Add to ORKGABSTRACT: The present work demonstrates that NMR spin relaxation rate constants for molecules interconverting between states with different diffusion tensors can be modeled theoretically by combining orientational correlation functions for exchanging spherical molecules with locally isotropic approximations for the diffusion anisotropic tensors. The resulting expressions are validated by comparison with correlation functions obtained by Monte Carlo simulations and are accurate for moderate degrees of diffusion anisotropy typically encountered in investigations of globular proteins. The results are complementary to an elegant, but more complex, formalism that is accurate for al
Conformational fluctuations and rotational tumbling of proteins can be experimentally accessed with ...
The use of NMR methods to quantitatively determine association/dissociation constants in biological ...
A model-free theoretical framework for a phenomenological description of spin-lattice relaxation by ...
We developed in recent years the slowly relaxing local structure (SRLS) approach for analyzing NMR s...
NMR provides a method to study the dynamics of proteins and the possibility of gaining an insight in...
A new expression for the spectral d. function of cross-correlated dipole-dipole interference is prop...
Deuterium nuclear magnetic resonance (NMR) spin-lattice relaxation was used to explore molecular mot...
NMR relaxation experiments have provided a wealth of information about molecular motions in macromol...
Journal ArticleWe introduce a new dipolar relaxation lime TU)' which characterizes the spin-lattice ...
This paper has three independent parts. First, Torrey's treatment of molecular diffusion in NMR is d...
A theoretical description of 1H-1H dipolar nuclear spin relaxation in a multispin system has been wo...
© 2017 Elsevier B.V.Field-cycling NMR relaxometry is a well-established technique for probing molecu...
Expressions for nuclear magnetic relaxation times and for dielectric permittivity derived for spheri...
An integrated computational methodology for interpreting NMR spin relaxation in proteins has been de...
In complex biological or colloidal samples, magnetic relaxation dispersion (MRD) experiments using t...
Conformational fluctuations and rotational tumbling of proteins can be experimentally accessed with ...
The use of NMR methods to quantitatively determine association/dissociation constants in biological ...
A model-free theoretical framework for a phenomenological description of spin-lattice relaxation by ...
We developed in recent years the slowly relaxing local structure (SRLS) approach for analyzing NMR s...
NMR provides a method to study the dynamics of proteins and the possibility of gaining an insight in...
A new expression for the spectral d. function of cross-correlated dipole-dipole interference is prop...
Deuterium nuclear magnetic resonance (NMR) spin-lattice relaxation was used to explore molecular mot...
NMR relaxation experiments have provided a wealth of information about molecular motions in macromol...
Journal ArticleWe introduce a new dipolar relaxation lime TU)' which characterizes the spin-lattice ...
This paper has three independent parts. First, Torrey's treatment of molecular diffusion in NMR is d...
A theoretical description of 1H-1H dipolar nuclear spin relaxation in a multispin system has been wo...
© 2017 Elsevier B.V.Field-cycling NMR relaxometry is a well-established technique for probing molecu...
Expressions for nuclear magnetic relaxation times and for dielectric permittivity derived for spheri...
An integrated computational methodology for interpreting NMR spin relaxation in proteins has been de...
In complex biological or colloidal samples, magnetic relaxation dispersion (MRD) experiments using t...
Conformational fluctuations and rotational tumbling of proteins can be experimentally accessed with ...
The use of NMR methods to quantitatively determine association/dissociation constants in biological ...
A model-free theoretical framework for a phenomenological description of spin-lattice relaxation by ...