Experimental Prediction of the Natural Evolution of Antibiotic Resistance

Experimental Prediction of the Natural Evolution of Antibiotic Resistance

Miriam Barlow^a and Barry G. Hall^a
^a Biology Department, University of Rochester, Rochester, New York 14627-0211

Corresponding author: Barry G. Hall, Hutchison Hall, River Campus, University of Rochester, Rochester, NY 14627-0211., drbh{at}mail.rochester.edu (E-mail)

Communicating editor: H. OCHMAN

The TEM family of ß-lactamases has evolved to conferresistance to most of the ß-lactam antibiotics, butnot to cefepime. To determine whether the TEM ß-lactamaseshave the potential to evolve cefepime resistance, we evolvedthe ancestral TEM allele, TEM-1, in vitro and selected for cefepimeresistance. After four rounds of mutagenesis and selection forincreased cefepime resistance each of eight independent populationsreached a level equivalent to clinical resistance. All eightevolved alleles increased the level of cefepime resistance bya factor of at least 32, and the best allele improved by a factorof 512. Sequencing showed that alleles contained from two tosix amino acid substitutions, many of which were shared amongalleles, and that the best allele contained only three substitutions.

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