Dihedral probability grid Monte Carlo (DPG‐MC) is a general‐purpose method of conformational sampling that can be applied to many problems in peptide and protein modeling. Here we present the DPG‐MC method and apply it to predicting complete protein structures from Cα coordinates. This is useful in such endeavors as homology modeling, protein structure prediction from lattice simulations, or fitting protein structures to X‐ray crystallographic data. It also serves as an example of how DPG‐MC can be applied to systems with geometric constraints. The conformational propensities for individual residues are used to guide conformational searches as the protein is built from the amino‐terminus to the carboxyl‐terminus. Results for a number of pro...
The energy-based refinement of protein structures generated by fold prediction algorithms to atomic-...
We present a novel de novo method to generate protein models from sparse, discretized restraints on ...
Molecular dynamics simulations, often combined with sim-ulated annealing, are commonly used when cal...
Dihedral probability grid Monte Carlo (DPG‐MC) is a general‐purpose method of conformational samplin...
We tested the dihedral probability grid Monte Carlo (DPG‐MC) methodology to determine optimal confor...
Database-assisted ab initio protein structure prediction methods have exhibited considerable promise...
The energy-based refinement of protein structures to atomic-level accuracy remains a major challeng...
Motivation Local protein structure is usually described via classifying each peptide to a unique cla...
The ability to predict the native conformation of a globular protein from its amino-acid sequence is...
A new high-coordination lattice model of polypeptide chains has been designed and tested. The model ...
Many interesting proteins possess defined sequence stretches containing negatively charged amino aci...
Efficient computational modeling of biological systems characterized by high concentrations of macro...
ABSTRACT Pauling, Corey and Branson in their seminal paper in 1951 reported numerical values for the...
Conformational sampling is one of the bottlenecks in fragment-based protein structure prediction app...
This thesis describes the development of a new computer program called DANGLE (Dihedral Angles from ...
The energy-based refinement of protein structures generated by fold prediction algorithms to atomic-...
We present a novel de novo method to generate protein models from sparse, discretized restraints on ...
Molecular dynamics simulations, often combined with sim-ulated annealing, are commonly used when cal...
Dihedral probability grid Monte Carlo (DPG‐MC) is a general‐purpose method of conformational samplin...
We tested the dihedral probability grid Monte Carlo (DPG‐MC) methodology to determine optimal confor...
Database-assisted ab initio protein structure prediction methods have exhibited considerable promise...
The energy-based refinement of protein structures to atomic-level accuracy remains a major challeng...
Motivation Local protein structure is usually described via classifying each peptide to a unique cla...
The ability to predict the native conformation of a globular protein from its amino-acid sequence is...
A new high-coordination lattice model of polypeptide chains has been designed and tested. The model ...
Many interesting proteins possess defined sequence stretches containing negatively charged amino aci...
Efficient computational modeling of biological systems characterized by high concentrations of macro...
ABSTRACT Pauling, Corey and Branson in their seminal paper in 1951 reported numerical values for the...
Conformational sampling is one of the bottlenecks in fragment-based protein structure prediction app...
This thesis describes the development of a new computer program called DANGLE (Dihedral Angles from ...
The energy-based refinement of protein structures generated by fold prediction algorithms to atomic-...
We present a novel de novo method to generate protein models from sparse, discretized restraints on ...
Molecular dynamics simulations, often combined with sim-ulated annealing, are commonly used when cal...