The interaction between mobile DNAs and their hosts in a fluctuating environment

Abstract

The interaction between mobile DNA sequences and their hosts raises important questions in the context of hosts which reproduce clonally with only rare horizontal transmission between clones. The activity of some mobile DNAs as reversible mutators of genes raises the possibility that, in a fluctuating environment, cells may gain an advantage if they have mobile DNAs which mutate genes whose inactivation is favoured in one of the environments that the population encounters. Here we analyse a model of this process and ask what would be the optimal rate of transposition in a population whose elements are maintained by this mechanism. We also examine the impact of horizontal transfer on such a population. With movement of elements between cells, we can imagine elements with differing rates of transposition and host cells with differing rates of transposition. We find that evolution in the population of elements favours a rapid rate of transposition, and evolution of the host cells favours cells in which this rapid rate of element-dependent transposition results in an optimal rate of transposition per cell. However, when horizontal transfer rates are high, some unexpected features of the model are observed. In particular, a polymorphism between cell types (some with an optimal rate of transposition and some with no transposition at all from endogenous elements) can be stably maintained. We consider the possible biological predictions of this analysis.