TY - JOUR T1 - Non-equilibrium chromosome looping via molecular slip-links JF - bioRxiv DO - 10.1101/095992 SP - 095992 AU - C. A. Brackley AU - J. Johnson AU - D. Michieletto AU - A. N. Morozov AU - M. Nicodemi AU - P. R. Cook AU - D. Marenduzzo Y1 - 2016/01/01 UR - http://biorxiv.org/content/early/2016/12/21/095992.abstract N2 - We propose a model for the formation of chromatin loops based on the diffusive sliding of a DNA-bound factor which can dimerise to form a molecular slip-link. Our slip-links mimic the behaviour of cohesin-like molecules, which, along with the CTCF protein, stabilize loops which organize the genome. By combining 3D Brownian dynamics simulations and 1D exactly solvable non-equilibrium models, we show that diffusive sliding is sufficient to account for the strong bias in favour of convergent CTCF-mediated chromosome loops observed experimentally. Importantly, our model does not require any underlying, and energetically costly, motor activity of cohesin. We also find that the diffusive motion of multiple slip-links along chromatin may be rectified by an intriguing ratchet effect that arises if slip-links bind to the chromatin at a preferred "loading site". This emergent collective behaviour is driven by a 1D osmotic pressure which is set up near the loading point, and favours the extrusion of loops which are much larger than the ones formed by single slip-links. ER -