Add to ORKGAbstract: The study of protein folding and its ramifications in biological contexts is at the heart of computational biology. In this paper, we discuss a number of tools in systems engineering that would provide an analysis framework to help explain the observed dynamic behavior of the protein, ultimately making the connection between protein structure and functionality. A case study of villin headpiece folding using principal components analysis as well as clustering demonstrates the potential of these tools in responding to this challenge
Protein folding is one of the major scientific issues of today. It is under investigation at a great...
time, enabled scientists to perform all-atom simulations over timescales relevant to protein folding...
The characterization of the protein folding process represents one of the major challenges in molecu...
A computational approach is essential whenever the complexity of the process under study is such tha...
A method to analyze molecular dynamics (MD) simulations of protein folding is proposed, which is bas...
Proteins are known to fold into tertiary structures that determine their functionality in living org...
The physics of self-organization and complexity is manifested on a variety of biological scales, fro...
In this study we evaluate, at full atomic detail, the folding processes of two small helical protein...
Proteins during the folding process undergo many events that continuously modify their structure adj...
Fully understanding protein folding is a current problem at the interface of biology and physics wit...
Proteins carry out most cell functions and thus it is important to understand protein dynamics, in p...
In this work, we perform time series segmentation on average velocity time series of penta-alanine p...
A computational approach is essential whenever the complexity of the process under study is such tha...
ABSTRACT: The villin headpiece folds autonomously in vitro forming three R-helical regions. Local pr...
Recent molecular dynamics simulations of biopolymers have shown that in many cases the global featur...
Protein folding is one of the major scientific issues of today. It is under investigation at a great...
time, enabled scientists to perform all-atom simulations over timescales relevant to protein folding...
The characterization of the protein folding process represents one of the major challenges in molecu...
A computational approach is essential whenever the complexity of the process under study is such tha...
A method to analyze molecular dynamics (MD) simulations of protein folding is proposed, which is bas...
Proteins are known to fold into tertiary structures that determine their functionality in living org...
The physics of self-organization and complexity is manifested on a variety of biological scales, fro...
In this study we evaluate, at full atomic detail, the folding processes of two small helical protein...
Proteins during the folding process undergo many events that continuously modify their structure adj...
Fully understanding protein folding is a current problem at the interface of biology and physics wit...
Proteins carry out most cell functions and thus it is important to understand protein dynamics, in p...
In this work, we perform time series segmentation on average velocity time series of penta-alanine p...
A computational approach is essential whenever the complexity of the process under study is such tha...
ABSTRACT: The villin headpiece folds autonomously in vitro forming three R-helical regions. Local pr...
Recent molecular dynamics simulations of biopolymers have shown that in many cases the global featur...
Protein folding is one of the major scientific issues of today. It is under investigation at a great...
time, enabled scientists to perform all-atom simulations over timescales relevant to protein folding...
The characterization of the protein folding process represents one of the major challenges in molecu...