeled by approximating them as spherical p...
The phase behaviour of small globular proteins is often modeled by approximating them as spherical p...
The phase behaviour of small globular proteins is often modeled by approximating them as spherical p...