Abstract

Klebsiella pneumoniae is an opportunistic pathogen that is responsible for community acquired infections and nosocomial infections. Antibiotic-resistant K. pneumoniae and/or hypervirulent K. pneumoniae are emerging as a serious threat to public health. For the sake of alleviating and conquering current dilemma, discovery of effective new drugs against K. pneumoniae is a tough challenge. However, traditional anti-K. pneumoniae drug discovery methods cost considerable amount of time, animals, labor and so on. So an efficient technique for in vitro and in vivo drug screening with the least time duration, animals and labor cost is highly needed for the discovery of new effective compounds. Hence, in this study we constructed a selectable marker-free autoluminescent K. pneumoniae (SfAlKp) harboring luxCDABE by combining Tn7 transposon and Xer-dif system. SfAlKp can be used for discovery of new drugs via detecting luminescence intensity as a surrogate marker. The energy-consuming autoluminescent reaction catalyzed by the LuxAB enzymes which use the substrates produced by LuxCDE using the metabolites of the bacteria. Tn7 can insert exogenous genes into the bacterial genome and the DNA fragment in between dif sequences can be recognized and removed by endogenous XerCD recombinases of K. pneumoniae. The drug susceptibility and growth rate of SfAlKp are identical to its parent strain, meanwhile the luminescence intensity and stability are also significant characteristics of SfAlKp. Compared to conventional techniques, the autoluminescence-based measurement is more applicable to high throughput screening for compounds both in vitro as well as in vivo in animal model.

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