Structure and molecular dynamics of metalloenzymes studied by physical label methods

## Abstract __We present a molecular dynamics simulation study of 22‐mer DNA conformational variations obtained by stretching both 3′‐termini and both 5′‐termini. Stretching 3′‐termini by 3.5 nm required 142 kJ mol^−1^ and the force plateau was ∼80 pN, whereas stretching 5′‐termini by the same leng

Here d is the distance between the equimolecular dividing Small clusters composed of 64, 94, 125, 190, 256, and 512 water surface with the radius R e and the surface of tension with molecules have been studied by molecular dynamics simulations radius R s , i.e., d Å R e 0 R s and, to be precise, R s

In this paper, we carried out atomistic calculations to investigate in detail the core structure and motion mechanism of the 1 2 < 1 1 1 > f1 1 2g edge dislocation in a-iron. First, molecular statics simulations are used to characterise the dislocation-core structure in the framework of the Peierls-

Molecular dynamics was used to study the hydration of superoxide (0 2). The Helmholtz free energy of hydration of 0, was estimated by the thermodynamic integration method. The diffusion of 0, and the water structure around 0 2 were also studied. Two water models were used in the calculations and the

We carried out NPT ensemble classical molecular dynamics simulation of water in solid, liquid and gaseous state. The simulations were performed for two density cases-normal (r ¼ 1 g/cm 3 ) and lowered density (r ¼ 0:25 g/cm 3 ), for several values of temperature. The calculated structural and dynami