Networks in molecular evolution

## Abstract We analyze the structure of the yeast transcriptional regulation network, as revealed by chromatin immunoprecipitation experiments, and characterize the molecular evolution of both its transcriptional regulators and their target (regulated) genes. We test the hypothesis that highly conn

The principles of Darwinian evolution have been explored in molecular systems such as autocatalytic networks and dynamic combinatorial libraries. Molecular evolution in such systems manifests itself as ligand or receptor amplification by selection. Research efforts exploring these concepts may provi

ogy. Thus, the 3rd version of Behavioral Genetics has the potential to reach a much larger audience than previous editions. Yet this very ''winning'' factor of the textbook also puts it at substantial risk. The risk here is that this edition may grow dated sooner than any of the previous editions.

Considerable attention has been devoted to the evolution of social networks through time. Some has been descriptive, some has sought fundamental principles for studying network evolution and some has been analytical. The work described in this paper represents all three approaches and is cast within

Novel species are introduced into a network of interacting replicators either (i) as mutants of members of the network (ii) as unrelated immigrants. We consider the meta-population dynamics of such a system. In the first case the appearance of mutants leads to a slow growth of the replicator network