Add to ORKGThe function of proteins arises from cooperative interactions and rearrangements of their amino acids, which exhibit large-scale dynamical modes. Long-range correlations have also been revealed in protein sequences, and this has motivated the search for physical links between the observed genetic and dynamic cooperativity. We outline here a simplified theory of protein, which relates sequence correlations to physical interactions and to the emergence of mechanical function. Our protein is modeled as a strongly coupled amino acid network with interactions and motions that are captured by the mechanical propagator, the Green function. The propagator describes how the gene determines the connectivity of the amino acids and thereby, the transmi...
Experimentally derived structural constraints have been crucial to the implementation of computation...
Protein is matter of dual nature. As a physical object, a protein molecule is a folded chain of amin...
BACKGROUND: Plant MADS domain proteins are involved in a variety of developmental processes for whic...
The function of proteins arises from cooperative interactions and rearrangements of their amino acid...
How DNA is mapped to functional proteins is a basic question of living matter. We introduce and stud...
Living systems evolve one mutation at a time, but a single mutation can alter the effect of subseque...
Investigating correlations is the key to understanding the nature of biological systems. In general,...
Evolution of biological systems requires players of multiple layers, from atoms and molecules to org...
Statistical analysis of alignments of large numbers of protein sequences has revealed “sectors” of c...
© 2019 American Physical Society.Protein is matter of dual nature. As a physical object, a protein m...
Statistical analysis of alignments of large numbers of protein sequences has revealed "sectors" of c...
Evolution is the defining feature of living matter. It occurs most fundamentally on the scale of bi...
The evolution of new biochemical activities frequently involves complex dependencies between mutatio...
The evolution of new biochemical activities frequently involves complex dependencies between mutatio...
<div><p>The correspondence between protein sequences and structures, or <i>sequence-structure map</i...
Experimentally derived structural constraints have been crucial to the implementation of computation...
Protein is matter of dual nature. As a physical object, a protein molecule is a folded chain of amin...
BACKGROUND: Plant MADS domain proteins are involved in a variety of developmental processes for whic...
The function of proteins arises from cooperative interactions and rearrangements of their amino acid...
How DNA is mapped to functional proteins is a basic question of living matter. We introduce and stud...
Living systems evolve one mutation at a time, but a single mutation can alter the effect of subseque...
Investigating correlations is the key to understanding the nature of biological systems. In general,...
Evolution of biological systems requires players of multiple layers, from atoms and molecules to org...
Statistical analysis of alignments of large numbers of protein sequences has revealed “sectors” of c...
© 2019 American Physical Society.Protein is matter of dual nature. As a physical object, a protein m...
Statistical analysis of alignments of large numbers of protein sequences has revealed "sectors" of c...
Evolution is the defining feature of living matter. It occurs most fundamentally on the scale of bi...
The evolution of new biochemical activities frequently involves complex dependencies between mutatio...
The evolution of new biochemical activities frequently involves complex dependencies between mutatio...
<div><p>The correspondence between protein sequences and structures, or <i>sequence-structure map</i...
Experimentally derived structural constraints have been crucial to the implementation of computation...
Protein is matter of dual nature. As a physical object, a protein molecule is a folded chain of amin...
BACKGROUND: Plant MADS domain proteins are involved in a variety of developmental processes for whic...