AbstractThe minimal folding pathway or trajectory for a biopolymer can be defined as the transformation that minimizes the total distance traveled between a folded and an unfolded structure. This involves generalizing the usual Euclidean distance from points to one-dimensional objects such as a polymer. We apply this distance here to find minimal folding pathways for several candidate protein fragments, including the helix, the β-hairpin, and a nonplanar structure where chain noncrossing is important. Comparing the distances traveled with root mean-squared distance and mean root-squared distance, we show that chain noncrossing can have large effects on the kinetic proximity of apparently similar conformations. Structures that are aligned to...
Local minima and the saddle points separating them in the energy landscape are known to dominate the...
AbstractProteins are polymeric molecules with many degrees of conformational freedom whose internal ...
Proteins are polymeric molecules with many degrees of conformational freedom whose internal energeti...
AbstractThe minimal folding pathway or trajectory for a biopolymer can be defined as the transformat...
<div><p>We introduce a method for calculating the extent to which chain non-crossing is important in...
We introduce a method for calculating the extent to which chain non-crossing is important in the mos...
The Euclidean distance, D, between two points is generalized to the distance between strings or poly...
A fundamental problem of relevance to protein folding and structural comparison of biomolecules is t...
Abstract: Distance geometry has been a broadly useful tool for dealing with conformational calculati...
Structural self-assembly in biopolymers, such as proteins and nucleic acids, involves a diffusive se...
We develop a dynamic optimization technique for determining optimum folding pathways of proteins sta...
Biopolymer unfolding events are ubiquitous in biology and mechanical unfolding is an established app...
Protein dynamics takes place on a rugged funnel-like energy landscape that is biased towards the nat...
Physics of protein folding has been dominated by conceptual frameworks including nucleation-propagat...
The multipathway mechanism discovered using minimal protein models in conjunction with scaling argum...
Local minima and the saddle points separating them in the energy landscape are known to dominate the...
AbstractProteins are polymeric molecules with many degrees of conformational freedom whose internal ...
Proteins are polymeric molecules with many degrees of conformational freedom whose internal energeti...
AbstractThe minimal folding pathway or trajectory for a biopolymer can be defined as the transformat...
<div><p>We introduce a method for calculating the extent to which chain non-crossing is important in...
We introduce a method for calculating the extent to which chain non-crossing is important in the mos...
The Euclidean distance, D, between two points is generalized to the distance between strings or poly...
A fundamental problem of relevance to protein folding and structural comparison of biomolecules is t...
Abstract: Distance geometry has been a broadly useful tool for dealing with conformational calculati...
Structural self-assembly in biopolymers, such as proteins and nucleic acids, involves a diffusive se...
We develop a dynamic optimization technique for determining optimum folding pathways of proteins sta...
Biopolymer unfolding events are ubiquitous in biology and mechanical unfolding is an established app...
Protein dynamics takes place on a rugged funnel-like energy landscape that is biased towards the nat...
Physics of protein folding has been dominated by conceptual frameworks including nucleation-propagat...
The multipathway mechanism discovered using minimal protein models in conjunction with scaling argum...
Local minima and the saddle points separating them in the energy landscape are known to dominate the...
AbstractProteins are polymeric molecules with many degrees of conformational freedom whose internal ...
Proteins are polymeric molecules with many degrees of conformational freedom whose internal energeti...