Fold switching may play a role in the evolution of new protein folds and functions. He et al., in this issue of Structure, use protein design to illustrate that the same drastic change in a protein fold can occur via multiple different mutational pathways
© 2000 by the Biophysical SocietyThe impact on protein evolution of the physical laws that govern fo...
Experimental studies show that many proteins fold along sequential pathways defined by folding inter...
AbstractProtein-protein interactions govern a wide range of cellular processes. Molecular recognitio...
Fold switching may play a role in the evolution of new protein folds and functions. He et al., in th...
SummaryWhile disordered to ordered rearrangements are relatively common, the ability of proteins to ...
AbstractRecent protein design experiments have demonstrated that proteins can migrate between folds ...
AbstractMetamorphic proteins, including proteins with high levels of sequence identity but different...
The architecture of present-day protein interaction networks depends on how protein associations evo...
Recent protein design experiments have demonstrated that proteins can migrate between folds through ...
The diverse array of protein functions depends upon these molecules' reliable ability to fold into t...
The ability of mutations to change the fold of a protein provides evolutionary pathways to new struc...
AbstractA small number of folding patterns describe in outline most of the known protein globules, t...
Protein domains are three-dimensional arrangements of atomic structure that are recurrent in the pro...
SummaryProtein structures cluster into families of folds that can result from extremely different am...
Proteins are the basic building blocks and functional units in all living organisms. Moreover, diff...
© 2000 by the Biophysical SocietyThe impact on protein evolution of the physical laws that govern fo...
Experimental studies show that many proteins fold along sequential pathways defined by folding inter...
AbstractProtein-protein interactions govern a wide range of cellular processes. Molecular recognitio...
Fold switching may play a role in the evolution of new protein folds and functions. He et al., in th...
SummaryWhile disordered to ordered rearrangements are relatively common, the ability of proteins to ...
AbstractRecent protein design experiments have demonstrated that proteins can migrate between folds ...
AbstractMetamorphic proteins, including proteins with high levels of sequence identity but different...
The architecture of present-day protein interaction networks depends on how protein associations evo...
Recent protein design experiments have demonstrated that proteins can migrate between folds through ...
The diverse array of protein functions depends upon these molecules' reliable ability to fold into t...
The ability of mutations to change the fold of a protein provides evolutionary pathways to new struc...
AbstractA small number of folding patterns describe in outline most of the known protein globules, t...
Protein domains are three-dimensional arrangements of atomic structure that are recurrent in the pro...
SummaryProtein structures cluster into families of folds that can result from extremely different am...
Proteins are the basic building blocks and functional units in all living organisms. Moreover, diff...
© 2000 by the Biophysical SocietyThe impact on protein evolution of the physical laws that govern fo...
Experimental studies show that many proteins fold along sequential pathways defined by folding inter...
AbstractProtein-protein interactions govern a wide range of cellular processes. Molecular recognitio...