Construction and Evaluation of a Cre-lox-Based Fluorescent Conjugation Tracking System

Abstract: Plasmids are small, circular, extrachromosomal double-stranded genetic elements present in bacteria. Plasmids can replicate independently of the bacterial chromosome and play an important role as a transmitter of antibiotic resistance genes between bacteria. Antibiotic resistance genes have been shown to be selected for even in the presence of subinhibitory levels of antibiotics, but the effect of antibiotics on conjugation is not as well understood. To study this, we designed a novel conjugation tracking system utilizing a Cre-expressing plasmid and a chromosomal floxed blue fluorescent protein (BFP) gene. We found that our model worked opposite as intended as cells expressed BFP before conjugation and lost BFP expression upon recombination. An issue with the system was isolated to the direction of the single loxP site remaining after recombination. Both loxP sites were inverted but this did not restore the intended expression of BFP after recombination. Subsequently the system was modified to increase the space between the promoter region and the single loxP site remaining after recombination. This extension produced the desired result as BFP expression now increased upon recombination. Still, further work needs to be done to construct a Cre-expressing plasmid, tune expression of BFP, and show expression of yellow fluorescent protein (YFP) in our model before the system can be applied to clinical isolates.