Efficient computational modeling of biological systems characterized by high concentrations of macromolecules often relies on rigid-body Brownian Dynamics or Monte Carlo (MC) simulations. However, the accuracy of rigid-body models is limited by the fixed conformation of the simulated biomolecules. Multi-conformation Monte Carlo (mcMC) simulations of protein solutions incorporate conformational flexibility via a conformational swap trial move within a predetermined library of discrete protein structures, thereby alleviating artifacts arising from the use of a single protein conformation. Here, we investigate the impact of the number of distinct protein structures in the conformational library and the extent of conformational sampling used in...
Far from the static, idealized conformations deposited into structural databases, proteins are highl...
Knowledge about the architecture of macromolecules has been derived primarily from crystallography. ...
Multiple crystal structures of a single kind of protein can be generally separated into several grou...
Efficient computational modeling of biological systems characterized by high concentrations of macro...
A novel multiple conformations Monte Carlo (mcMC) computational method is presented that allows the ...
We present a novel multi-conformation Monte Carlo simulation method that enables the modeling of pro...
We present a novel multi-conformation Monte Carlo simulation method that enables the modeling of pro...
Fluctuations of protein three-dimensional structures and large-scale conformational transitions are ...
Protein structure simulations are important for understanding and exploring properties of proteins a...
Highly flexible proteins present a special challenge for structure determination because they are mu...
Proteins are dynamic and interconvert between different conformations to perform their biological fu...
Although Markov chain Monte Carlo (MC) simulation is a potentially powerful approach for exploring c...
Most of the protein–protein docking methods treat proteins as almost rigid objects. Only the side-ch...
Atomic motions in protein molecules have been studied by molecular dynamics (MD) simulations; dynami...
Biological environments are typically referred to as "crowded" due to presence of distinct biomolecu...
Far from the static, idealized conformations deposited into structural databases, proteins are highl...
Knowledge about the architecture of macromolecules has been derived primarily from crystallography. ...
Multiple crystal structures of a single kind of protein can be generally separated into several grou...
Efficient computational modeling of biological systems characterized by high concentrations of macro...
A novel multiple conformations Monte Carlo (mcMC) computational method is presented that allows the ...
We present a novel multi-conformation Monte Carlo simulation method that enables the modeling of pro...
We present a novel multi-conformation Monte Carlo simulation method that enables the modeling of pro...
Fluctuations of protein three-dimensional structures and large-scale conformational transitions are ...
Protein structure simulations are important for understanding and exploring properties of proteins a...
Highly flexible proteins present a special challenge for structure determination because they are mu...
Proteins are dynamic and interconvert between different conformations to perform their biological fu...
Although Markov chain Monte Carlo (MC) simulation is a potentially powerful approach for exploring c...
Most of the protein–protein docking methods treat proteins as almost rigid objects. Only the side-ch...
Atomic motions in protein molecules have been studied by molecular dynamics (MD) simulations; dynami...
Biological environments are typically referred to as "crowded" due to presence of distinct biomolecu...
Far from the static, idealized conformations deposited into structural databases, proteins are highl...
Knowledge about the architecture of macromolecules has been derived primarily from crystallography. ...
Multiple crystal structures of a single kind of protein can be generally separated into several grou...