Nonconjugative Transposition of the vanB-Containing Tn5382-Like Element in Enterococcus faecium

ABSTRACT The vanB2 operon encoding glycopeptide resistance is an integral part of the putative conjugative transposon Tn5382. Characterization of clinical glycopeptide resistant derivatives from an epidemic ampicillin-resistant Enterococcus faecium strain showed precise chromosomal or plasmid insertions of a vanB2-containing Tn5382-like element. Conjugative transposition of the Tn5382-like element was not demonstrated in retransfer studies.

The Frequency of Conjugative Transposition of Tn916 Is Not Determined by the Frequency of Excision

ABSTRACT Excision and formation of a covalently closed circular transposon molecule are required for conjugative transposition of Tn916 but are not the only factors that limit the frequency of conjugative transposition from one host to another. We found that in gram-positive bacteria, an increase in the frequency of excision and circularization of Tn916 caused by expression of integrase (Int) and excisionase (Xis) from a xylose-inducible promoter does not lead to an increase in the frequency of conjugative transposition. We also found that the concentration of Int and Xis in the recipient cell does not limit the frequency of conjugative transposition and that increased excision does not result in increased expression of transfer functions required to mobilize a plasmid containing the Tn916 origin of transfer. We conclude that in gram-positive hosts in which the Tn916 functions Int and Xis are overexpressed, the frequency of conjugative transposition is limited by the availability of transfer functions.

Conjugative transposition of Tn916 and Tn925 in Bacillus popilliae

Interspecies transfer of the conjugative transposons Tn916 and Tn925 into B. popilliae Pj1 occurred using Enterococcus faecalis and Bacillus subtilis CU4049 as transposon donors. Tn916 was stably maintained in B. popilliae Pj1 following growth without selective pressure and was successfully introduced into the plasmid-containing B. popilliae strains NRRL B-2524, Ch1, and KLN4 using E. faecalis CG110. In B. popilliae, expression of the tetracycline resistant determinants on Tn916 and Tn925 provided resistance to 25 μg/mL and 50 μg/mL tetracycline, respectively. An erythromycin resistant determinant, present in Tn916ΔE, was also functional in B. popilliae Pj1 and provided resistance to 1 mg/mL erythromycin. Transfer of Tn916 into E. faecalis, B. subtilis, and between B. popilliae strains was accomplished using a transposon-containing strain of B. popilliae as donor. Efforts to transfer Tn916 between E. coli and B. popilliae were unsuccessful. Key words: Bacillus popilliae, milky disease, Tn916, conjugative transposon.

Excision of the Conjugative Transposon Tn916 in Lactococcus lactis

ABSTRACT In Lactococcus lactis excision of Tn916 is limited by the concentration of integrase and is increased by providing more excisionase. However, even with increased excision of Tn916 in L. lactis, no conjugative transfer is detectable. This suggests that L. lactis is deficient in a host factor(s) required for conjugative transposition.