Conjugative transfer of Tn916 in Enterococcus faecalis: trans activation of homologous transposons

Flannagan, Susan E.; Clewell, Don B.

doi:10.1128/jb.173.22.7136-7141.1991

Cited by 77 publications

(43 citation statements)

References 31 publications

(22 reference statements)

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“…The host range of transfer of Tn916 might depend on the donor potential of the transposon-delivery strain : only strains having a high donor potential can undergo conjugative transposition from Gram-positive to Gram-negative bacteria (Poyart et al, 1995). Tn916 insertions located at different sites of the bacterial genome may possess different donor potentials when considered independently and it has been suggested that the insertion with the greatest potential would be the most likely to excise initially and that this event could stimulate, by trans-activation, movements of all other transposons present in the cell (Flannagan & Clewell, 1991). The dosage of Tn916 circular intermediates in E. faecalis performed by quantitative PCR assay has revealed that the frequency of Tn916 conjugation is dependent on the copy number of circular intermediates present in the donor cell population (Manganelli et al,199.5).…”

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confidence: 99%

Use of an excision reporter plasmid to study the intracellular mobility of the conjugative transposon Tn916 in Gram-positive bacteria

1997

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An excision reporter plasmid was constructed to characterize the intracellular mobility of Tn976 in various Gram-positive bacteria. The reporter component of this plasmid is a chloramphenicol-resistance gene which has been insertionally inactivated with the integrative vector PAT1 12 containing the attachment site of Tn976. Tn976-mediated excision of pATl12, to produce clones resistant to chloramphenicol, was detected in Enterococcus faecalis BM4110, Listeria monocytogenes L028-Str and Streptococcus gordonii BM120, but not in Lactococcus lactis MG1363-RF or in Streptococcus pneumoniae BM124, and always depended upon the ability of the bacterial host to generate circular forms of the transposon. The results suggest that (i) the excision event, although required, is not sufficient for conjugal transfer to occur and (ii) there is no linear relationship between the donor potential of E. faecalis strains and either the excision frequency of pAT112 or the copy number of Tn976 circular intermediates per cell in these hosts. Excision of p A T l l 2 occurred mainly during the late exponential phase of growth of Em faecalis and L. monocytogenes and this recombination event was not stimulated by heat shock, salt and alcohol stresses or by the presence of tetracycline in the medium. INTROD KTlO

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Use of an excision reporter plasmid to study the intracellular mobility of the conjugative transposon Tn916 in Gram-positive bacteria

1997

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“…pAM␣1 was cleaved with SalI, and the larger of the two SalI fragments (Fig. 1) was religated and introduced into JH2-2 by electroporation (16). pAM8502 is a mutant with a 789-bp deletion in mobB.…”

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Amplification of the Tetracycline Resistance Determinant of pAMα1 in Enterococcus faecalis Requires a Site-Specific Recombination Event Involving Relaxase

Francia

Clewell

2002

J Bacteriol

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The small multicopy plasmid pAM␣1 (9.75 kb) encoding tetracycline resistance in Enterococcus faecalis is known to generate tandem repeats of a 4.1-kb segment carrying tet(L) when cells are grown extensively in the presence of tetracycline. Here we show that the initial (rate-limiting) step involves a site-specific recombination event involving plasmid-encoded relaxase activity acting at two recombination sequences (RS1 and RS2) that flank the tet determinant. We also present the complete nucleotide sequence of pAM␣1.Tetracycline resistance in clinical isolates of enterococci is extremely common and is frequently associated with plasmids and/or conjugative transposons (6). pAM␣1 is a relatively small (9.75-kb), multicopy tetracycline resistance plasmid originally identified in Enterococcus faecalis strain DS5 (10). Although not conjugative, it is readily mobilizable by coresident conjugative elements, and its mobilization has been used indirectly to identify conjugative plasmids devoid of easily selectable markers (11,12,28,29).When E. faecalis cells carrying pAM␣1 are grown in the presence of tetracycline, the plasmid accumulates tandem repeats of a 4.1-kb segment of DNA containing the tet(L) determinant (9, 40, 41). The phenomenon was found to involve a recombinational event between directly repeated recombination sequences (RSs) that flanked tet (41). Three models, not mutually exclusive, were suggested to explain how the process may take place (41); the rate-limiting step involves intra-or intermolecular recombination events between the two RSs. (In the case of an intramolecular event, an uneven crossover between the two RSs within a partially replicated molecule can be easily envisioned and requires only a single crossover, whereas the other models invoke two-step processes.) The generation of tetracycline-sensitive derivatives exhibiting a deletion of the amplifiable segment is explainable by the same mechanism(s). After a single tandem duplication arises, the repeated segments bearing tet become available, in their entirety, for further amplification by a RecA-dependent process (43), and growth under selective conditions leads to single molecules with as many as eight repeats (40). The RSs are presumed necessary only for the initial tandem duplication step.Perkins and Youngman (31) found that pAM␣1 represents a composite of two independent replicons, one of which, pAM␣1⌬1, corresponds to the amplifiable segment of the plasmid. The other, designated pAM␣1⌬2, corresponds to the replicon that remains in E. faecalis after loss of tetracycline resistance (i.e., spontaneous deletion of pAM␣1⌬1). (It is believed that pAM␣1⌬1 is not able to replicate independently in E. faecalis but is able to replicate in Bacillus subtilis and pAM␣1⌬2 is not able to replicate in B. subtilis.) Based on its sensitivity to various restriction enzymes, pAM␣1⌬1 was found to closely resemble pBC16 and other plasmids in Bacillus (1, 2) and pUB110 of Staphylococcus aureus (33). Here we report on the nucleotide sequence of pAM␣1 and ident...

