Adapt Globally, Act Locally: The Effect of Selective Sweeps on Bacterial Sequence Diversity

Adapt Globally, Act Locally: The Effect of Selective Sweeps on Bacterial Sequence Diversity

Jacek Majewski^a and Frederick M. Cohan^a
^a Department of Biology, Wesleyan University, Middletown, Connecticut 06459-0170

Corresponding author: Frederick M. Cohan, Department of Biology, Wesleyan University, Middletown, CT 06459-0170., fcohan{at}wesleyan.edu (E-mail)

Communicating editor: R. R. HUDSON

Previous studies have shown that genetic exchange in bacteriais too rare to prevent neutral sequence divergence between ecologicalpopulations. That is, despite genetic exchange, each populationshould diverge into its own DNA sequence-similarity cluster.In those studies, each selective sweep was limited to actingwithin a single ecological population. Here we postulate theexistence of globally adaptive mutations, which may confer aselective advantage to all ecological populations constitutinga metapopulation. Such adaptations cause global selective sweeps,which purge the divergence both within and between populations.We found that the effect of recurrent global selective sweepson neutral sequence divergence is highly dependent on the mechanismof genetic exchange. Global selective sweeps can prevent populationsfrom reaching high levels of neutral sequence divergence, butthey cannot cause two populations to become identical in neutralsequence characters. The model supports the earlier conclusionthat each ecological population of bacteria should form itsown distinct DNA sequence-similarity cluster.

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