Molecular dynamics simulations of the DNA radiation damage and conformation behavior on a zirconium dioxide surface

Abstract

THIS processes work on is aimed the zirconium on a complex dioxide study (ZrO of2) the surface. DNA The immobilization DNA+ZrO2and nanoparticles conformation and nanosized films were investigated with the molecular dynamics (MD) modeling, experimental spectral and integral methods, including nuclear physics. Using the MD hybrid classical and quantum chemistry potentials, for the DNA solvated with water the DNA+ZrO2 surface interactions were simulated We have generated series MD models, thereby simulating a different scenario of the DNA with possible charge modifications. The DNA charge modification were introduced in the DNA central region via its two phosphorus atoms, Pa and Pb, and for several set of MD models for the relaxed DNA structures we have estimated the positional changes of the distance D[DNA(Pa,Pb) - ZrO2(O)] between the phosphorus atoms (Pa,Pb) and selected oxygen atoms of the ZrO2 surface. The work is aimed to the development of functional heterojunctions such as a biological molecule - wide-gap dielectric. These heterojunctions are intended for useing in the field of molecular electronics, in particular, for the creation of biochips, memory arrays and computer architectures of the future.