Characterization of the Ends and Target Sites of the Novel Conjugative Transposon Tn5397 from Clostridium difficile: Excision and Circularization Is Mediated by the Large Resolvase, TndX

doi:10.1128/JB.182.13.3775-3783.2000

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Journal of Bacteriology, July 2000, p. 3775-3783, Vol. 182, No. 13
0021-9193/00/$04.00+0
Copyright © 2000, American Society for Microbiology. All rights reserved.

Characterization of the Ends and Target Sites of the Novel Conjugative Transposon Tn5397 from Clostridium difficile: Excision and Circularization Is Mediated by the Large Resolvase, TndX

Hongmei Wang,¹ Adam P. Roberts,¹ Dena Lyras,² Julian I. Rood,² Mark Wilks,³ and Peter Mullany¹^,^*

Department of Microbiology, Eastman Dental Institute for Oral Health Care Sciences, University College London, London WC1X 8LD,¹ and Microbiology and Virology Clinical Group, St. Bartholomew's Hospital, West Smithfield, London EC1A 7BE,³ United Kingdom, and Bacterial Pathogenesis Research Group, Department of Microbiology, Monash University, Victoria 3800, Australia²

Received 27 January 2000/Accepted 18 April 2000

Tn5397 is a conjugative transposon that was originally isolated from Clostridium difficile. Previous analysis had shown thatthe central region of Tn5397 was closely related to the conjugativetransposon Tn916. However, in this work we obtained the DNA sequenceof the ends of Tn5397 and showed that they are completely differentto those of Tn916. Tn5397 did not contain the int and xis genes,which are required for the excision and integration of Tn916.Instead, the right end of Tn5397 contained a gene, tndX, thatappears to encode a member of the large resolvase family of site-specificrecombinases. TndX is closely related to the TnpX resolvase fromthe mobilizable but nonconjugative chloramphenicol resistancetransposons, Tn4451 from Clostridium perfringens and Tn4453 fromC. difficile. Like the latter elements, inserted copies of Tn5397were flanked by a direct repeat of a GA dinucleotide. The Tn5397target sites were also shown to contain a central GA dinucleotide.Excision of the element in C. difficile completely regeneratedthe original target sequence. A circular form of the transposon,in which the left and right ends of the element were separatedby a GA dinucleotide, was detected by PCR in both Bacillus subtilisand C. difficile. A Tn5397 mutant in which part of tndX was deletedwas constructed in B. subtilis. This mutant was nonconjugativeand did not produce the circular form of Tn5397, indicating thatthe TndX resolvase has an essential role in the excision and transpositionof Tn5397 and is thus the first example of a member of the largeresolvase family of recombinases being involved in conjugativetransposon mobility. Finally, we showed that introduction of Tn916into a strain containing Tn5397 induced the loss of the latterelement in 95.6% ofrecipients.

^* Corresponding author. Mailing address: Department of Microbiology, Eastman Dental Institute for Oral Health Care Sciences,University College London, 256 Gray's Inn Rd., London WC1X 8LD,United Kingdom. Phone: 44 020 7915 1223. Fax: 44 020 7915 1127.E-mail: p.mullany{at}eastman.ucl.ac.uk.

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