Compensatory Evolution in Rifampin-Resistant Escherichia coli

Compensatory Evolution in Rifampin-Resistant Escherichia coli

Mary G. Reynolds^a
^a Department of Biology, Emory University, Atlanta, Georgia 30322

Corresponding author: Mary G. Reynolds, Emory University, Department of Biology, 1510 Clifton Rd., NE, Atlanta, GA 30322., mreynold{at}biology.emory.edu (E-mail)

Communicating editor: H. OCHMAN

This study examines the intrinsic fitness burden associatedwith RNA polymerase (rpoB) mutations conferring rifampin resistancein Escherichia coli K12 (MG1655) and explores the nature ofadaptation to the costs of resistance. Among 28 independentRif^r mutants, the per-generation fitness burden (in the absenceof rifampin) ranged from 0 to 28%, with a median of 6.4%. Wedetected no relationship between the magnitude of the cost andthe level of resistance. Adaptation to the costs of rif resistancewas studied by following serial transfer cultures for severalRif^r mutants both in the presence of rifampin and in the absence.For cultures evolved in the absence of rifampin, single clonesisolated after 200 generations were more fit than their ancestor;we saw no association between increased fitness and changesin the level of rifampin resistance; and in all cases, increasedfitness was due to compensatory mutations, rather than to reversionto drug sensitivity. However, in the parallel evolution experimentsin the presence of rifampin, overall levels of resistance increasedas did relative fitness—for all strains save one thathad an initially high level of resistance. Among the evolvedclones tested, five (of seven) demonstrated increased transcriptionefficiency (assessed using a semiquantitative RT-PCR protocol).The implications of these results for our understanding of adaptivemolecular evolution and the increasing clinical problem of antibioticresistance are discussed.

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