Topics
protein foldingElection
dynamicsMusic genre
Molecular evolutionElection
lattice modelsPerson
spin glassSchool
: Molecular evolution may be considered as a walk in a multidimensional fitness landscape, where the fitness at each point is associated with features such as the function, stability, and survivability of these molecules. We present a simple model for the evolution of protein sequences on a landscape with a precisely defined fitness function. We use simple lattice models to represent protein structures, with the ability of a protein sequence to fold into the structure with lowest energy, quantified as the foldability, representing the fitness of the sequence. The foldability of the sequence is characterized based on the spin glass model of protein folding. We consider evolution as a walk in this foldability landscape and study the n...
The properties of biomolecules depend both on physics and on the evolutionary process that formed th...
The intricate three-dimensional geometries of protein tertiary structures underlie protein function ...
We attempt to understand the evolutionary origin of protein folds by simulating their divergent evol...
Molecular evolution may be considered as a walk in a multidimensional fitness landscape, where the f...
We model the evolution of simple lattice proteins as a random walk in a fitness landscape, where the...
Proteins emerged from the evolutionary process shaped by natural selection. Insights into the evolut...
We attempt to understand the evolutionary origin of protein folds by simulating their divergent evol...
The goal of this thesis work was the computational simulation of the evolution of populations of lat...
The goal of this thesis work was the computational simulation of the evolution of populations of lat...
Abstract. The enormous size and complexity of genotypic sequence space frequently requires considera...
To understand the physical and evolutionary determinants of protein folding, we map out the complete...
The figure-to-structure maps for all uniquely folding sequences of short hydrophobic polar (HP) mode...
A lattice model is used to study mutations and compacting effects on protein folding rates and foldi...
The properties of biomolecules depend both on physics and on the evolutionary process that formed th...
The energy landscape theory of protein fol9.ing is based on a statistical description of a protein'...
The properties of biomolecules depend both on physics and on the evolutionary process that formed th...
The intricate three-dimensional geometries of protein tertiary structures underlie protein function ...
We attempt to understand the evolutionary origin of protein folds by simulating their divergent evol...
Molecular evolution may be considered as a walk in a multidimensional fitness landscape, where the f...
We model the evolution of simple lattice proteins as a random walk in a fitness landscape, where the...
Proteins emerged from the evolutionary process shaped by natural selection. Insights into the evolut...
We attempt to understand the evolutionary origin of protein folds by simulating their divergent evol...
The goal of this thesis work was the computational simulation of the evolution of populations of lat...
The goal of this thesis work was the computational simulation of the evolution of populations of lat...
Abstract. The enormous size and complexity of genotypic sequence space frequently requires considera...
To understand the physical and evolutionary determinants of protein folding, we map out the complete...
The figure-to-structure maps for all uniquely folding sequences of short hydrophobic polar (HP) mode...
A lattice model is used to study mutations and compacting effects on protein folding rates and foldi...
The properties of biomolecules depend both on physics and on the evolutionary process that formed th...
The energy landscape theory of protein fol9.ing is based on a statistical description of a protein'...
The properties of biomolecules depend both on physics and on the evolutionary process that formed th...
The intricate three-dimensional geometries of protein tertiary structures underlie protein function ...
We attempt to understand the evolutionary origin of protein folds by simulating their divergent evol...
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