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“…The approach to identifying an oriT on Tn916 was to make use of a trans-activation system based on the previously described phenomenon (14) whereby the conjugative transfer of a given transposon activates the transfer of a homologous element located at a different site in the same cell. It was previously shown that when Tn916 was present in E. faecalis on a plasmid and a homologous element such as Tn916⌬E (which possesses an erm determinant in place of tet [27]) was present on the chromosome, selection for transconjugants obtaining one of the elements resulted in unselected acquisition of the other about 50% of the time (14). It was reasoned that if an oriT site of Tn916 could be cloned on a nonmobilizable plasmid and introduced into a bacterial host harboring an intact transposon (Tn916⌬E) on the chromosome, selection for conjugative transfer of the chromosomeborne element should result in mobilization of the recombinant plasmid.…”

Section: Resultsmentioning

confidence: 99%

“…Ligation mixes were introduced into E. coli DH5␣ by electroporation. Qiagen-prepared DNA was then used to transform electrocompetent E. faecalis cells essentially as described previously (14).…”

Section: Methodsmentioning

confidence: 99%

A functional origin of transfer (oriT) on the conjugative transposon Tn916

Jaworski

Clewell

1995

J Bacteriol

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The origin of transfer (oriT) of the 18-kb conjugative transposon Tn916 has been localized to a 466-bp region which spans nucleotides 15215 to 15681 on the transposon map. The oriT lies within an intercistronic region between open reading frames ORF20 and ORF21 that contains six sets of inverted repeats ranging from 10 to 20 bp in size. The segment contains three sequences showing identity in 9 of 12 bp to the consensus nicking site (nic) of the IncP family of conjugative plasmids found in gram-negative bacteria. Overlapping one of these sequences is a region similar to the nic site of the F plasmid. Functionality was based on the ability of the oriT-containing sequence to provide a cis-acting mobilization of chimeras involving the shuttle vector pWM401 in response to activation in trans by an intact chromosome-borne transposon Tn916⌬E. Cloned segments of 466 or 376 nucleotides resulted in unselected cotransfer of the plasmid at levels of about 40% when selection was for Tn916⌬E, whereas a 110-bp segment resulted in cotransfer at a frequency of about 7%. Mobilization was specific in that gram-positive plasmids, such as pAD1 and pAM␤1, and the gram-negative plasmids pOX38 (a derivative of F) and RP1 did not mobilize oriT-containing chimeras.Conjugative transposons are a unique group of genetic elements characterized by their ability to promote their own intercellular transfer. They are widespread in the bacterial world, particularly among the enterococci and streptococci. In clinically relevant streptococci, they are probably more responsible for the dissemination of antibiotic resistances than are plasmids (for recent reviews, see references 8, 10, 11, 29, and 35). The best characterized of these elements are Tn916 from Enterococcus faecalis (16) and the closely related Tn1545 from Streptococcus pneumoniae (4, 13). Members of this family have a broad host range that includes over 50 bacterial species in 24 genera. Tn916 has been sequenced and is 18,032 bp, with a GϩC content of 38.8% (15); 24 putative open reading frames (ORFs) have been identified (see Fig. 1).The rate-limiting step in Tn916 transposition is believed to be an excision event that generates a circular intermediate (5, 17) that cannot replicate autonomously but is able to transfer via a plasmid-like process. Excision requires the products of the xis-Tn and int-Tn determinants (ORF1 and ORF2, respectively) located close to the left end of the transposon (see Fig. 1). When Tn916 is present on a high-copy-number plasmid in Escherichia coli, it is unstable and excises at a relatively high frequency (18); this gives rise to physically detectable circular molecules (31). Numerous Tn5 insertions have been generated in E. coli over most of Tn916. Insertions within the leftmost 10% of Tn916 are defective in excision and/or insertion, whereas insertions within the rightmost 60% are able to excise but cannot conjugate after reintroduction into E. faecalis (32).Tn916 inserts are generally flanked by nonidentical hexanucleotide coupling sequences which can re...

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Conjugative transfer of Tn916 in Enterococcus faecalis: trans activation of homologous transposons

Cited by 77 publications

References 31 publications

Use of an excision reporter plasmid to study the intracellular mobility of the conjugative transposon Tn916 in Gram-positive bacteria

Use of an excision reporter plasmid to study the intracellular mobility of the conjugative transposon Tn916 in Gram-positive bacteria

Amplification of the Tetracycline Resistance Determinant of pAMα1 in Enterococcus faecalis Requires a Site-Specific Recombination Event Involving Relaxase

A functional origin of transfer (oriT) on the conjugative transposon Tn916

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