A computer simulation of the unwinding of a DNA-like helix

## Abstract In this article we use the published heat capacity data of Dragan et al. (J Mol Biol 2003, 327, 293–411) for a short DNA duplex to calculate the enthalpy probability distribution for this species as a function of temperature. Our approach is based on a procedure that we developed (Polan

## Values of the rue a~ which an alkrnaring copolymcric nucleic acid mclw ar~er a hzmpcn~urejump have been oblaincd wilh a Monle Carlo simulation. Using a Glauber-king scheme 10 model the dynamics. the helix-random coil transilion shows a pure "monodispersive" rslaxalion in accord with previous an

As a first step toward developing simulation models for studying the indirect mechanism of radiation damage to DNAs, we have carried out Brownian dynamics simulations to study the reactions of hydrated electrons Ž . Ž . with a 12-base-pair B-DNA, dA dT , and with bases, monodeoxynucleo-12 12

## Synopsis DNA supercoiling is both an interesting problem from the theoretical point of view and an important phenomenon affecting DNA functions in viuo. Experimentally, however, hardly more than the overall hydrodynamic shape, superhelical density, and enzymic or chemical reactivity of the para