RT Journal Article SR Electronic T1 Shape Transitions and Chiral Symmetry Breaking in the Energy Landscape of the Mitotic Chromosome JF bioRxiv FD Cold Spring Harbor Laboratory SP 031260 DO 10.1101/031260 A1 Bin Zhang A1 Peter G. Wolynes YR 2015 UL http://biorxiv.org/content/early/2015/11/11/031260.abstract AB We derive an unbiased information theoretic energy landscape for chromosomes at metaphase using a maximum entropy approach that accurately reproduces the details of the experimentally measured pair-wise contact probabilities between genomic loci. Dynamical simulations using this landscape lead to cylindrical, helically twisted structures reflecting liquid crystalline order. These structures are similar to those arising from a generic ideal homogenized chromosome energy landscape. The helical twist can be either right or left handed so chiral symmetry is broken spontaneously. The ideal chromosome landscape when augmented by interactions like those leading to topologically associating domain (TAD) formation in the interphase chromosome reproduces these behaviors. The phase diagram of this landscape shows the helical fiber order and the cylindrical shape persist at temperatures above the onset of chiral symmetry breaking which is limited by the TAD interaction strength.