C. Poyart-Salmeron scite author profile

The genetic basis of tetracycline resistance was studied in 25 clinical isolates of Listeria monocytogenes. Resistance to tetracycline was associated with resistance to minocycline and due to the presence of the tet(M) gene in 24 strains. Association of tet(M) with int-Tn, the gene encoding the protein required for the movements of Tn1545-like conjugative transposons, was found in all strains. Cotransfer of tet(M) and int-Tn among L. monocytogenes cells and from L. monocytogenes to Enterococcusfaecalis was detected in 7 of the 12 strains studied at frequencies similar to those obtained with the prototype element Tnl545. tet(L), the secondmost prevalent tetracycline resistance gene in enterococci and streptococci, was detected in the remaining strain, where it was borne by a 5-kb plasmid. These observations indicate that two types of movable genetic elements, transposons and plasmids, in enterococci and streptococci are responsible for emergence of drug resistance in L. monocytogenes.

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C. Poyart-Salmeron

Molecular characterization of two proteins involved in the excision of the conjugative transposon Tn1545: homologies with other site-specific recombinases.

Nucleotide sequence of the erythromycin resistance gene of the conjugative transposon Tn1545

Genetic basis of tetracycline resistance in clinical isolates of Listeria monocytogenes

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