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In bacteria, transposons can jump from chromosomal DNA to plasmid DNA and back, allowing for the transfer and permanent addition of genes such as those encoding antibiotic resistance (multi-antibiotic resistant bacterial strains can be generated in this way). Bacterial transposons of this type belong to the Tn family.
Transposition facilitates the transfer and accumulation of antibiotic resistance genes. In bacteria, transposable elements can easily jump between the chromosomal genome and plasmids. In a 1982 study by Devaud et al., a multi-drug resistant strain of Acinetobacter was isolated and examined. Evidence pointed to the transfer of a plasmid in to ...
Indeed, these mobile integrons, as they are now known, can carry a variety of cassettes containing genes that are almost exclusively related to antibiotic resistance. Further studies have come to the conclusion that integrons are chromosomal elements, and that their mobilisation onto plasmids has been fostered by transposons and selected by the ...
Transposase (Tnp) Tn5 is a member of the RNase superfamily of proteins which includes retroviral integrases.Tn5 can be found in Shewanella and Escherichia bacteria. [5] The transposon codes for antibiotic resistance to kanamycin and other aminoglycoside antibiotics.
Integrons: These are gene cassettes that usually carry antibiotic resistance genes to bacterial plasmids and transposons. [15] Introns: Group I and II introns are nucleotide sequences with catalytic activity that are part of host transcripts and act as ribozymes that can invade genes that encode tRNA, rRNA, and proteins. They are present in all ...
Transposon-based Insertional inactivation is considered for medical research from suppression of antibiotic resistance in bacteria to the treatment of genetic diseases. [7] In the treatment of genetic diseases, the insertion of a transposon into deleterious gene locus of organism's genome would misalign the locus sequence, truncating any ...
The antibiotic resistance genes found on the plasmids confer resistance to most of the antibiotic classes used nowadays, for example, beta-lactams, fluoroquinolones and aminoglycosides. [ 10 ] It is very common for the resistance genes or entire resistance cassettes to be re-arranged on the same plasmid or be moved to a different plasmid or ...
Tn5 is a bacterial composite transposon in which genes (the original system containing antibiotic resistance genes) are flanked by two nearly identical insertion sequences, named IS50R and IS50L corresponding to the right and left sides of the transposon respectively. [6] The IS50R sequence codes for two proteins, Tnp and Inh.