The fact that there are possibly two different antirestriction pr

The fact that there are possibly two different antirestriction proteins encoded by Tn6000 suggests that it may be able to inhibit a broader range of type I restriction systems than Tn916. Following orf18 in Tn6000, there is an insertion of a fragment of DNA that shares nucleotide

identity and gene order to a region of the virulence-related locus (vrl) from Dichelobacter nodosus, the causative agent of ovine foot rot (Billington et al., 1999). The vrl is selleck compound a 27.1-kb region of DNA associated with more virulent strains of D. nodosus. Recently, it has been identified in Desulfococcus multivorans, indicating that it is likely to undergo horizontal gene transfer. The vrl is hypothesized to be disseminated by horizontal gene transfer between bacteria, possibly mediated Selleckchem Forskolin by a bacteriophage such as DinoHI (Cheetham et al., 2008). In Tn6000, the genes vap and hel (Fig. 1) are in the same order as vrlR and vrlS, a virulence-associated protein and a DEAD helicase of the Super-family 2 from vrl. The proteins Vap and Hel are 35% and 36% identical to VrlR and VrlS, respectively. The DEAD-DEAH helicases are involved in ATP-dependent unwinding of nucleic acids and it is therefore conceivable to imagine a role in the conjugation process of Tn6000. Next in Tn6000 are the remainder of the Tn916 conjugation-associated ORFs, orf17–orf13. Remarkably, orf14 contains a group

II intron, which is 99% identical at the nucleotide level to that found originally in Tn5397, a conjugative transposon originally isolated from Clostridium difficile. The group II intron from Tn5397 can splice from the orf14 pre-mRNA

(Roberts et al., 2001) and, due to the sequence identity between the two, the group II intron from Tn6000 is also likely to splice. We have, however, shown that splicing is not a prerequisite for the conjugative transfer of Tn5397 (Roberts et al., 2001). The DNA sequence Amylase of the remainder of the element has been reported previously (Roberts et al., 2006) and includes tet(S) and the Tn6000 integrase. The Tn6000 region from tet(S)–orf7 is 99% identical at the nucleotide level to tet(S) and the equivalent flanking region (Fig. 1, Table 3) from the broad host-range plasmid pK214 from Lactococcus lactis (Perreten et al., 1997). Database searches also revealed that the region from 25 160 to 28 766 bp on Tn6000 [which includes tet(S) and most of orf6] are present (100% nucleotide identity) on an E. faecium plasmid p5753cB (accession number GQ900487). The Tn6000 integrase protein Int6000 is homologous to Int (42% identical) and Sip (41% identical), the integrases from the bovine staphylococcal pathogenicity islands SaPIbov and SaPIbov2, respectively (Ubeda et al., 2003). In conclusion, we have demonstrated that Tn6000 is a chimerical element of the Tn916-like family of conjugative transposons.

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