Physics – Condensed Matter – Soft Condensed Matter
Scientific paper
1999-11-23
Physics
Condensed Matter
Soft Condensed Matter
37 pages, 9 figures, PDF file only, Revised version requires Adobe Acrobat, Unix/Windows/MacOS, ver 3.0 or later To get Adobe
Scientific paper
10.1103/PhysRevE.62.2576
We derive formulae for the electrostatic interaction between two long, rigid macromolecules that may have arbitrary surface charge patterns and cross at an arbitrary interaxial angle. We calculate the dependence of the interaction energy on the interaxial angle, on the separation, and on the precise alignment of the charge pattern on one molecule with respect to the other. We focus in particular on molecules with helical charge patterns. We report an exact, explicit expression for the energy of interaction between net-neutral helices in a nonpolar medium as well as an approximate result for charged helices immersed in an electrolyte solution. The latter result becomes exact in the asymptotic limit of large separations. Molecular chirality of helices manifests itself in a torque that tends to twist helices in a certain direction out of parallel alignment and that has a nontrivial behavior at small interaxial angles. We illustrate the theory with the calculation of the torque between layers of idealized, DNA-like double helices in cholesteric aggregates. We propose a mechanism of the observed cholesteric-to-columnar phase transition and suggest an explanation for the observed macroscopic (0.4-5 um) pitch of the cholesteric phase of B-DNA.
Kornyshev Alexei A.
Leikin S.
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