Multiscale Modeling of Double-helical DNA and RNA: a Unification Through Lie Groups

Overview

Journal J Phys Chem B

Publisher American Chemical Society

Specialty Chemistry

Date 2012 Jun 9

PMID 22676719

Citations 6

Authors

Kevin C Wolfe

Whitney A Hastings

Samrat Dutta

Andrew Long

Bruce A Shapiro

Thomas B Woolf

Martin Guthold

Gregory S Chirikjian

Affiliations

Soon will be listed here.

Abstract

Several different mechanical models of double-helical nucleic-acid structures that have been presented in the literature are reviewed here together with a new analysis method that provides a reconciliation between these disparate models. In all cases, terminology and basic results from the theory of Lie groups are used to describe rigid-body motions in a coordinate-free way, and when necessary, coordinates are introduced in a way in which simple equations result. We consider double-helical DNAs and RNAs which, in their unstressed referential state, have backbones that are either straight, slightly precurved, or bent by the action of a protein or other bound molecule. At the coarsest level, we consider worm-like chains with anisotropic bending stiffness. Then, we show how bi-rod models converge to this for sufficiently long filament lengths. At a finer level, we examine elastic networks of rigid bases and show how these relate to the coarser models. Finally, we show how results from molecular dynamics simulation at full atomic resolution (which is the finest scale considered here) and AFM experimental measurements (which is at the coarsest scale) relate to these models.

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