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Large conjugative transposons (CTn's) are widespread among Bacteroides spp. and they are responsible for the high rates of Bacteroides tetracycline resistance, which is mediated by the tetQ gene. These elements are self-transmissible and conjugation can be induced up to 1000-fold by the addition of tetracycline to cultures prior to mating. In addition to self-transfer, the Bacteroides CTn's, such...
The 34,734-bp element ICESt1 from Streptococcus thermophilus CNRZ368 is site-specifically integrated into the 3 ' end of the gene fda. ICESt1 encodes integrative functions and putative transfer functions. Six proteins of the putative conjugative system of ICESt1 are related to those encoded by the conjugative transposon Tn916 from Enterococcus faecalis. A comparison of these proteins with...
Transposable DNA elements occur naturally in the genomes of nearly all species of prokaryotes. A proposal for a uniform transposable element nomenclature was published prominently in the 1970s but is not, at present, available online even in abstract form, and many of the newly discovered elements have been named without reference to it. We propose here an updated version of the original nomenclature...
A Bacteroides conjugative transposon (CTn), CTn12256, which has an estimated size of more than 150kbp appeared to contain most or all of a previously discovered 65kbp CTn, CTnDOT. To determine whether the integrated CTnDOT was still intact and to identify the element into which CTnDOT had integrated, large segments of CTn12256 were cloned and sequenced. Results of this analysis revealed that an intact...
CTnDOT is a 65kbp integrative and conjugative element (ICE) that carries genes encoding both tetracycline and erythromycin resistances. The excision operon of this element encodes Xis2c, Xis2d, and Exc proteins involved in the excision of CTnDOT from host chromosomes. These proteins are also required in the complex transcriptional regulation of the divergently transcribed transfer (tra) and mobilization...
Horizontal gene transfer plays a profound role in bacterial evolution by propelling the rapid transfer of genes and gene cassettes. Integrative and conjugative elements (ICEs) are one important mechanism driving horizontal gene transfer. ICEs, also known as conjugative transposons, reside on the host chromosome but can excise to form a conjugative DNA circle that is capable of transfer to other cells...
DOT Integrase (IntDOT) is a member of the tyrosine recombinase family. It catalyzes the integration and excision reactions of an integrative and conjugative element (ICE) called CTnDOT. Like other tyrosine recombinases, the integration reaction proceeds by two sets of strand exchanges between the attDOT site on CTnDOT and an attB site in the host chromosome. The strand exchanges occur seven bases...
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