Multiple molecular dynamics (MD) simulations of crambin with different initial atomic velocities are used in sample conformations in the vicinity of the native structure. Individual trajectories of length up to 5 ns sample only a fraction of the conformational distribution generated by ten independent 120 ps trajectories at 300 K. The backbone atom conformational space distribution is analyzed using principal components analysis (PCA). Four different major conformational regions are found. In general, a trajectory samples only one region and few transitions between the regions are observed. Consequently, the averages of structural and dynamic properties over the ten trajectories differ significantly from those obtained from individual traje...
Although Markov chain Monte Carlo (MC) simulation is a potentially powerful approach for exploring c...
.ABSTRACT: We evaluate several multiple time step MTS molecular .dynamics MD methods with respect to...
Molecular dynamics (MD) simulations using empirical force fields are popular for the study of protei...
Atomic motions in protein molecules have been studied by molecular dynamics (MD) simulations; dynami...
The dynamics of the small protein crambin is studied in the crystal environment by means of a 5.1 na...
International audienceProtein structures are highly dynamic macromolecules. This dynamics is often a...
Understanding protein function requires detailed knowledge about protein dynamics, i.e. the differen...
Far from the static, idealized conformations deposited into structural databases, proteins are highl...
. Molecular dynamics (MD) simulations of proteins provide descriptions of atomic motions, which allo...
Simulations of biomolecular dynamics are commonly interpreted in terms of harmonic or quasi-harmonic...
An atomic resolution description of protein flexibility is essential for understanding the role that...
Limited searching in the conformational space is one of the major obstacles for investigating protei...
This dissertation presents a new computational framework for calculating the normal modes and intera...
Extended molecular dynamics simulations covering a total of 0.232 μs have been carried out on a simp...
Proteins are dynamic systems whose internal motions and resulting conformational changes are essenti...
Although Markov chain Monte Carlo (MC) simulation is a potentially powerful approach for exploring c...
.ABSTRACT: We evaluate several multiple time step MTS molecular .dynamics MD methods with respect to...
Molecular dynamics (MD) simulations using empirical force fields are popular for the study of protei...
Atomic motions in protein molecules have been studied by molecular dynamics (MD) simulations; dynami...
The dynamics of the small protein crambin is studied in the crystal environment by means of a 5.1 na...
International audienceProtein structures are highly dynamic macromolecules. This dynamics is often a...
Understanding protein function requires detailed knowledge about protein dynamics, i.e. the differen...
Far from the static, idealized conformations deposited into structural databases, proteins are highl...
. Molecular dynamics (MD) simulations of proteins provide descriptions of atomic motions, which allo...
Simulations of biomolecular dynamics are commonly interpreted in terms of harmonic or quasi-harmonic...
An atomic resolution description of protein flexibility is essential for understanding the role that...
Limited searching in the conformational space is one of the major obstacles for investigating protei...
This dissertation presents a new computational framework for calculating the normal modes and intera...
Extended molecular dynamics simulations covering a total of 0.232 μs have been carried out on a simp...
Proteins are dynamic systems whose internal motions and resulting conformational changes are essenti...
Although Markov chain Monte Carlo (MC) simulation is a potentially powerful approach for exploring c...
.ABSTRACT: We evaluate several multiple time step MTS molecular .dynamics MD methods with respect to...
Molecular dynamics (MD) simulations using empirical force fields are popular for the study of protei...