Although Lactococcus is one of the most extensively studied lactic acid bacteria and is the paradigm for biochemical studies of citrate metabolism, little information is available on the regulation of the citrate lyase complex. In order to fill this gap, we characterized the genes encoding the subunits of the citrate lyase of Lactococcus lactis CRL264, which are located on an 11.4-kb chromosomal DNA region. Nucleotide sequence analysis revealed a cluster of eight genes in a new type of genetic organization. The citM-citCDEFXG operon (cit operon) is transcribed as a single polycistronic mRNA of 8.6 kb. This operon carries a gene encoding a malic enzyme (CitM, a putative oxaloacetate decarboxylase), the structural genes coding for the citrate lyase subunits (citD, citE, and citF), and the accessory genes required for the synthesis of an active citrate lyase complex (citC, citX, and citG). We have found that the cit operon is induced by natural acidification of the medium during cell growth or by a shift to media buffered at acidic pHs. Between the citM and citC genes is a divergent open reading frame whose expression was also increased at acidic pH, which was designated citI. This inducible response to acid stress takes place at the transcriptional level and correlates with increased activity of citrate lyase. It is suggested that coordinated induction of the citrate transporter, CitP, and citrate lyase by acid stress provides a mechanism to make the cells (more) resistant to the inhibitory effects of the fermentation product (lactate) that accumulates under these conditions. Many bacteria can utilize citrate under fermentative conditions. The citrate pathway has been extensively studied in enterobacteria (4, 26). In all known citrate fermentation pathways, after its uptake into the cell, citrate is split into acetate and oxaloacetate by the enzyme citrate lyase. In Klebsiella pneumoniae the citrate-specific fermentation genes form a cluster of two divergent operons (4, 26). This cluster includes the genes citDEF, encoding the citrate lyase subunits ␥, , and ␣, and the citS gene, encoding a citrate H 2Ϫ /Na 1ϩ proton motive force-dissipating transporter. Associated with this cluster, K. pneumoniae contains the oadGAB genes, encoding the biotin oxaloacetate decarboxylase, which allows growth with citrate as the sole carbon and energy source (Fig. 1). In Escherichia coli, the cit cluster includes the genes encoding citrate lyase and the CitT citrate/succinate antiporter (22) (Fig.
