strains (LM7R and LM12R – both able to maintain pZM3H1) produced completely different phenotypes. Strain LM7R (containing MER+CZC) gained resistance to zinc and cobalt, but not mercury, whereas LM12R acquired only mercury resistance (Figure 2). Moreover, neither of the strains was resistant to cadmium. This finding demonstrated that the phenotype determined by plasmid pZM3H1 is highly dependent on the host strain. The host specificity of resistance phenotypes generated by two related czcD modules of Staphylococcus aureus and Thermus thermophilus was also described by Nies [62]. The results revealed that the former
is involved in zinc and cobalt resistance, while the latter mediates click here zinc and cadmium (but not cobalt) resistance. In another strand of the present study, the trap plasmid pMAT1 was employed to identify functional transposable elements of Halomonas sp. ZM3. Using the sacB positive selection strategy, we were unable to “capture” any resistance transposons. The only identified elements were two insertion sequences: ISHsp1 (IS5 group of IS5 family) and ISHsp2 (IS630 family). Both
elements are present in more than one copy in the ZM3 genome, and so they may potentially form composite transposons. NCT-501 supplier ISHsp1 is most closely related to ISMaq6 of M. aquaeolei VT8 (89% nucleotide sequence identity). Members of the genera Marinobacter and Halomonas are widely distributed in many environments. These bacteria are usually isolated from the same habitats, including oceans and seas, saline soils, marine snow, hot springs and volcanic basalts [64], which may favor horizontal gene transfer
between them (several strains of Marinobacter spp. have been isolated from the Zelazy Most reservoir; unpublished results). The second “captured” element, ISHsp2, was classified selleck screening library within the IS630/Tc1 superfamily, which is comprised of before promiscuous TEs found in both prokaryotes and eukaryotes [65]. ISHsp2 carries two ORFs encoding the N- and C-terminal parts of the transposase, respectively. Therefore, generation of the complete functional enzyme requires ribosomal frame-shifting: a phenomenon that plays an important role in regulating the frequency of transposition of some ISs (e.g. [56, 57]). The fusion transposase of ISHsp2 exhibits only a moderate level of amino acid sequence homology to transposases of the IS630 family. Moreover, transposition of the IS generates 4-bp-long DRs (5′-TTAA-3′), while other related elements duplicate only the 5′-TA-3′ dinucleotide. These divergent features indicate that ISHsp2 represents a distinct member of the IS630 family. Conclusions Bacteria of the genus Halomonas are “opportunitrophic” microbes, since they are generalists that employ a strategy of acquiring and maintaining a broad and diverse metabolic potential in order to exploit changeable environmental resources [64].