Energy transfer in nonlinear network models of proteins
arXiv:0905.1570 · doi:10.1209/0295-5075/88/68001
Abstract
We investigate how nonlinearity and topological disorder affect the energy relaxation of local kicks in coarse-grained network models of proteins. We find that nonlinearity promotes long-range, coherent transfer of substantial energy to specific, functional sites, while depressing transfer to generic locations. Remarkably, transfer can be mediated by the self-localization of discrete breathers at distant locations from the kick, acting as efficient energy-accumulating centers.
4 pages, 3 figures