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Recombineering reveals a diverse collection of ribosomal proteins L4 and L22 that confer resistance to macrolide antibiotics.

J Mol Biol. 2009 Feb 20;386(2):300-15. Epub 2009 Jan 03
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摘要


Mutations in ribosomal proteins L4 and L22 confer resistance to erythromycin and other macrolide antibiotics in a variety of bacteria. L4 and L22 have elongated loops whose tips converge in the peptide exit tunnel near the macrolide-binding site, and resistance mutations typically affect residues within these loops. Here, we used bacteriophage lambda Red-mediated recombination, or "recombineering," to uncover new L4 and L22 alleles that confer macrolide resistance in Escherichia coli. We randomized residues at the tips of the L4 and L22 loops using recombineered oligonucleotide libraries and selected the mutagenized cells for erythromycin-resistant mutants. These experiments led to the identification of 341 resistance mutations encoding 278 unique L4 and L22 proteins-the overwhelming majority of which are novel. Many resistance mutations were complex, involving multiple missense mutations, in-frame deletions, and insertions. Transfer of L4 and L22 mutations into wild-type cells by phage P1-mediated transduction demonstrated that each allele was sufficient to confer macrolide resistance. Although L4 and L22 mutants are typically resistant to most macrolides, selections carried out on different antibiotics revealed macrolide-specific resistance mutations. L22 Lys90Trp is one such allele that confers resistance to erythromycin but not to tylosin and spiramycin. Purified L22 Lys90Trp ribosomes show reduced erythromycin binding but have the same affinity for tylosin as wild-type ribosomes. Moreover, dimethyl sulfate methylation protection assays demonstrated that L22 Lys90Trp ribosomes bind tylosin more readily than erythromycin in vivo. This work underscores the exceptional functional plasticity of the L4 and L22 proteins and highlights the utility of Red-mediated recombination in targeted genetic selections.

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