Torsion angles are the natural degrees of freedom of protein structures. The ability to determine torsional variations corresponding to observed changes in Cartesian coordinates is highly valuable, notably to investigate the mechanisms of functional conformational changes or to develop computational models of protein dynamics. This issue is far from trivial in practice since the impact of modifying one torsion angle strongly depends on all other angles, and the compounding effects of small variations in bond lengths and valence angles can completely disrupt a protein fold. We demonstrate that naive strategies, such as directly comparing torsion angles between structures without correcting for variations in bond lengths and valence angles or...
In this paper, the variation of the values of dihedral angles in proteins is divided into two catego...
Proteins are chemically simple molecules, being unbranched polymers of uncomplicated organic compoun...
SummaryProtein structure determination and predictive modeling have long been guided by the paradigm...
Present understanding of protein structure dynamics trails behind that of static structures. A torsi...
AbstractWe present what to our knowledge is a new method of optimized torsion-angle normal-mode anal...
This Zenodo record is a permanently preserved version of a PREreview. You can view the complete PREr...
Protein molecules exhibit varying degrees of flexibility throughout their three-dimensional structur...
Since the first attempts at modelling proteins, a large variety of simplified approximations have be...
Molecular dynamics in torsion-angle space was applied to nu- culation, especially as advances in NMR...
Abstract The amino acid sequence of a protein contains all the necessary information to specify its ...
ABSTRACT Statistical averages and correla-tions for backbone torsion angles of chymotrypsin inhibito...
Given by chi torsional angles, rotamers describe the side-chain conformations of amino acid residues...
<p>Proteins are among the most complex entities known to science. Composed of just 20 fundamental bu...
SummaryProtein conformational change is analyzed by finding the minimalist backbone torsion angle ro...
Abstract Background Protein structure can be described by backbone torsion angles: rotational angles...
In this paper, the variation of the values of dihedral angles in proteins is divided into two catego...
Proteins are chemically simple molecules, being unbranched polymers of uncomplicated organic compoun...
SummaryProtein structure determination and predictive modeling have long been guided by the paradigm...
Present understanding of protein structure dynamics trails behind that of static structures. A torsi...
AbstractWe present what to our knowledge is a new method of optimized torsion-angle normal-mode anal...
This Zenodo record is a permanently preserved version of a PREreview. You can view the complete PREr...
Protein molecules exhibit varying degrees of flexibility throughout their three-dimensional structur...
Since the first attempts at modelling proteins, a large variety of simplified approximations have be...
Molecular dynamics in torsion-angle space was applied to nu- culation, especially as advances in NMR...
Abstract The amino acid sequence of a protein contains all the necessary information to specify its ...
ABSTRACT Statistical averages and correla-tions for backbone torsion angles of chymotrypsin inhibito...
Given by chi torsional angles, rotamers describe the side-chain conformations of amino acid residues...
<p>Proteins are among the most complex entities known to science. Composed of just 20 fundamental bu...
SummaryProtein conformational change is analyzed by finding the minimalist backbone torsion angle ro...
Abstract Background Protein structure can be described by backbone torsion angles: rotational angles...
In this paper, the variation of the values of dihedral angles in proteins is divided into two catego...
Proteins are chemically simple molecules, being unbranched polymers of uncomplicated organic compoun...
SummaryProtein structure determination and predictive modeling have long been guided by the paradigm...