Cloning and expression of Klebsiella pneumoniae genes coding for citrate transport and fermentation.

Three Escherichia coli clones (DH1/Cit1, DH1/Cit2 and DH1/Cit3) capable of utilizing citrate as a sole carbon source were isolated from a cosmid bank of Klebsiella pneumoniae wild-type DNA. Two of these clones (DH1/Cit1 and DH1/Cit2) only grew aerobically on citrate minimal medium, the third clone (DH1/Cit3) could also be cultured under fermentative conditions. The aerobic as well as the anaerobic generation times of the three clones were from 4.5 to 7 h. Whereas clone DH1/Cit3 showed a pronounced lag phase on citrate when the cells were pre-grown in medium without citrate, clone DH1/Cit1 immediately started growth, while with clone DH1/Cit2 a short lag phase could be observed upon transfer to citrate minimal medium. Restriction analyses of the three plasmids showed that no common fragments had been cloned. The length of the inserts were 13 and 6 kb for the aerobic Cit+ clones and 27 kb (10 kb) for the anaerobic one. Cultures of the anaerobic Cit+ clone were analyzed by immunoblotting techniques and shown to contain oxaloacetate decarboxylase, which confers citrate utilization under anaerobic conditions to K. pneumoniae. Enzyme assays demonstrated the active state of this biotin-containing membrane protein. The specific activity in vesicle preparations from the E. coli clone was 30% of the wild-type K. pneumoniae vesicles. Citrate acts as an inducer of enzyme protein synthesis in the E. coli clone as it does in K. pneumoniae.