We report a numerical simulation of the phase diagram of a simple model for membrane proteins constrained to move in a plane. In analogy with the corresponding three-dimensional models, the liquid–gas transition becomes metastable as the range of attraction decreases. Spontaneous crystallization happens much more readily in the two-dimensional models rather than in their three-dimensional counterparts
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...
Recent developments in biology seems to indicate that the Fluid Mosaic model of membrane proposed by...
We present a numerical simulation of the phase behavior of a simple model for a protein solution. We...
We present a numerical simulation of the phase behavior of a simple model for a protein solution. We...
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...
A simple model of globular proteins which incorporates anisotropic attractions is proposed. It is cl...
A simple model of globular proteins which incorporates anisotropic attractions is proposed. It is cl...
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 in...
Phospholipid membranes surround the cell and its internal organelles, and their multicomponent natur...
Phospholipid membranes surround the cell and its internal organelles, and their multicomponent natur...
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...
Recent developments in biology seems to indicate that the Fluid Mosaic model of membrane proposed by...
We present a numerical simulation of the phase behavior of a simple model for a protein solution. We...
We present a numerical simulation of the phase behavior of a simple model for a protein solution. We...
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...
A simple model of globular proteins which incorporates anisotropic attractions is proposed. It is cl...
A simple model of globular proteins which incorporates anisotropic attractions is proposed. It is cl...
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 in...
Phospholipid membranes surround the cell and its internal organelles, and their multicomponent natur...
Phospholipid membranes surround the cell and its internal organelles, and their multicomponent natur...
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...
Recent developments in biology seems to indicate that the Fluid Mosaic model of membrane proposed by...
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