It has been proposed that proteins fold by a process called "Zipping and Assembly" (Z&A). Zipping refers to the growth of local substructures within the chain, and assembly refers to the coming together of already-formed pieces. Our interest here is in whether Z&A is a general method that can fold most of sequence space, to global minima, efficiently. Using the HP model, we can address this question by enumerating full conformation and sequence spaces. We find that Z&A reaches the global energy minimum native states, even though it searches only a very small fraction of conformational space, for most sequences in the full sequence space. We find that Z&A, a mechanism-based search, is m...
The ability of a protein to fold rapidly and efficiently into its intricate and highly specific str...
The notion of optimization is inherent in protein design. A long linear chain of twenty types of ami...
AbstractIt should be possible to predict the fold of a protein into its native conformation, once we...
We currently have a great deal of experimental data about how particular proteins fold, but no descr...
Backgound:A number of approaches to design stable and fast-folding sequences for model polypeptide c...
Inspired by the NP-hardness of string folding problems modeling the natural process of protein foldi...
Proteins are known to fold into tertiary structures that determine their functionality in living org...
<div><p>We introduce a method for calculating the extent to which chain non-crossing is important in...
This research shows optimization approaches to protein folding. The protein folding problem is to pr...
During evolution, the effective interactions between residues in a protein can be adjusted through m...
We introduce a method for calculating the extent to which chain non-crossing is important in the mos...
It should be possible to predict the fold of a protein into its native conformation, once we are giv...
ABSTRACT An important puzzle in structural biology is the question of how proteins are able to fold ...
Proteins are polymeric molecules with many degrees of conformational freedom whose internal energeti...
The globally minimum energy configurations of simpleHPlatticemodels (which use only two amino acid t...
The ability of a protein to fold rapidly and efficiently into its intricate and highly specific str...
The notion of optimization is inherent in protein design. A long linear chain of twenty types of ami...
AbstractIt should be possible to predict the fold of a protein into its native conformation, once we...
We currently have a great deal of experimental data about how particular proteins fold, but no descr...
Backgound:A number of approaches to design stable and fast-folding sequences for model polypeptide c...
Inspired by the NP-hardness of string folding problems modeling the natural process of protein foldi...
Proteins are known to fold into tertiary structures that determine their functionality in living org...
<div><p>We introduce a method for calculating the extent to which chain non-crossing is important in...
This research shows optimization approaches to protein folding. The protein folding problem is to pr...
During evolution, the effective interactions between residues in a protein can be adjusted through m...
We introduce a method for calculating the extent to which chain non-crossing is important in the mos...
It should be possible to predict the fold of a protein into its native conformation, once we are giv...
ABSTRACT An important puzzle in structural biology is the question of how proteins are able to fold ...
Proteins are polymeric molecules with many degrees of conformational freedom whose internal energeti...
The globally minimum energy configurations of simpleHPlatticemodels (which use only two amino acid t...
The ability of a protein to fold rapidly and efficiently into its intricate and highly specific str...
The notion of optimization is inherent in protein design. A long linear chain of twenty types of ami...
AbstractIt should be possible to predict the fold of a protein into its native conformation, once we...