Reduced computer modeling of proteins now has a history of about 30 years. In spite of the enormous increase in computing abilities, reduced models are still very important tools for theoretical studies of protein structure, dynamics and thermodynamics. Very simple, highly idealized lattice (and recently also off-lattice) models could be studied in great detail, providing valuable insight into the most general factors governing structure stability, folding kinetics and interactions responsible for characteristic two-state behavior near the folding temperature. More complex models now enable modeling of real proteins on the level of low to moderate resolution, allowing us to address more detailed questions. Ab initio protein structure predic...
©1995 American Institute of PhysicsThe electronic version of this article is the complete one and ca...
ABSTRACT Reduced lattice models of proteins and Monte Carlo dynamics were used to simulate the initi...
It should be possible to predict the fold of a protein into its native conformation, once we are giv...
In the post genomic era a possibility of theoretical prediction of protein structure from sequence o...
Computer simulations of biological systems provide novel data while both supporting and challenging ...
The goal of this thesis work was the computational simulation of the evolution of populations of lat...
Over the last decade, computer simulations have become an increasingly important tool to study prote...
This thesis describes a new protein structure model which is designed to enable the study of protein...
The topic of protein folding can be studied from two different points of view. The first is concerne...
A high resolution reduced model of proteins is used in Monte Carlo dynamics studies of the folding m...
From a physical perspective, the native structure of a protein is a consequence of physical forces a...
Fifty years ago, the structures of the alpha-helix, the beta-sheet, the alpha-helical coiled coil an...
Recent progress in understanding the principals of protein folding by a study of a simple lattice mo...
The folding characteristics of sequences reduced with a possibly simplified representation of five t...
© 2003 by the Biophysical SocietyReduced lattice models of proteins and Monte Carlo dynamics were us...
©1995 American Institute of PhysicsThe electronic version of this article is the complete one and ca...
ABSTRACT Reduced lattice models of proteins and Monte Carlo dynamics were used to simulate the initi...
It should be possible to predict the fold of a protein into its native conformation, once we are giv...
In the post genomic era a possibility of theoretical prediction of protein structure from sequence o...
Computer simulations of biological systems provide novel data while both supporting and challenging ...
The goal of this thesis work was the computational simulation of the evolution of populations of lat...
Over the last decade, computer simulations have become an increasingly important tool to study prote...
This thesis describes a new protein structure model which is designed to enable the study of protein...
The topic of protein folding can be studied from two different points of view. The first is concerne...
A high resolution reduced model of proteins is used in Monte Carlo dynamics studies of the folding m...
From a physical perspective, the native structure of a protein is a consequence of physical forces a...
Fifty years ago, the structures of the alpha-helix, the beta-sheet, the alpha-helical coiled coil an...
Recent progress in understanding the principals of protein folding by a study of a simple lattice mo...
The folding characteristics of sequences reduced with a possibly simplified representation of five t...
© 2003 by the Biophysical SocietyReduced lattice models of proteins and Monte Carlo dynamics were us...
©1995 American Institute of PhysicsThe electronic version of this article is the complete one and ca...
ABSTRACT Reduced lattice models of proteins and Monte Carlo dynamics were used to simulate the initi...
It should be possible to predict the fold of a protein into its native conformation, once we are giv...