Transposons Carrying the aacC2e Aminoglycoside and bla TEM Beta-Lactam Resistance Genes in Acinetobacter .

This study examines the genetic contexts and evolutionary steps responsible for the formation of the widely spread transposon Tn 6925 carrying bla TEM and aacC2e, which confers resistance to beta-lactam and aminoglycoside antibiotics in Gram-negative bacteria. The bla TEM-1 and aacC2e genes were found in several transposons. They were first observed within an IS 26 bounded 3.7 kb transposon (Tn 6925) on several Acinetobacter baumannii plasmids located within a 4.7 kb dif module. Truncated and expanded variations of Tn 6925 were found across other A. baumannii plasmids, as well as in other Gram-negative bacteria (including Vibrio cholerae ). Moreover, bla TEM-1 and aacC2e were in much larger resistance-heavy transposons including the ISAba1-bounded 24.6 kb (here called Tn 6927 ), found in an A. baumannii chromosome. A novel ISKpn12-bounded transposon was also observed to contain bla TEM and aacC2e which was found interrupting Tn 5393 along with an IS 26 pseudo-compound transposon to form a 24.9 kb resistance island in an Acinetobacter pittii plasmid. Multiple mobile genetic elements are involved in the formation of transposon structures that circulate bla TEM and aacC2e . Among these, IS 26 and ISAba1 appear to have played a major role in the formation and spread of these elements in the Acinetobacter species.