Physics – Condensed Matter – Soft Condensed Matter
Scientific paper
2000-09-11
Phys.Rev.E62:5923-5926,2000
Physics
Condensed Matter
Soft Condensed Matter
4 pages, 3 PS figures, to appear at Phys. Rev. E as a Rapid Communication
Scientific paper
10.1103/PhysRevE.62.5923
The short supercoiled circular DNA molecules are shown to be glassy systems and canonical Metropolis Monte Carlo simulations of the systems tend to get stuck in local metastable energy basins. A novel Monte Carlo algorithm is developed to alleviate the problem of ``ergodicity breaking'' of the glassy systems, in which the Markov process is driven by an explicitly analytic weight factor with enhanced probability in both low- and high-energy regions. To characterize the degree of puckering of the supercoiled DNA loops, a new quantity of aplanarity is introduced as the shortest principal axis of configurational ellipsoid of DNA. With the suggested Monte Carlo method, the quantitative correlation between supercoiling degree and buckling of DNA is attained. With supercoiling stress increasing, the conformational transition from a circle to mono-, diplo- or triple interwound superhelical structure will take place in a successive but decreasingly abrupt mode.
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