Experimental Analysis of Molecular Events During Mutational Periodic Selections in Bacterial Evolution

Experimental Analysis of Molecular Events During Mutational Periodic Selections in Bacterial Evolution

Lucinda Notley-McRobb^a and Thomas Ferenci^a
^a Department of Microbiology, University of Sydney, New South Wales 2006, Australia

Corresponding author: Thomas Ferenci, Department of Microbiology G08, University of Sydney, NSW 2006, Australia., t.ferenci{at}microbio.usyd.edu.au (E-mail)

Communicating editor: R. MAURER

A fundamental feature of bacterial evolution is a successionof adaptive mutational sweeps when fitter mutants take overa population. To understand the processes involved in mutationalsuccessions, Escherichia coli continuous cultures were analyzedfor changes at two loci where mutations provide strong transportadvantages to fitness under steady-state glucose limitation.Three separate sweeps, observed as classic periodic selectionevents causing a change in the frequency of neutral mutations(in fhuA causing phage T5 resistance), were identified withchanges at particular loci. Two of the sweeps were associatedwith a reduction in the frequency of neutral mutations and theconcurrent appearance of at least 13 alleles at the mgl or mlcloci, respectively. These mgl and mlc polymorphisms were ofmany mutational types, so were not the result of a mutator ordirected mutation event. The third sweep observed was altogetherdistinct and involved hitchhiking between T5 resistance andadvantageous mgl mutations. Moreover, the hitchhiking eventcoincided with an increase in mutation rates, due to the transientappearance of a strong mutator in the population. The spectrumof mgl mutations among mutator isolates was distinct and dueto mutS. The mutator-associated periodic selection also resultedin mgl and fhuA polymorphism in the sweeping population. Theseexamples of periodic selections maintained significant genotypicdiversity even in a rapidly evolving culture, with no individual"winner clone" or genotype purging the population.

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