AbstractBy considering how polymer structures are distributed in conformation space, we show that it is possible to quantify the difficulty of structural prediction and to provide a measure of progress for prediction calculations. The critical issue is the probability that a conformation is found within a specified distance of another conformer. We address this question by constructing a cumulative distribution function (CDF) for the average probability from observations about its limiting behavior at small displacements and numerical simulations of polyalanine chains. We can use the CDF to estimate the likelihood that a structure prediction is better than random chance. For example, the chance of randomly predicting the native backbone str...
Dissertation supervisor: Dr. Jianlin Cheng.Includes vita.Computationally predicting the folded and f...
peer reviewedA probability calculus was used to simulate the early stages of protein folding in ab i...
Motivation: Conformational flexibility is essential to the function of many proteins, e.g. catalytic...
AbstractBy considering how polymer structures are distributed in conformation space, we show that it...
[[abstract]]Quantifying the density of conformations over phase space (the conformational distributi...
A probability calculus was used to simulate the early stages of protein folding in ab initio structu...
The prediction of protein structure from sequence remains a major unsolved problem in biology. The m...
Background: The root mean square deviation (rmsd) between corresponding atoms of two protein chains ...
It should be possible to predict the fold of a protein into its native conformation, once we are giv...
AbstractIt should be possible to predict the fold of a protein into its native conformation, once we...
A fundamental problem of relevance to protein folding and structural comparison of biomolecules is t...
AbstractTwo types of approaches for predicting the conformation of proteins from sequence data have ...
Motivation: Conformational flexibility is essential to the function of many proteins, e.g. catalytic...
International audienceThe recent breakthrough in the field of protein structure prediction shows the...
This is our second type of model for protein folding where the configurational parameters and the ef...
Dissertation supervisor: Dr. Jianlin Cheng.Includes vita.Computationally predicting the folded and f...
peer reviewedA probability calculus was used to simulate the early stages of protein folding in ab i...
Motivation: Conformational flexibility is essential to the function of many proteins, e.g. catalytic...
AbstractBy considering how polymer structures are distributed in conformation space, we show that it...
[[abstract]]Quantifying the density of conformations over phase space (the conformational distributi...
A probability calculus was used to simulate the early stages of protein folding in ab initio structu...
The prediction of protein structure from sequence remains a major unsolved problem in biology. The m...
Background: The root mean square deviation (rmsd) between corresponding atoms of two protein chains ...
It should be possible to predict the fold of a protein into its native conformation, once we are giv...
AbstractIt should be possible to predict the fold of a protein into its native conformation, once we...
A fundamental problem of relevance to protein folding and structural comparison of biomolecules is t...
AbstractTwo types of approaches for predicting the conformation of proteins from sequence data have ...
Motivation: Conformational flexibility is essential to the function of many proteins, e.g. catalytic...
International audienceThe recent breakthrough in the field of protein structure prediction shows the...
This is our second type of model for protein folding where the configurational parameters and the ef...
Dissertation supervisor: Dr. Jianlin Cheng.Includes vita.Computationally predicting the folded and f...
peer reviewedA probability calculus was used to simulate the early stages of protein folding in ab i...
Motivation: Conformational flexibility is essential to the function of many proteins, e.g. catalytic...