More than 100,000 protein structures are now known at atomic detail. However, far more are not yet known, particularly among large or complex proteins. Often, experimental information is only semireliable because it is uncertain, limited, or confusing in important ways. Some experiments give sparse information, some give ambiguous or nonspecific information, and others give uncertain information-where some is right, some is wrong, but we don't know which. We describe a method called Modeling Employing Limited Data (MELD) that can harness such problematic information in a physics-based, Bayesian framework for improved structure determination. We apply MELD to eight proteins of known structure for which such problematic structural data are av...
Protein NMR spectroscopy is a modern experimental technique for elucidating the three-dimensional st...
This thesis describes the development of a new computer program called DANGLE (Dihedral Angles from ...
Structural biologists currently confront serious challenges in the effective interpretation of exper...
It is challenging to compute structure-function relationships of proteins using molecular physics. T...
Atomistic molecular dynamics (MD) simulations of protein molecules are too computationally expensive...
MELD (Modeling Employing Limited Data) accelerates MD simulations by using externally supplied infor...
a b s t r a c t Conventional methods for protein structure determination from NMR data rely on the a...
We describe the performance of MELD-accelerated molecular dynamics (MELDxMD) in determining protein ...
In protein structure prediction it is essential to score quickly and reliably large sets of models b...
Inferential structure determination uses Bayesian theory to combine experimental data with prior str...
The principal difficulty in using nuclear magnetic resonance (NMR) data for biomolecular structure d...
Nuclear Magnetic Resonance (NMR) spectroscopy is a tool to investigate threedimensional (3D) structu...
The determination of macromolecular structures from experimental data is an ill-posed inverse proble...
Computational modeling of proteins using evolutionary or de novo approaches offers rapid structural ...
Structural biology is moving into a new era by shifting its focus from static structures of single p...
Protein NMR spectroscopy is a modern experimental technique for elucidating the three-dimensional st...
This thesis describes the development of a new computer program called DANGLE (Dihedral Angles from ...
Structural biologists currently confront serious challenges in the effective interpretation of exper...
It is challenging to compute structure-function relationships of proteins using molecular physics. T...
Atomistic molecular dynamics (MD) simulations of protein molecules are too computationally expensive...
MELD (Modeling Employing Limited Data) accelerates MD simulations by using externally supplied infor...
a b s t r a c t Conventional methods for protein structure determination from NMR data rely on the a...
We describe the performance of MELD-accelerated molecular dynamics (MELDxMD) in determining protein ...
In protein structure prediction it is essential to score quickly and reliably large sets of models b...
Inferential structure determination uses Bayesian theory to combine experimental data with prior str...
The principal difficulty in using nuclear magnetic resonance (NMR) data for biomolecular structure d...
Nuclear Magnetic Resonance (NMR) spectroscopy is a tool to investigate threedimensional (3D) structu...
The determination of macromolecular structures from experimental data is an ill-posed inverse proble...
Computational modeling of proteins using evolutionary or de novo approaches offers rapid structural ...
Structural biology is moving into a new era by shifting its focus from static structures of single p...
Protein NMR spectroscopy is a modern experimental technique for elucidating the three-dimensional st...
This thesis describes the development of a new computer program called DANGLE (Dihedral Angles from ...
Structural biologists currently confront serious challenges in the effective interpretation of exper...