We present an integrated experimental and computational approach for de novo protein structure determination in which short-distance cross-linking data are incorporated into rapid discrete molecular dynamics (DMD) simulations as constraints, reducing the conformational space and achieving the correct protein folding on practical time scales. We tested our approach on myoglobin and FK506 binding protein—models for α helix–rich and β sheet–rich proteins, respectively—and found that the lowest-energy structures obtained were in agreement with the crystal structure, hydrogen-deuterium exchange, surface modification, and long-distance cross-linking validation data. Our approach is readily applicable to other proteins with unknown structures
AbstractA new real space method, based on the principles of simulated annealing, is presented for de...
The method of choice to reveal the conformation of protein molecules in atomic detail has been X-ray...
This paper presents an integrated computational-experimental method to determine the fold of a targe...
A distance geometry based protein modelling algorithm is presented which relies on the projection of...
Combining structural proteomics experimental data with computational methods is a powerful tool for ...
Combining structural proteomics experimental data with computational methods is a powerful tool for ...
Background: Distance geometry methods allow protein structures to be constructed using a large numbe...
Until now it has been impractical to observe protein folding in silico for proteins larger than 50 r...
Protein structure provides insight into the evolutionary origins, functions, and mechanisms of prote...
ABSTRACT: We present a comprehensive analysis of methods for improving the fold recognition rate of ...
Chemical cross-links identified by mass spectrometry generate distance restraints that reveal low-re...
Molecular dynamics simulations, often combined with sim- ulated annealing, are commonly used when ca...
In this paper, we propose a mixed approach for determining protein structures compatible with distan...
Abstract Background Fold recognition techniques take advantage of the limited number of overall stru...
Computer simulations of biological systems provide novel data while both supporting and challenging ...
AbstractA new real space method, based on the principles of simulated annealing, is presented for de...
The method of choice to reveal the conformation of protein molecules in atomic detail has been X-ray...
This paper presents an integrated computational-experimental method to determine the fold of a targe...
A distance geometry based protein modelling algorithm is presented which relies on the projection of...
Combining structural proteomics experimental data with computational methods is a powerful tool for ...
Combining structural proteomics experimental data with computational methods is a powerful tool for ...
Background: Distance geometry methods allow protein structures to be constructed using a large numbe...
Until now it has been impractical to observe protein folding in silico for proteins larger than 50 r...
Protein structure provides insight into the evolutionary origins, functions, and mechanisms of prote...
ABSTRACT: We present a comprehensive analysis of methods for improving the fold recognition rate of ...
Chemical cross-links identified by mass spectrometry generate distance restraints that reveal low-re...
Molecular dynamics simulations, often combined with sim- ulated annealing, are commonly used when ca...
In this paper, we propose a mixed approach for determining protein structures compatible with distan...
Abstract Background Fold recognition techniques take advantage of the limited number of overall stru...
Computer simulations of biological systems provide novel data while both supporting and challenging ...
AbstractA new real space method, based on the principles of simulated annealing, is presented for de...
The method of choice to reveal the conformation of protein molecules in atomic detail has been X-ray...
This paper presents an integrated computational-experimental method to determine the fold of a targe...