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A nonequilibrium strategy for fast target search on the genome

By F. Cagnetta, Davide Michieletto, Davide Marenduzzo

Posted 29 Apr 2020
bioRxiv DOI: 10.1101/2020.04.28.065524 (published DOI: 10.1103/PhysRevLett.124.198101)

Vital biological processes such as genome repair require fast and efficient binding of selected proteins to specific target sites on DNA. Here we propose an active target search mechanism based on "chromophoresis", the dynamics of DNA-binding proteins up or down gradients in the density of epigenetic marks, or colours (biochemical tags on the genome). We focus on a set of proteins that deposit marks from which they are repelled - a case which is only encountered away from thermodynamic equilibrium. For suitable ranges of kinetic parameter values, chromophoretic proteins can perform unidirectional motion and are optimally redistributed along the genome. Importantly, they can also locally unravel a region of the genome which is collapsed due to self-interactions and "dive" deep into its core, for a striking enhancement of the efficiency of target search on such an inaccessible substrate. We discuss the potential relevance of chromophoresis for DNA repair. ### Competing Interest Statement The authors have declared no competing interest.

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