Internal motions in proteins, such as oscillations of internuclear vectors u(NiHiN) of amide bonds about their equil. position, can be characterized by a local order parameter. This dynamic parameter can be detd. exptl. by measuring the longitudinal and transverse relaxation rates of 15Ni nuclei by suitable NMR methods. In this paper, it is shown that local variations of order parameters Sii2 can be predicted from the knowledge of the structure. To this effect, the diffusive motion of the internuclear vector u(NiHiN) is described in a potential that takes into account the deviations of the angles qij between u(NiHiN) and neighboring vectors u(NjHjN) from their av. value and similarly of deviations of the angles subtended between u(NiHiN) an...
We report on progress toward improving NMR relaxation analysis in proteins in terms of the slowly re...
N-15-H relaxation parameters from ribonuclease HI (RNase H), acquired in previous work at magnetic f...
Nuclear Magnetic Resonance (NMR) is one of the principal tools of structural biology. In particular,...
During the past decades, NMR spectroscopy of isotopically labelled proteins has emerged as a unique ...
The internal motions of biomolecules were examined by analyzing NMR relaxation in terms of the model...
AbstractPresent analysis procedures for NMR structure determination of macromolecules presuppose fix...
In order to study the effect of internal dynamics on the accuracy of NMR structures in detail, we ge...
International audienceDuring the past decades, NMR spectroscopy has emerged as a unique tool for the...
The study of protein structure and function is incomplete without an understanding of protein dynami...
AbstractWe present a theoretical, site-specific, approach to predict protein subunit correlation tim...
Simulations of biomolecular dynamics are commonly interpreted in terms of harmonic or quasi-harmonic...
A jump model has been used to obtain motional information from proton relaxation parameters in compl...
A method is presented that generates random protein structures that fulfil a set of upper and lower ...
A deep understanding of the role of motions in the functional mechanisms of biomolecules can potenti...
Theoretical approaches to the internal dynamics of proteins are outlined and illustrated by applicat...
We report on progress toward improving NMR relaxation analysis in proteins in terms of the slowly re...
N-15-H relaxation parameters from ribonuclease HI (RNase H), acquired in previous work at magnetic f...
Nuclear Magnetic Resonance (NMR) is one of the principal tools of structural biology. In particular,...
During the past decades, NMR spectroscopy of isotopically labelled proteins has emerged as a unique ...
The internal motions of biomolecules were examined by analyzing NMR relaxation in terms of the model...
AbstractPresent analysis procedures for NMR structure determination of macromolecules presuppose fix...
In order to study the effect of internal dynamics on the accuracy of NMR structures in detail, we ge...
International audienceDuring the past decades, NMR spectroscopy has emerged as a unique tool for the...
The study of protein structure and function is incomplete without an understanding of protein dynami...
AbstractWe present a theoretical, site-specific, approach to predict protein subunit correlation tim...
Simulations of biomolecular dynamics are commonly interpreted in terms of harmonic or quasi-harmonic...
A jump model has been used to obtain motional information from proton relaxation parameters in compl...
A method is presented that generates random protein structures that fulfil a set of upper and lower ...
A deep understanding of the role of motions in the functional mechanisms of biomolecules can potenti...
Theoretical approaches to the internal dynamics of proteins are outlined and illustrated by applicat...
We report on progress toward improving NMR relaxation analysis in proteins in terms of the slowly re...
N-15-H relaxation parameters from ribonuclease HI (RNase H), acquired in previous work at magnetic f...
Nuclear Magnetic Resonance (NMR) is one of the principal tools of structural biology. In particular,...