Integrative and Sequence Characteristics of a Novel Genetic Element,ICE6013, in Staphylococcus aureus

A survey of chromosomal variation in the ST239 clonal group of methicillin-resistant Staphylococcus aureus (MRSA) revealed a novel genetic element, ICE6013. The element is 13,354 bp in length, excluding a 6,551-bp Tn552 insertion. ICE6013 is flanked by 3-bp direct repeats and is demarcated by 8-bp imperfect inverted repeats. The element was present in 6 of 15 genome-sequenced S. aureus strains, and it was detected using genetic markers in 19 of 44 diverse MRSA and methicillin-susceptible strains and in all 111 ST239 strains tested. Low integration site specificity was discerned. Multiple chromosomal copies and the presence of extrachromosomal circular forms of ICE6013 were detected in various strains. The circular forms included 3-bp coupling sequences, located between the 8-bp ends of the element, that corresponded to the 3-bp direct repeats flanking the chromosomal forms. ICE6013 is predicted to encode 15 open reading frames, including an IS30-like DDE transposase in place of a Tyr/Ser recombinase and homologs of gram-positive bacterial conjugation components. Further sequence analyses indicated that ICE6013 is more closely related to ICEBs1 from Bacillus subtilis than to the only other potential integrative conjugative element known from S. aureus, Tn5801. Evidence of recombination between ICE6013 elements is also presented. In summary, ICE6013 is the first member of a new family of active, integrative genetic elements that are widely dispersed within S. aureus strains.ST239 is a globally distributed clonal group of methicillin-resistant Staphylococcus aureus (MRSA). Currently, ST239 is a major cause of MRSA infections in Asian hospitals (5, 18, 25, 37, 45, 64, 74). Pulsed-field gel electrophoresis has detected extensive chromosomal variation in local ST239 populations (3, 24, 52, 72). As ST239 has geographically spread and diversified, its variants have been given more than a dozen different names (20, 22, 24, 25, 49, 52, 61, 67, 68, 73), which reflects their clinical significance in various locales. The molecular basis for the ecological success of ST239 is unclear, but virulence-associated traits such as enhanced biofilm development and epidemiological characteristics such as a propensity to cause device-associated bacteremia and pulmonary infections have been highlighted (3, 19, 27, 54).Multilocus genetic investigations of the ST239 chromosome revealed that it is a hybrid with estimated parental contributions of approximately 20% and 80% from distantly related ST30- and ST8-like parents, respectively (58). Unusual for naturally isolated bacteria was the finding that these parental contributions were large chromosomal replacements rather than a patchwork of localized recombinations. It was postulated that conjugation might be responsible for the natural transfer of hundreds of kilobases of contiguous chromosomal DNA that resulted in ST239 (58). Recent genomic investigations have presented evidence that large chromosomal replacements also occur within Streptococcus agalactiae strains and that they can be mimicked with laboratory conjugation experiments (12). Importantly, conjugative transfer frequencies in S. agalactiae were found to be highest near three genomic islands (12), two of which were identified as being integrative conjugative elements (ICEs) (13).ICEs and conjugative transposons are synonyms and refer to genetic elements that are maintained by integration into a replicon and are transmitted by self-encoded conjugation functions (56). ICEs abound in the genomes of S. agalactiae (11), but only one potential ICE has been identified in staphylococci to date: Tn5801 was discovered through the genomic sequencing of S. aureus strain Mu50 (46). Tn5801 is most similar to a truncated genetic element, CW459tet(M), from Clostridium perfringens (57). Both Tn5801 and CW459tet(M) have Tyr recombinases, regulatory genes, and tetM modules that are similar to those of the prototypical gram-positive conjugative transposon, Tn916. Moreover, both Tn5801 and CW459tet(M) integrate into the same locus, guaA, at a nearly identical 11-bp sequence. Although the conjugative transfer module of CW459tet(M) is deleted (57), the conjugative transfer module of Tn5801 is similar to that of Tn916.We suspected that ST239 strains might carry novel accessory genes that contribute to their chromosomal variation and ecological success. To explore this possibility, we conducted a survey of chromosomal variation in ST239 using a PCR scanning approach. We report the discovery and partial characterization of a novel genetic element, ICE6013, that resulted from the survey.