Stable cycling in quasi-linkage equilibrium: fluctuating dynamics under gene conversion and selection

Publication date: Available online 13 June 2019Source: Journal of Theoretical BiologyAuthor(s): Timothy W. Russell, Matthew J. Russell, Francisco Úbeda, Vincent A.A. JansenAbstractGenetic systems with multiple loci can have complex dynamics. For example, mean fitness need not always increase and stable cycling is possible. Here, we study the dynamics of a genetic system inspired by the molecular biology of recognition-dependent double strand breaks and repair as it happens in recombination hotspots. The model shows slow-fast dynamics in which the system converges to the quasi-linkage equilibrium (QLE) manifold. On this manifold, sustained cycling is possible as the dynamics approach a heteroclinic cycle, in which allele frequencies alternate between near extinction and near fixation. We find a closed-form approximation for the QLE manifold and use it to simplify the model. For the simplified model, we can analytically calculate the stability of the heteroclinic cycle. In the discrete-time model the cycle is always stable; in a continuous-time approximation, the cycle is always unstable. This demonstrates that complex dynamics are possible under quasi-linkage equilibrium.Graphical abstract
Source: Journal of Theoretical Biology - Category: Biology Source Type: research